Green Cove Watershed is the largest watershed on Cooper Point on the Edge of the City of Olympia, and the natal site of the Ecosystem Guild. It cradles a vast wetland complex, with amphibians, bittern, green heron, mud minnow and other uncommon species. These wetlands recharge the local aquifer, providing drinking water for the city and residents, and feed a small stream that flows to Eld Inlet, and supports a robust chum salmon run. This tapestry of life has flourished for perhaps 5,000 years under the stewardship of people now known as the Squaxin Island Tribe.
While the system is a priority for local salmon recovery on paper, the development of the watershed is continuing beyond even modest stream protection targets set by the City in 1998, and forest health is declining with ivy and holly expanding in many stands. There are approximately 5,000 watershed residents, but no shared vision for the future of the watershed. The county has a 10% per year population growth rate, and residents have few mechanisms for exerting their stewardship. We aim to build a systematic community-led effort capable of perpetual watershed stewardship under population growth and climate change.
Bloom begins on Mayday, the apex of growth, when there is both warmth and moisture. The risk of frost is past. The abundance of nature is an official holiday in 66 nations. Called Floralia, Maiouma, Walpurgis Night, Beltane, Calan Mai, Vappen, Kevadpüha, Calendimaggio, Irminden, Prvomajski uranak; the list goes on and on, but they all involve some combination of fire, frolicking, flowers, and baby animals.
The risk of frost is past. Even as shrubs with overwintering flower buds finish their bloom, buds formed on spring shoots start to ripen. Winter storms give way to fickle showers, occasional downpours, and parades of big puffy clouds. Bloom brings the first rumors of the dry season, as the gap between wetting rain increases.
Wild Creatures and Wildcraft
Chinook salmon smolts linger in estuaries. In rivers with spring freshets melting snow there may be returns of “spring Chinook” that come to hold in rivers until spawning in fall. These precious runs, stocked with oceanic fats, are now mostly gone, or hanging on by a few hundred individuals hunting for cold water in summer. Coho fry avoid the mai stem, heading for cool ponds and wetlands to over-summer. The flush feast of salmon smolts pouring into the estuaries and shorelines all spring are coming to an end.
Baby animals make easy prey–a great deal of evolution happens during Bloom. Many spring greens become bitter with flowering, the mushrooms are winding down, but the berries are still green and hard, but the meadows are full of succulent browse. The reminders of winter are gone.
Revegetation
Wildland tenders catch your breath and enjoy the abundance of the green cloak. Buds are all broken, seeds sprouted. The balance of energy has swung from storage root to burgeoning shoot. If the drought comes early, you’ll see it coming in Bloom. The clouds come and go, but the rains never quite wet the ground like they used to. Every green creature is leveraging the last easy water to fuel its annual increment of growth.
Meadows left to grow tall are ready for a first cutting, either to reduce competition for water, or for gathering mulch. Scything in Bloom is a pleasure, as a sharp blade sweeps through turgid and succulent growth. Rearranging biomass on a site is a simple disturbance that can favor out-plantings, smother competition, feed soil biota, and preserve soil moisture. Mulch piles and windrows can be placed to make easy planting sites for the next dormant season.
Growers are finishing dividing, and potting up stock, for fall sale. Now is the last chance to prompt an increase of production with special orders. Bloom is also the very beginning of the seed collecting season, starting with early ephemerals.
Bloom is the best time for precise observation of complex vegetation. Flowers and a hand lens allow for the precise identification of difficult species, Everything is in full leaf allowing for easy quantification of canopy cover, and relative dominance at the peak of growth. Problematic species are easy to spot, and as they come into bloom, root energy is at its nadir, making control by pulling or grubbing more effective.
The Garden
If springtime is busy, bloom is doubly so. The early greens are ready for harvest, and overwintering cole crops are bursting with flowers, garlic scapes are ready. Even as harvest begin in earnest, a second wave of leaves and roots are planted. Then the peas start producing for the freezer, requiring frequent attention.
With the end of the frost and warming soil, the full summer garden goes in the ground: nightshades, cucurbits, beans, and corn. Germination is fast and reliable, as long as seeds are kept moist. Irrigation systems are deployed, and hopefully have been tested and repaired back in spring time. Periods of cloudiness make for good transplanting and seeding. Occasional hot days are good for weeding. Cloches and row covers are retired.
In the tillage garden, to save on watering and weeding, mulches go down. In wilder self-sowing gardens, thinning and harvest can keep crops from bolting early.
Project Management and Hazards
With rainstorms occasional or absent, the season of heavy equipment and earthwork has come. Seasonal labor positions are filled for vegetation surveys, weed control, stream surveys, and landscape crews.
With Chinook salmon out of the rivers, the “fish window” opens–the permitted beginning of in-water work. New stream channels are dug, and wood jams stuffed into stream banks.
The whole mess must be buttoned up by the rains of frost. So work on big projects is like a starting gun at the races.
Community Schedules and Recreation
Bloom is the end of the school year, a final flurry of activity, with finals and ceremony and then summer. Families with vacation use it. Students with service learning are desperate to fill their hours.
Politics and Government
If there is a special session, the state legislative session drags into Bloom, but if not, the state legislature goes silent, even as the federal legislature heats up.
The release of the presidential budget marks the beginning of the budget season. Constituents see the fate of their favorite programs and move to influence the legislature. With events, dinners, publicity stunts, showcases, and rallys, interested stakeholders parade through the nations capital.
Grant and project programs are in full swing, awarding contracts, negotiating grants and agreements, hurrying to complete financial work before end-of-year cutoffs in summer and the winding down of the fiscal year.
This post is part of a standing body of work to capture the seasonal nature of our social-ecological lives, and how they might apply to the work of the Ecosystem Guild and Restoration Camping.
Time for a deeper update on my exploration of the Ecosystem Guild vision in Green Cove Creek Watershed. In the last installment (Update – 2018 Harvest) I resolved to temporarily shift focus away from restoration camping, and explore Green Cove Creek, to focus on the missing mechanisms necessary for communities to protect and restore watersheds in Lowland Puget Sound. I also concluded that restoration camping is all about people, and it seemed like Green Cove was a good place to start building a local community that could ultimately lead restoration camping in South Puget Sound.
This report is long so here is a one paragraph summary:
Summary – Over the last 6 months I produced eight essays, sketched a framework of restoration skills, contributed research to a fight over a watershed development proposal, developed conceptual design for a field station, developed and ran workshops on amphibians and hardwood cuttings, did a bunch of mapping and research, and supported a park planting. More importantly I became much more familiar with the Green Cove Watershed–below I briefly describe 24 institutions and sub-cultures in Green Cove. I initiated work between five watershed partners on a grant proposal that we agreed to postpone. All the makings of an Ecosystem Guild are present, but not integrated. We need a more robust systems to educate stewards, and to protect and restore the watershed. I propose an integrated model for building these capabilities, using a mix of on-line technical content, a project-based “open consultancy” teaching approach, and a flipped classroom model for skill building, based on evolving regional standards for restoration and protection practice. This allows us to begin on-the-ground work, as we build capabilities. There are many sites where we could begin, but I suggest two open consultancies on a private wetland-forest edge and a school mother-garden. Collective impact theory offers concepts for developing backbone functions to improve community performance. As we develop these pilot efforts, we can cultivate and test backbone functions that support future work. This strategy provides a clearer role for interns, and suggests two workshops, to initiate development of South Puget Sound revegetation standards, and to build community functions among Green Cove Watershed partners.
Report on Past Objectives
In my report last Harvest I set the following objectives, and have made some progress:
Publish the eight season year as a framework – Six seasons are drafted–two more to go. Read more about The Eight Season Year of the Salish Sea and how it defines both ecological and social work.
Develop a modular education strategy – I sketched a master list of skills necessary for restoration, and from these picked a core of skills that would allow a community to start restoring vegetation. I started a species list and recovered teaching aids from a previous school garden project. To minimize direct instruction I imagine a Flipped Classroom Model where individuals are able to self study, and we focus time together on learning through applying knowledge through field work. To support this I imagine organizing knowledge and skill learning around a set of standards for completing field work. We have concrete opportunities to run and refine standards in Green Cove at the middle school and college level over three sites (a school, a park, and private conservation parcels) where we can implement through a practice I learned from Darren Doherty called “open consultancy”. Read more below.
Develop LLC structure – After investigation, I decided that piggy-backing on existing institutional structures is more efficient for the moment–becoming a volunteer in schools, NGOs, and the City. This “volunteer” status, done with full disclosure of my ulterior intent of restoring watersheds, also provides a deeper understanding of institutional sub-cultures. There will come a time, when it will be important to own collective property or manage liability outside the scope of existing institutions, and that will require a new institution. I have started framing a LLC operating agreement using a “sociocratic governance with planned mitosis” model (some of the possible functions are discussed below as part of Backbone).
Develop and test a mobile field station – I have a bunch of sketches, have done some research into materials, but am still short of specifications for an initial build. My conceptual design is for a 4’x4’x8′ trailer box with a tool shed on one site, and a kitchen/classroom on the other, that unfolds to a 10′ x 24′ tent structure. Human waste would be managed through a bucket-based composting toilet. It still seems like a mobile field station may be premature, but will become suddenly relevant if we are ready to spend more time in the field away from infrastructure. Describing these systems will require another blog entry, and construction will have to be passed to collaborators or would pull me away from other activities.
Community weaving in the Green Cove Creek Watershed – Much of my work has been focused on getting to know the watershed communities. What an incredible community and place! Perhaps every place is a thing of beauty when fully appreciated. I’ve established a GIS and document archive. We’ve had two workshops on amphibians and cuttings, a planting work party with the city, discussions with the city about park access, and conversations around a prospective grant application, along with some social gatherings. I’ve had a large number of private conversations. My assessment of this community, and my plan for how to proceed is the bulk of my report below.
To remain organized I like to focused on the desired end state–a social system capable of capturing rain, building biomass in forests and soils, and sustaining biological diversity (see Three Simple Goals), as a collaborative activity where everyone benefits through reciprocity (see System Among Neighbors). To achieve these goals, we need three tangible capabilities: the ability to restore, the ability to protect, and the ability to educate ourselves. In practice these three capabilities are intertwined and mutually supporting.
These capabilities largely depend on having the right forms of cultural capital present in the community (See Systems Assessment for Stewardship Design for a more abstract discussion of social flows and forms of capital). For these reasons, understanding the people in the watershed, and their institutions and sub-cultures is very important. People are the cradle of vision, investors in resources, and carriers knowledge. I start by reviewing 24 Green Cove institutions and sub-cultures I have observed.
I am trying to decide where to invest my efforts in developing “backbone functions” that are missing in the existing social system (for a simplistic example: Green Cove has abundant shovels, and students wanting to do work, but lacks a good plant species list, and nursery management knowledge). This is where an Ecosystem Guild could aim to catalyze community capability. The critical principle at work is to remain focused on the capability of the local social system to do the work. We are not colonizing a watershed community to support a new institution. We are strategically building relationships among existing institutions to create new watershed capabilities.
Institutions in Green Cove
I’ve had conversations with around 20 individuals involved in the watershed. I describe institutions and sub-cultures, in part to give individuals some privacy. I am increasingly convinced that our creations are largely built of relationships among individuals. Some people wield disproportionate creative or adaptive capabilities, or may be skilled at crossing institutional or sub-cultural boundaries. I believe deep watershed stewardship will depend on a diverse and inclusive network of these people.
Olympia School District – The school district has Career Training and Education (CTE) programs, that provides funds to schools and teachers, to give middle school and high school students work-like experiences. These programs attract students that are not engaged in sports or music or other extracurricular interests. There are allies in the watershed that are interested in developing a natural resource management CTE program at the high school level. CTE programs have access to resources that enable students to do real world work. Because of the overburden placed on teachers running these programs, they need help engaging professional communities, developing technical resources, and identifying meaningful watershed projects.
Marshall Middle School Citizen Science Institute – In the middle of the watershed two middle school teachers are attempting to fully realize an integrated social and natural science-based education program. They have 60 students in an integrated half-day program and another 180 students/year involved in CTE programs around natural resource careers and horticulture. They have an existing garden/nursery, but want a stronger nursery plan. They are interested in shifting production towards native plants for watershed restoration. This team is adjacent to an alternative elementary school, and has access to a 19 acre, ecologically underdeveloped school yard located a 10 minute walk from a network of degraded headwater wetlands, but in many cases pedestrian access is limited due to property restrictions. Schools provide a natural social hub for child-rearing families across the watershed. We introduced Marshall to the Native Plant Salvage Foundation (who is interested in developing a network of school native plan salvage and nursery programs) This note may be a key target for a future grant, although we agreed that seeking a 2019 No Child Left Inside grant was premature. We began negotiations with parks and local property owners to support pedestrian access to restoration sites.
The Evergreen State College Programs – There are many faculty at The Evergreen State College that teach programs that consider some elements of watershed restoration. Evergreen programs are like tourists, in that they may visit the watershed but move on, preoccupied with paper studies and the resulting degrees. Some faculty are associated with durable campus projects (Natural History Museum, Ethnobotany Gardens, GIS Lab, Organic Farm) but are generally heavily burdened with teaching duties, and it will be difficult to cultivate strong commitments to watershed restoration. However, even the ephemeral attention of programs is the best way to connect with students.
Evergreen Students (sub-culture) – A 15 minute bike ride from the heart of the watershed, Evergreen students have a variety of opportunities to complete Student Oriented Studies (SOS) and Internships as part of their education, and are seeking practical experiences as an entry point to the job market. There is an internship database where The Guild could facilitate involvement of students. Graduate programs have mailing lists of students looking for research projects, and there is a community liaison for undergraduates. It is otherwise very difficult to communicate with students and faculty directly. Breaking into social networks will take some persistence. Interns require solid mentorship and deserve investment. Development of standard project-based practices can make intern entry into productive work easier for everyone. A reputation for providing good quality internships can increase the quality of candidates.
Stream Team – Olympia, Lacey, Tumwater and Thurston County are required to sustain a volunteer coordination, education and outreach system, as part of their NPDES permit under the Clean Water Act. Four stream team staff have varying professional skills and ambitions, but are directly charged with supporting watershed monitoring and restoration. They are also constrained by their institutional mandates, and shape their work based on personal interests. Stream Team also manages a regional mailing list of several thousand interested citizens.
City of Olympia Parks – Grass Lakes Nature Reserve is a city owned wetland complex, with restoration potential at the Green Cove headwaters. Park staff are overburdened with general park management, such as maintaining trails, picking up garbage, responding to people living in the woods, and maintaining infrastructure and gardens. Parks has a volunteer program that is organized but small. Many neighbors don’t know that Grass Lakes Reserve even exists, and park staff are poorly positioned to develop networks within the watershed community. They do have equipment and budget for restoration, and a mandate to support restoration and environmental education, and establish public/private partnerships to maximize the public value of park properties. Parks is generally focused on their own properties and their own needs.
City of Olympia, Environmental Services – This small shop within Public Works is responsible for managing the hydrology of the City of Olympia. Each municipality has such a “surface water utility” authority, and raises revenue through a parcel assessment. These professionals have access to the inner workings of local governments, manage modest public budgets, own tools, and can provide technical assistance and project management. This team operates a small nursery for growing out bare-root stock, and has been working to accelerate restoration of city parks, but can also work in private greenbelts or public rights-of-way to achieve public benefits.
Agency Scientists (sub-culture) – I am lumping agencies and focusing on technical staff within agencies, because except for a few exceptions most natural resource agencies have no durable direct relationship with Green Cove Watershed. Washington Department of Fish and Wildlife and US Fish and Wildlife Service are the primary natural science agencies for the state and federal government respectively. They are loaded with expertise in a variety topics, such as amphibian ecology, fisheries. They have colleagues in USGS, Ecology, NOAA, WDNR and other agencies. Staff from Stream Team and WDFW supported a lecture on amphibian conservation we set up at the Unitarian Church. There is a USFWS team monitoring Olympia mud minnow in the Green Cove wetlands. This inter-agency sub-culture has the ability to put small bits of time into community projects, and can share high quality knowledge and advice, but typically doesn’t develop long-term relationships, and is preoccupied with funded work.
Native Plant Salvage Foundation – A small local volunteer NGO with two paid staff and an active board, has been salvaging and growing native plants. Native Plant Salvage sometimes serves as a contractor to Capital Land Trust and others doing native plant work. They offer plant ID training, including winter twigs, and are increasingly supporting school nurseries, and have long term relationships with an assortment of sites. They are willing to serve as a 501(c)3 fiscal agent if the project is right, but have very limited staff capacity to grow, and don’t have a mechanism for growing a larger staff without grants.
Wild Fish Conservancy – Wild Fish is a regional advocacy, science and restoration NGO, but some of their science staff live in the watershed, and have been tracking the chum salmon run on Green Cove Creek. This brings fishery knowledge to the watershed. In addition WFC has supported mud minnow research, and has specialized in using rigorous methods to expand local government protections under existing rules by documenting fisheries.
Capital Land Trust & Partners – There are eight parcels near the north end of the Kaiser Swamp, and abutting Evergreen land, where easements or title owned by CLT. They have a restoration, stewardship, and outreach staff, working across all CLT holdings, and they are interested in collaborating on watershed stewardship. In general, they limit public use, but are exploring how to increase public access to some sites. CLT has a regional donor network, but has not been pursuing acquisition in the watershed lately for a variety of complex reasons. CLT provides a bridge to a population of private conservation land owners, and is exploring increased public access to its holdings.
NIMBYs (sub-culture)– There is a network of individuals with some legal and science experience that come out of the woodwork to fight development proposals. This includes people active in local neighborhood association. The latest recurring conflagration has been over a development proposal to build 180 housing units on the old Sundberg Gravel Pit, which is an abandoned gravel mine, used as an unregulated dump site, located a five minute drive from 11 toxic waste sites. The NIMBYs tend to react to development proposals, don’t have clear objectives for future watershed condition, but are extremely motivated when aroused. They form an episodic communication network, but are not united in philosophy or methods, and core members, through repeated battle, have developed a warrior ethos.
Homeowners and Neighborhood Associations – Gold Crest and Cooper Crest are two HOAs recognized by the city as neighborhood organisations. There are several other Neighborhoods on the eastern periphery of the watershed, but much of the urbanized watershed is composed of disorganized sub-divisions, or unincorporated county, without functioning neighborhood organizations. Some of these institutions own greenbelts or storm water ponds that provide key corridors for water, wildlife, and forest remnants. Many HOA/Neighborhoods have some kind of internal communication network, but don’t have a clear vision of watershed status or future, and may be preoccupied with internal neighborhood politics.
The Trail Builders (sub-culture) – There is a proposed pedestrian trail network that passes through the southern side of the watershed, being developed by a group of well-connected retired professional advocates, with relationships in state and local government. These advocates are using their networks to incrementally build a regional pedestrian and bicycle trail system that will connect the State Capital to Capital Forest on the SW edge of the greater Olympia city-state.
Religious Institutions – I have heard bits about four religious communities that reside around the edge of the watershed: a Catholic parish, a LDS Temple, a Baptist Church, and the Unitarian Church. The LDS and Baptist leadership appear supportive of the trail builders, and the Unitarian Church has an earth stewardship group that has offered their facilities for public meetings to support watershed restoration. There are other potential religious communities that I have not explored. Each religious institution manages a communications network within its membership–it is unclear to what extent each of these institutions have a city-wide draw, or represents a more local population.
Olympia Coalition for Ecosystem Preservation– a small alliance of professionals advocating for protection and restoration of ecosystems in the vicinity of Olympia, currently focused on the westside green belts along Budd Inlet, but also interested in continuing to develop their capabilities. There is some relationship between members of the Coalition and both Evergreen and St. Martins colleges, and other regional restoration workgroups.
Sound Native Plants – A regionally known native plant nursery and restoration contractor lives in the South of the watershed, and has a wealth of experience and skills, but needs to survive through more or less continuous contracting, but has a community-oriented world view and has supported local work in the past.
Thurston County – Under the Hirst Decision a county was sued for allow development without knowing the status of groundwater. Thurston County is now responsible for evaluating the groundwater status of the watershed under new state requirements, and has regulatory jurisdiction over half the watershed. The county has a fish passage program that is seeking to avoid inaction in the face of legal liability under tribal treaty rights. There are two fish passage barriers in the lower watershed that appear to be affecting spawner distribution. The county led a watershed planning process 20 years ago, that set targets for forest cover, and warned of damage to the watershed from development that has been implemented in some ways, and neglected in others.
Farmers (sub-culture) – We have contacts among a scattering of crop farmers and grazers in the watershed, mostly clustered on the SW corner of the watershed, grazing goats, and running organic community-supported agriculture or intensive vegetable production operations. They are generally supportive of ecosystem conservation, have knowledge, skills and equipment, and also need to use a large portion of their land and labor for commercial food production to make a living.
Thurston Conservation District – The CD is a county-wide “special purpose district” with a budget based on parcel assessments, and staff that administer technical assistance and cost share programs, particularly to farmers, but also to private land owners, to solve ecological problems. They also run a environmental education program in schools focused on water quality monitoring (South Sound GREEN), but don’t have a particular presence in Green Cove. The District has been under assault from politically conservatives that think that the CD should be only be providing farmer subsidies, and not participating in restoration.
Veterans Ecological Trades Collective – A growing network of veterans, now based on a new farm in south Thurston County, organized around permaculture principles, are seeking to develop skills and land access for veterans, in fields related to forestry, farming, and ecosystem management. They may enjoy practical training opportunities.
Capitol High School – A 15 minute walk from Grass Lakes, the high school has a greenhouse, a horticulture program, and an environmental club. The cross country program may use trails in the park once access is increased by the Trail Builders.
South Puget Sound Community College – similar to Evergreen, SPSCC has internship opportunities, a horticulture program, and a natural resource science offerings, and may more more organized communications networks than Evergreen, and is located in the adjacent Percival Creek Watershed.
Blue Heron Bakery – A local restaurant and cafe on the south edge of the watershed that has offered using their space for community events.
South Puget Sound Salmon Enhancement Group – a regional fishery enhancement group, SPSSEG has project management capability for in-stream work and assessment, and is completing a habitat assessment of Green Cove Creek using state grants.
Bark and Garden Center – the largest retail ornamental nursery in Olympia, serves the gourmet gardening community of Olympia. They don’t have a workshop schedule, and their communications network is unknown.
Master Gardeners Foundation of Thurston County – a network of gardeners that host workshops and provides 40-hours of detailed ornamental garden and integrated pest management training in exchange for 40 hours of volunteer community services. Master gardener graduates are looking for volunteer opportunities.
A Vision for Three Capabilities
Plainly, an “Ecosystem Guild” of sorts exists in the watershed, but it is fragmented, doesn’t have shared ecological goals, and lacks the capabilities necessary to restore and protect the watershed. Many individuals are overburdened, or missing specific resources to realize their hopes and visions. There are multiple social networks, but very little local place-based ecological knowledge in circulation. There are tangible pools of capital that are underutilized. Ecological work is limited in scope and fragmented.
I propose a set of three future conditions that describe our ability to achieve an educated community capable of protection and restoration:
EDUCATE!
Transparent – the state of the watershed is transparent to each resident.
Free Knowledge – The knowledge and skills necessary to protect and restore ecosystems are available to anyone in the watershed that is willing to apply effort toward watershed restoration.
Self-aware – The watershed community can generate accurate knowledge of watershed condition.
To protect and restore, a watershed community must have knowledge and skills. When a watershed community can all plainly see the condition of the watershed, and answer its own questions, and has the skills and knowledge to act, then a community can begin to protect and restore in earnest.
PROTECT!
Proactive – residents anticipate impacts, and can work to increase protection prior to a crisis.
Efficient – the processes and tools necessary to address threats are ready and at hand and do not excessively drain resources.
Accountable – the inability of local governments to provide ecosystem protection are remembered and addressed at the ballot box.
When an educated watershed community understands the character of threats, and has proactive strategies and resources in place to either immediately counteract threats, or pursue redress over time, then a community can protect a watershed.
RESTORE!
Self-reliant – The community has the institutions, knowledge and skills to design and implement restoration of the water, biomass, and diversity.
Integrated – Restoration efforts are part of the economic and cultural life of the community, and provide multiple benefits.
When a community that is able to protect its resource base has the resources to design and implement restoration, and when that work comes naturally and is socially fulfilling, than a community can restore a watershed.
A Strategy
We need a strategy for developing these three conditions and capabilities. Of course we can refine our destination over time, but it is important to start heading somewhere if we don’t like where we are. If we can support meaningful learning through meaningful work we can be very efficient and effective. I propose a mix of 1) on-line guild-generated educational content, 2) coupled with project-based “open consultancy” teaching, and 3) a flipped classroom model for connecting skill building related to the project work. This approach will likely require a “collective impact” approach among watershed partners, and the development of some “backbone functions”. Lets break that down:
The best example of a user-generated content platform is a wiki. The Salish Sea Restoration Wiki provides a framework in which anyone can contribute and organize content. This framework can incorporate both open-source content through an archive, and proprietary content through links. Wiki links are stable over time. This kind of open-source repository becomes an open archive and reference manual for our work. Project after project, site after site, watershed after watershed, you can easily refer back to continuously improving wiki content, rather than republishing resources, evidence or materials.
An open consultancy using continuously improved standards is where a professional provides a consultant service to a land owner or manager, to design and implement restoration or protection efforts. Unlike private work, the open consultancy solves a problem by teaching a group of students and the client to do the work through sharing standard methods (documented in the public domain on the wiki). The professional builds intellectual and experiential capital in the community, while generating a protection or restoration product, while further refining shared standard methods through the interaction. The client gets a product, and diverse views of the problem, while learning the methods by which they can adaptively managing the site over time. The student gets to immediately exercise and test new knowledge and skills in a practical context. Consultants, students, and clients contribute to improved standards through the process of doing work.
The flipped classroom model is where a student is taught knowledge through on-line reading or video, so that workshop and field time is reserved for experiential skill development and getting the work done. This allows the student to control the pace of knowledge transfer, and puts responsibility back on the student, for fully engaging in the open consultancy and ecological knowledge. A flipped model standardizes the knowledge available to students and clients as they enter the open consultancy, regardless of the consultant running the project, and reduces the cost and effort to the consultant, maximizing the value for everyone involved. By coupling the flipped classroom with continuously improved standards, everyone involved in a project becomes more effective over time.
Needless to say, we are not there yet. Neither the shared restoration and protection standards, the skill and knowledge base, nor the self-study resources, exist in the public domain. In addition, consultants with the technical knowledge to restore and protect, usually lack skill as teachers. The carriers of knowledge and skill (among agencies, NGOs, and private contractors) have typically not organized knowledge for efficient transfer, nor are they motivated to do so. This work is delegated to academic settings that typically lack practical experience. We do have substantial knowledge about the watershed, but lack detail. The professional restoration system, holds tremendous knowledge in private contractors, who sell knowledge and skill at $100/hour, which watershed residents can never afford. Institutions that do environmental education, don’t invest in skill development or information storage and retrieval, and depend on a direct instruction model for sharing knowledge (which has a low up-front cost but doesn’t generate a durable and retrievable resource). Environmental educators working with the general public rarely have the confidence or experience to run an open consultancy. Researchers typically lack practical experience in manipulating systems. Public agencies, which have a public benefit mandate, are overburdened or lack a shared strategy, platform, or motive for making knowledge transferable and empowering residents in protection or restoration.
So we have all the bits and pieces present in Green Cove, along with a huge concentration of industrial resources, but we are not organized into a functioning system. I believe there is an opportunity to develop a model system in Green Cove, in collaboration with local and regional partners.
To not get lost in discussion, and get to work, we need sites where we can start to experiment with open consultancy.
I am aware of four potential landscape sites at different scales and with different functions that could serve as a test. There are many other potential sites beyond these, but each of these landscapes has an existing protection and restoration stewardship community, and an immediate opportunity to conduct a consultancy:
Kaiser Wetlands private conservation lands (site-scale restoration)
The Marshall Middle School (site-scale nursery/mother-garden)
The Grass Lakes Nature Refuge (multi-scale restoration)
The Olympia urban growth area (landscape scale protection)
The watershed also has a potential student body, including middle school students, college students, neighborhood stewards, and professional and amateur training students. So what kind of situation makes for a good open consultancy pilot site for a startup?
The land manager is interested and supportive of the model
There is a discoverable body of students attracted to the work
The work in not too complex (to reduce the initial burden for standard development and skill training)
We have guild volunteers willing to serve as consultants
The Guild will need to define an “open consultancy standard” which describes how we coordinate the professionals, interns, and students and bring them into a relationship; and define scope with the land manager, while designing the project to social and ecological context at multiple scales. We will need to outline standard practices for assessment, design, and implementation of restoration and protection work. In some cases we’ll be designing standards as we go. We need to support the consultancy by teaching knowledge and skills, using self-learning materials. We need to understand and align with the cycles of the 8 seasons. We’ll need to efficiently develop lessons on video that students can self-study before field work.
This will take more work than just running a “sage on the stage” workshop. However, I suspect we may be creating much more value over time. Each open consultancy generates cultural capital that supports the next consultancy. In this model the processes of learning, teaching, design and implementation are integrated. You are both doing stewardship and building systems that make stewardship easier.
A Proposal For An Initial Open Consultancy
I believe the best fit to test an open consultancy model would be restoration of private wetland buffers, and development of a mother-garden at Marshall Middle School. As an example, here is how institutions and sub-cultures within Green Cove might be organized to conduct the Kaiser Wetland Work.
Kaiser Wetlands Buffer Restoration
Subject: Patch Scale Stewardship in a Wetland Buffer Forest – increasing infiltration, biomass potential and biodiversity support in a degraded young forest stand.
Target Standards:
Stormwater Infiltration
Forest Patch Stewardship
Client: Capitol Land Trust and Affiliated Private Landowners
Consultant: Ecosystem Guild and a Restoration Standards Partnership (potentially including City of Olympia Environmental Services, Sound Native Plants, Native Plant Salvage Foundation, Veterans Ecological Trades Collective, Stream Team, Agency Scientists, Thurston Conservation District, or Capitol Land Trust)
Students: Evergreen Students, Marshall Middle School, Homeowners and Neighborhood Associations, NIMBYs, South Puget Sound Community College, Veterans Ecological Trades Collective, or Master Gardeners.
Backbone
Following the Agile development strategy we need to quickly develop a working prototype. Our first open consultancy will likely be improvised and rough, grabbing resources and methods off the shelf. As we go we will be developing our skill at defining and evaluating a standard. Does is embody good design? Does it integrate multiple scales? Does it describe the range of variation? Should the standard be split or lumped? Also, as we do the work we should be thinking about how each event serves to build the backbone functions that support collective impact in the watershed. Six principles define backbone organization function under a Collective Impact model.
Maintain clarity of purpose (realign, communicate, co-create)
Drive long-term momentum and growth (partner raising, build community, strategic partners, recognition, autonomy, ROI narratives, conditions for innovation)
Build Partnership Identity (formal launch, rituals, team-building, work in and on partnership)
Connect and Align People and Activities (conscious integration, map skills, define domain and role, good meetings, accountability, build memory)
Involve the Watershed Community (understand needs, focused co-creation, engagement, agile development,
Measure and Learn (critical metrics, data stories, find problems)
Building on these backbone concepts, I propose two workshops. Timing and location depend on community interest. To reduce workshop cost, we would test a modified “open space technology” standard, where both the summoning query, and elements of the open space deliverables are more deeply defined in advance. These two workshops would directly reinforce the open consultancy model, and strengthen the consultant community.
Regional Revegetation Standards Retreat – NGOs, local governements, Conservation Districts, Tribes and Conservation Corps conduct revegetation all over lowland Puget SOund. We would benefit from developing shared standards for assessment, design, installation and monitoring of projects so that we can improve our efficiency and effectiveness. This retreat bring together interested parties to establish a revegetation section of the Salish Sea Wiki, and initiate information sharing among revegetation workgroups.
Green Cove Watershed Retreat – This workshop would bring together individuals from among the institutions and subcultures described above, to explore the development of backbone functions for the Green Cove Creek Watershed.
But What About Restoration Camping?!
I did want to briefly mention that I have not forgotten in any way about restoration camping. What I believe that I am described above is the social context for restoration camping, which is essentially a sequence of open consultancies, delivered through a mobile field camp. One step at a time.
Springtime begins on the Vernal Equinox in late March. The balance of light and dark has been celebrated around the world since time before memory, and is now remembered as Nawruz, Higan, Easter or Passover. Days lengthen and shoots and flowers spill from swelling buds. By Mayday, the green cloak is renewed and, Springtime turns to Bloom.
During Springtime, the soil temperature warms triggering germination and growth. Cyclonic storms may still come, and frost on clear nights. Those who think about water in a changing climate are measuring snow pack and hoping for spring rains and strong growth before the droughts .
Wild Creatures and Wildcraft
The wild salmon are on the move. Fry float downstream foraging and lurk in shadow, trying to stay alive. Many creatures gather for the feast of baby salmon. Each fry finds its niche. The coho seek still water to rear, while chum slip quickly to saltwater marsh and eelgrass meadows. Even a single species may divide into life history groups, following different paths, to find the unique opportunities of each river, imprinted in genetic memories.
Spring perennial greens flush and are at their most tender, even before the spring kitchen garden begin to germinate: nettles, fiddleheads and diverse young shoots form a nutrient dense “spring tonic”. Many of the best greens are ephemeral, and quickly become bitter with the bloom. Bags of nettles go directly in the freezer. With the spring comes the once-a-year flow of sap–not as heavy with ritual as among the Eastern sugar maples, but still a significant for easily stripping bark for fiber.
Over spring time, the dawn chorus slowly grows to a crescendo. As the days get longer, you might take a walk at dawn before the day begins, and hear one of natural wonders of the world, as birds from every forest strata stake their claim.
REVegetation
We hope we are done transplanting, but there are always stragglers. In springtime you get to see the efficacy of last years disturbances, any tilling and mulching to create gaps into which we insert plants. Root fragments and seed banks spring anew, to compete with out-plantings and sown seeds. Any weakness in site preparation, planting stock, or installation becomes evident to sensitive eyes over springtime.
Unless you are in wetlands, this is your one solid and reliable season of growth before the summer drought begins menacing young plants. Seeds scattered in fall and spring germinate in this momentary overlap between winter wet and summer warmth. Some may mulch with stockpiles of tree service wood chips, but growth is still slow, such that spring mowning of hay mulch won’t really begin until Bloom, except on the warmest of sites.
In an ideal world we are finishing the design work for the plantings that will go in the ground next winter: planning site preparation, calculating areas and stock counts, so we can count our stock, get in line for purchasing from growers, or plan field collection of cuttings. If you are custom growing for unusual species, you may be looking two seasons ahead, and setting targets for seed collection.
Organized project managers are making plant orders to reserve uncommon stock before the summer rush. Green shoots begin to emerge, allowing more efficient and complete site assessment of species composition on new sites.
THE Garden
The first waves of seeding and transplanting of cool season crops begin in springtime. four plant families dominate the cool-weather garden: Spinach (Chenopodaceae), Mustard (Brassicaceae), Carrot (Apiaceae) and Lettuce (Compositae). Root crops are planted from seed, while in intensive gardens, greens are often transplanted to maximize the use of space.
Tillage gardens are in constant motion, with a constant flow of bed preparation, seeding, watering, and transplanting. Semi-wild gardens spring to life from seed and root with less supervision and effort. Being able to recognize seedlings of diverse species is important for reading the trajectory of a semi-wild garden. Springtime pasture cuttings and lawn clippings can make good mulch even in more refined gardens, with short tidy stems and few seeds. Many winter-germinating weeds find their way into salads.
Project Management and Hazards
Springtime weather is in constant flux. Permits are well in the cue for any dry season construction. Requests for new information can stall the clock. The full project slate for summer and fall is starting to come into focus.
There is the the potential for rain on snow events in the mountains. Snow fed streams can be scoured by spring freshets that leave the banks and rework floodplains. In rivers and streams confined or incised from development, floods flush salmon to the sea, before they are ready, and weaken the river rearing segments of the population.
Politics and Government
In the Washington state legislature, the casualties pile up. Bills die quietly in the corners of legislative committees. Well supported pairs of bills walk confidently out of senate and house. Sometimes rumpled and mismatched bills define future negotiations. The policy dynamics of the legislature is coming into focus, as the resolve and interests of legislators are tested and revealed.
In odd years, the Washington State biennial budget is a battleground, in two waves: the operating budget is first, funding the executive agencies. The capital budget comes second, refined by revenue predictions. The factors affecting each are different, but together they determine the capabilities of government for the next two years. Off-year adjustments to these big biennial budgets rarely add up to much.
On the national stage there may still be no federal budget for the fiscal year already thorough its second quarter. Over the last decade or longer, “continuing resolutions” have become the method of managing the nations finances. Even after appropriations, programs may wait as internal agency politics, further apportion the budget line, until a final verdict is delivered to offices, divisions, and programs . Bureaucrats spend the next three seasons trying to stuff resources through contracting and grant making systems before end-of-year cutoffs sweep those that can’t spend fast enough.
Even as the current federal fiscal year comes into clarity, the struggle for the next federal budget year begins. Perhaps in Budswell we first see the “Pres Bud” or the official presidential budget for the executive branch. But that executive proclamation, is only an opening move, and does not appropriate funds. Lobbyists begin exercising their networks to support their favorite programs in the legislature.
Against the backdrop of legislation and budgets, there is renewed electioneering and the spring recess in April. In even years, a proportion of each state delegations prepares for their election campaigns and challengers and their patrons line up to wrest power from sitting representatives. Political battles can spill over from the floor of the legislature into the streets of local districts and back again. The governing work and the electoral show are muddled together.
Local governments watch carefully, as their work may hinge and shift on a sudden decision or demand at the state and federal level. In return, local governments are a motivated player within the state and federal arena, living at the downstream end of a food chain of funding and rules.
This post is part of a standing body of work to capture the seasonal nature of our social-ecological lives, and how they might apply to the work of the Ecosystem Guild and Restoration Camping.
Winter is coming to an end and the growing season has begun.
Web Infrastructure and content generation
Content development has been focused on the eight season year, now 5/8 complete, and developing a framework around watershed stewardship.
The website has an average of 7.3 users a day with around 15 page views. Web traffic is more strongly driven by facebook than e-mail. Promotion can bump traffic to 20-30 visitors in a day, whereas a mailchimp newsletter only yields around 10-15. I suspect people go into social media wanting to browse, while email feels more intrusive. That is how I feel. When I open e-mail I am looking for friends who write. When I go to social media, I am looking for new information.
As I slowly wander around in the role of social media promoter, I find myself doubting the ultimate value and function of an e-commerce approach to ecosystem restoration and watershed stewardship. Digital simulacrums are not the great work of our time. I suspect it is now better to leave a good and simple signpost, and focus on building the field camp.
Communications and Community Development
STATUS
My current practice is to post to the facebook group and then “share” the post with a set of related regional grounds (for example, Restore Cascadia). Bi-seasonally (every 6.5 weeks or so) I send an email update to the MailChimp list, including any new articles or other events. My goal has been to have this update coincide with work plan review, and public event to date held at the library, a public park, or a local restaurant.
LESSONS
Public events are labor intensive but have created a small network of more engaged individuals (the listserve) and several valuable leads. However one-on-one interviews and chance conversations have been just as productive if not more so. I think an improvement would be to have pre-scheduled planning and social meetings at a fixed location and time, located within the target watershed, and focused on next steps while allowing newcomers to connect with the project.
The eight-times-per-year newsletter and planning session feels like an appropriate schedule. Long enough to allow for meaningful work, but frequent enough to maintain contact. However there is I think very little interest in “planning something”. I think we’ll be much more effective developing and marketing products, rather that attracting people to co-create an idea. This is disappointing but not surprising.
DIRECTION
My proximate goal is to develop a modular educational program, that is focused on 1) watershed risk analysis, 2) watershed vegetation management strategies, and 3) government engagement strategies and tactics. I would test this program in association with specific watersheds. These events and content generated for these activities provides a stronger community building base of activity.
Through education I want to focus effort on building and empowering the existing direct-action volunteer restoration community. The existing volunteer mobilization system is competitive and designed to serve institutions rather than build a dynamic and self-organizing volunteer network. I will approach existing restoration partners and learn how we can empower their volunteer communities.
Institutional Structure
STATUS AND DIRECTION
After researching operating agreements, and templates for cooperative and sociocratic governance I am preparing a LLC operating agreement. This will allow me to enter into agreements and manage accounts, and bring new individuals into a formal collaborative relationship. I have a few collaborators willing to review, but I am now assuming that partners want to see the product, not design the vehicle. The function of the LLC will be to run camps and projects and create a foundation to support volunteer empowerment (either free standing or as a project of an existing 501c3 non-profit corporate partner.)
Camping, Tools, and Nomadic Infrastructure
STATUS
At this point I am focussed on developing a personal kit with which I can support field camps. I have a trailer hitch and have purchased and am assembling a 4 x 8 foot, 1720 lb capacity trailer. I have sketch designs for modular components that can be mounted on the trailer and expand to a tarp-covered workshop, tool shed, kitchen and classroom. This would be an initial “expeditionary” unit, and could demonstrate a number of technologies that would transfer to nomadic residential restoration camping. My personal hand-tool kit is relatively complete, but only supports one worker. Existing volunteer organizations offer tool loans to support larger crews over the short term. I have designs for a mobile rocket stove core using perilite and refractory cement for cooking or heating that need to be tested. I have located designs for a well-designed, self-contained and mobile composting toilet system based on 55-gallon polyethelene drums.
DIRECTION
I am planning on developing this expeditionary kit and testing it at day-camps, where we provide self-contained food, water, and comfort on site with local materials. This will support both publicity and give a field-testing opportunity. Restoration and workshop events will generate donations to support expansion of unique equipment not available from local partners (for example: construction materials, solar water pumping, broad forks, scythes, or resources for tool maintenance and stewardship).
Scatter Creek Prospecting
STATUS
I invested substantial time in building a potential relationship with Heernett Environmental Foundation and its lands, a large conservation landowner in the Scatter Creek Watershed. They were a “rural land trust” with a “working land” ethos, and so were supportive of active land management including camping, much more so that “urban environmentalist” land trusts. Staffing turnover within Heernett has delayed any relationship there. Multiple calls to director of Center for Natural Lands Management, also active in the watershed, have not been returned. Veterans Ecological Trades Collective is in the early stages of establishing an incubator farm and training facility also in the Scatter Creek Watershed, but the location next to the freeway is less attractive for destination camping.
DIRECTION
I suspect Scatter Creek will become an important watershed over time, but the challenge to access Heernett lands and the distance from the South Sound population core reduces my enthusiasm for Scatter Creek as an initial watershed. Based on some initial queries and conversations, I am not anticipating strong volunteer engagement from the local community around restoration. CNLM does not appear to be a motivated partner at this time. I suspect the Guild project needs to start in a population core to build a community base, rather than a location farther afield that requires more effort to lure community. In the future, the Heernett lands on the Chehalis River at the Scatter Creek Community Farm, amidst the Independence Valley farming community may provide the best local opportunity for stepping into a farming landscape with our proposed stewardship and reciprocity model. I aim to continue promotion and support for VETC with mapping and in other little ways where I can, ultimately they may be partners in developing a second-generation expeditionary kit through a grant. I will continue to connect with CNLM staff as part of a larger community of volunteer recruiters.
Forestland Prospecting
STATUS
I had discussions with Nisqually Land Trust about the community forest initiative on Busy Wild Creek in the headwaters of the Mashel watershed.. These lands are adjacent to the Mt Tahoma Trails Association easements, a large cross-country volunteer-managed hut-to-hut ski cooperative. Nisqually Community Forest and neighbors may prove to be a good target, and Busy Wild is a core for Nisqually River steelhead productivity. The site is even farther from a population core than Scatter Creek and so the same challenges are present. There are also “community forest initiatives” on the state-managed Teanaway Project and through the Chimacum Ridge Vision of Jefferson County Land Trust.
I’ve had a few short conversations with a private landowner in the Decker Creek Watershed in the Satsop near Matlock. The Satsop watershed is controlled by Green Diamond, and Decker Creek is one of many corporate-controlled industrial forest watershed. The Satsop is one of four priority watershed for fishery enhancement in the Chehalis Basin Strategy. The interested landowner is within a patch of in-holdings known as “Deckerville” upstream of a recent Capitol Land Trust acquisition, a large wetland complex. This may be an interesting opportunity, but is again removed from our core regional population, and I’d want to explore the relationship with Green Diamond and other local partners before focusing operations in the Satsop.
DIRECTION
Learning how to support “community forest” efforts, and building relationships for direct interaction between nearby forestland catchments and local communities offers a very exciting opportunity for reconnecting rural production, urban consumption, and forest stewardship. I believe that stepping into a forested headwaters is a logical next step following more community development within an ex-urban setting, and as we develop guild community and capacity for self-sufficient field work.
Green Cove Creek Prospecting
STATUS
Green Cove Creek Watershed is a small coastal catchment which occupies most of Cooper Point Peninsula, half in the City of Olympia, and half in unincorporated Thurston County. It includes the Grass Lakes Nature Reserve, eight Capital Land Trust properties and easements, portions of The Evergreen State College, as well as several small organic CSAs and farms providing food for the Olympia Area (e.g. Calliope, Common Ground, Township 18). An expansive wetland complex feeds a very small coho and cutthroat stream. Despite designation as a conservation watershed by City and County, it is being modified by residential development pressure, and the hydrologic integrity of the system, compromised by colonization, will be severely tested under population growth and climate change. The threatened Olympic Mud Minnow has been observed within the wetland complex along with a beaver population, creating some interesting legal entanglements. Because of city regulation there are considerable open space landscapes and unmanaged trails that have limited stewardship and appear barely used by the surrounding community, but which can provide plant materials and an educational resources. We have connected with a couple of motivated conservation land owners and the City of Olympia, and there are restoration sites, and a small existing volunteer community working at Grass Lakes.
LESSONS
I am coming to the conclusion that it will be very difficult to start both residential camping, on-the-ground restoration, and community development all simultaneously. The on-the-ground work is critical to maintain a direct action focus, and for skill development. Community development is the center of the ecosystem guild-restoration camping model. Because of this it makes sense for camping to come later, emerging from the volunteer restoration community as we are ready. This suggests our first phase should be building and empowering a volunteer community which will be done most efficiently from within our most restoration-sympathetic population core (the Olympia “city-state”). Many of the qualities and technologies of a residential camp can be developed in the context of a “day camp” on city or private conservation lands. These day camp sites can also be developed for managed native vegetation that support watershed operations.
DIRECTION
I am planning on moving forward with a “Green Cove Creek Watershed approach” by verifying volunteer networks and site access and the willingness of the landowners to actively managed native vegetation for production. Such a strategy would focus on community development within the watershed, refining a watershed strategy built from existing conservation efforts, and developing a volunteer organization and empowerment system in synergy with existing parcel-based actors. Our goal will be for this community to become self-organizing, and serve as a model and springboard into similar ex-urban watersheds (for example: Mission/Ellis, Woodard/Woodland), and also to serve as the foundation for expeditions into the agricultural and forestland landscapes surrounding the Olympia city-state.
Eight organizations all recruit volunteers in the Olympia “city-state”. The proximity of Green Cove Creek to The Evergreen State College, and to a lesser degree South Puget Sound Community College, creates the opportunity to match local residents and technical support, with youthful enthusiasm and academic projects to strengthen community development.
This post is a re-printing of an old website page. Some of the concepts have evolved, and we've shifted the website to less wordy introductions, but it is an interesting look back at The Guild and Restoration Camping as envisioned in February of 2018, right before buying the domain name.
This is a conceptual design for the ecosystem guild and restoration camping in Q&A format; a hypothesis of how we can achieve our principles. It will have to evolve over time under principled stewardship of a community. Get involved. Please share thoughts or ask a question.
What is the Ecosystem Guild?
The ecosystem guild is a non-profit private foundation that supports restoration camping. The guild provides a simple legal and internet infrastructure to organize our information and labor. The guild is a network and a toolkit, but the camps and their watersheds are where we produce value. The guild is made of individuals. We practice decentralized cooperative democracy and delegation—decisions are made by those most affected. We look for and seek to understand the concerns of others. As a guild-member you are encouraged to exercise your agency and work in groups to serve communities and watersheds, and to find ways that the work serves your needs in return. Guild members make an annual cash gift to support our shared system of restoration camping. The most important decision of our guild as a whole is the allocation of grants, and loans of equipment, based on the systematic peer review of camp proposals.
Why call it a guild?
The word "guild" has both historical and ecological meaning. It suggests that we are engaged in mutual support for a common purpose and applying tangible skills learned through practice and apprenticeship. Ecologically we are choosing our role in the ecosystem, as intelligent creatures that capture water, improve soils, and enhance biodiversity.
Where do the camps come from?
To develop a Camp a group of guild-members form a limited liability company (LLC) that meets Guild standards, and establishes access and conservation goals with a land base (for example the conservation holdings of a land trust) . As in millennia past, we pick our campsites carefully. The Guild makes cash grants and equipment loans to a camp to enable low cost operations. We envision that the guild and camps will grow reciprocally--like the roots and shoots of a plant--guild-members enable new camps, and new camps attract new guild-members. It might take around around 200-300 guild members to generate the dues to employ a coordinator and operate a camp. While we secure sponsors and grants to accelerate development, operations are sustained by member dues and modest residence fees, so our system is stable and independently self-replicating. The first projects of a camp are to develop the campsite and infrastructure.
What is restoration camping?
Restoration camping is a chance to spend time among colleagues focused on supporting communities with ecosystem management, trading skills, and telling stories and songs around the campfire. Our community is a mobile research station to push the edge of restoration and regenerative technologies. We improve the watersheds where we camp. We cultivate vegetation to provide supplies and materials for restoration and sustaining the camp—cuttings, divisions, nurseries, poles, fiber, building materials, and semi-wild foods. Our basic infrastructure is mobile, and experimental: a bathhouse trailer, composting toilets, modular shelters and bedding, high draft clean wood burning utilities, modular photo-voltaic networks, and a well-maintained tool library. We are not an entertainment or education business, but rather a service club, with a clear social contract and purpose. Supplies come from local producers, and equipment is simple, well designed, durable, and where possible, manufactured and maintained on site. Read a vision for a day at camp.
How does a camp operate?
Each camp has an on-site coordinator and a set of interns (supported by guild grants and the primary operating cost of the system.) Guild-members at camp adopt various roles to sustain camp productivity. Camp decisions are delegated by the LLC to a team includes resident coordinators, LLC members, professional partners, and project managers. The LLC defines the vision and strategies, and approves the projects of each camp, and reaches out to the guild and their watershed community for support. The Camp Team works with guild-members, the host, institutional partners, and neighbors to continuously update a digital calendar of seasonal programs and projects. Guild-members plan their camping trips to join projects of interest, meet up with friends, or to answer a call to service aligned with their skills. The calendar may include paid workshops, but most projects and programs are offered by guild-members to other guild-members. Over time, a community of long-timers refine the rituals and technologies of camp life, so that any guild-member can easily step into and support any camp. Restoration camping is family vacation, professional development, ancestral skills training, community service and youth education. The long-timers support the interns and coordinator by filling a set of consistent camp roles.
How do I go camping?
Guild-members sign up through an on-line reservation system and use social networks to rendezvous for service projects. A temporary membership is available for those considering full membership and who want to try camping. Guild-members participate based on their ability to account for their own safety and well-being. The camp team provides training and mentoring to all resident guild-members. To undertake more technical work, guild-members work as contractors to the Camp LLC and gain access the full tool library. We envision that many guild-members will develop the skills to become a small restoration contractor, empowered by guild resources. We are not an entertainment business. A guild member may ultimately join a Camp as a partner in the LLC, and become integral to camp operations, perhaps even developing an enterprise through the honorable management of a portion of the landscape under the stewardship of the camp. The camp is a regenerative production system. These relationships results in three levels of participation in a camp, based on the liability and risk management relationship: 1) visiting guild-member who contribute labor to projects, 2) professional partners under contract who perform a wide range of work, or 3) camp stewards that plan the life of the camp. All relationships and agreements follow guild traditions, and are transparent.
What’s life at camp like?
A camp has a set of protocols and taboos that make camping legible, predictable, safe, and enjoyable to all guild-members. Each morning begins with breakfast after which guild-members lead or join projects, as decided at the prior afternoon's design sessions. After lunch are opportunities for crafts, reflection, teaching, learning, tool maintenance, and project design. There is predictable variation to make the schedule responsive to weather. Cooking groups form the basic social unit and self-organize to using the camp infrastructure for water, cooking, washing and waste cycling. Over the course of the afternoon, some campers leave and others arrive, using an on-line reservation system. The campground coordinator, interns, and long-timers maintain the core rituals, enforces taboos, and maintain a stock of basic supplies available to all residents. You can use camp shelters or bring your own, augment the available provisions, or survive on staples and wild-crafting. Each guild-member brings their own stories and beliefs, skills and interests to the fire. Numbers swell during popular weekend projects and seasonal gatherings. The ongoing funding relationship between the guild and the camp maintains standards of operation, and guild-members use the internet-based network to share information about each camp, helping the camp team develop exemplary systems.
Who develops the projects?
When camping, guild-members contribute four hours of labor a day to stewardship and restoration projects. Members of the camp team and their local and professional partners, lead project design and implementation based on their personal interests, skills and passions. Design teams serve the needs of the land, the camp, and respond to invitations by the land owner or neighbors who want help with their stewardship and restoration. The guild has clear standards for how we provide respectful service. Guild traditions support how we propose, analyze, implement and document projects. The main shelter doubles as a design studio. We maintain a continuous open source consultancy, curated on the Salish Sea Wiki. Our practices are interdisciplinary and cutting-edge. We examine the fundamentals of whole systems, value diverse ecosystem services, and evaluate the efficiency of our practices as we refine a regionally tuned system of integrated ecological design. Different members of the guild bring diverse perspectives to the design table. Ultimately however each project is owned by an individual guild-member or a small project team, approved by the camp team (or an outside client), and supported by volunteer labor. We support and encourage individual initiative, and help each other through the challenges of leadership and learning.
Don’t you need a big institution to do all this?
We design, cultivate, and rely upon systems of self-organization, which depend on agreeable procedures and clear communication. The development of ecosystem strategies, programming, project development, campsite reservations, and volunteer coordination is mediated by an web-based information platform managed by the guild for all camps. The guild network cultivates members as independent and responsible stewards by offering templates, strategies, resources, and mentorship. We are each responsible for bringing stewardship to the land. The ecosystem guild is not an entertainment business. The guild represents and serves its collective membership, and supports camp teams. The camp team cultivates watershed goals and objectives, working from regional restoration planning with local partners, and facilitates the project life-cycle. Guild members and local partners use camps as a springboard, to serve at the level that matches their abilities, and to extend those abilities. Ultimately camp teams have clear procedures for conflict resolution, and may decline to serve a guild-member that has difficulty with respectful self-organization and reciprocity. The camp has responsibility over its domain, even as it encourages guild-members to develop responsibility for the life of the camp life, and ecosystem management projects of increasing scale and sophistication.
How does the guild grow?
The guild grows, because restoration camping is both challenging and meaningful, while moving at a relaxing and pleasurable pace. It strengthens our knowledge and skills as it strengthens our humanity by connecting us in common purpose through creative work. We balance labor, tending camp, private reflection, art and celebration, and learning and teaching skills. Weekday crews assure the basic rhythms of camp, while weekend volunteers let us push on larger projects. Every visit we make new friends and rendezvous with old collaborators. We celebrate and examine old projects, and envision new ones. We are one guild, and we go camping because it enriches our souls as it enriches the land. Join us, or read more about our principles and processes
Civilizations degrade ecological systems. Ours is no different (see the essay on restoration for a summary.) Empowered by fossil fuels our destructive power outpaces any potential for natural recovery. We are the global keystone species, and it isn’t pretty. Our current condition is, ironically, both revealed and obscured by professional science and management.
On one hand professional science is able to imagine, detect and summarize our profound modification of the surface of the earth, from our doubling of nitrogen fixation, to shifting atmospheric composition, to declining global primary productivity and biodiversity. We are surrounded by systematic detailed peer-reviewed evidence.
The language and analysis of scientific ecosystem management, on the other hand, is so arcane and inaccessible that most of our neighbors don’t know the playbook, and may not even realize they are on the team. Government information workers decipher ecosystems, and weigh social and economic significance, largely in private. We do a poor job building a shared base of knowledge.
In back rooms, lawyers leverage every uncertainty in hand-to-hand combat over risk and liability. Legalism wrestles over words and numbers. What width of forest buffer, on average over a whole landscape, lets us avoid liability for killing fish? How many cases of cancer caused by polychlorinated biphenyl ingestion can be glossed over during the next election?
Questions like these reflect the underlying pathology of our stewardship, more then reflecting the interests of people in communities. At the highest levels of leadership, we ask ourselves, “exactly how little do we have to do” or “what little more will satisfy popular demand”? A local leader doesn’t yet need a coherent ecological platform to gain and hold power. In modern environmental management, communities are not participants in a web of life, they are “interested stakeholders.”
The truth is that we have lots of restoration projects, but very few restored watersheds. Projects are occasional, while deforestation and pollution are constant and grinding. If we don’t effectively restore any one thing in particular, what are the chances of restoring the whole Salish Sea? Is ecosystem stewardship just another politicized industry and legislative product, competing in the marketplace of ideas? Do we chase after symptoms while ignoring the disease?
We need some simple ways to talk about ecosystems that help us think clearly. Understanding ecosystems doesn’t have to be complicated. The best tool does good work with the least fuss. I’d propose that three measures, tell us most of what we need to know about our stewardship of a watershed.
1. Water
What do we do with the rain? We can either capture and store it in wetlands, vegetation or groundwater, or we can send it as a polluted flood to the sea. Water is the first fertilizer, and our droughts are lengthening, and will bring more fire. We can directly observe our waste of water by walking the watershed in the rain. We could capture and store the rain and recover the functions of our cut forests with common tools, if it weren’t for property rights and aquatic ecosystem regulation. Learning how to protect and store the water together is our first great challenge. (Read more)
2. Biomass
The surface of the earth is cloaked and transformed by plants and their remains. Plants create soil, and I could have just said “soil” instead of biomass, but I’d be missing the forest. Our rainforest home is among the great woody carbon reserves of the earth, accumulating hundreds of tons per acre of mammoth tree boles and layered coarse woody debris. This biosphere is our home, and we are just little crawly things on its surface. Before we learned how to burn fossil fuels, we were already busy cutting forests, overgrazing hill-slopes, and turning soil to dust and pavement, mostly to grow food, house people, or feed smelters. Biomass mediates the water cycle and forms the structure in which diversity resides. Rebuilding biomass, while feeding ourselves is our second great challenge.
3. Diversity
When we restore water and biomass over a large surface of the earth, we create the conditions for life. The biota around us are a legacy from a once abundant world, that we either cherish or squander. Global ecological integrity is disintegrating from agricultural development, elimination of predators, over harvest of keystone species, chemical disruption, habitat destruction, and our assisted migration of diseases and pests. But evolution still works. As we destroy species, we diminish creation. As species form new communities, in search of new equilibria, in a new and changing climate, we are likely to experience a millennia of instability. Whether we like it or not we are no longer in control (if we ever truly were) but we do profoundly influence the processes. Stewardship of diversity will be challenging and painful, but we can look deeply at the populations that remain, and play our humble role, largely of self-restraint. Using our influence to wisely protect our evolutionary heritage is our third great challenge.
With these three goals in mind, all of us can work on our watersheds. Complexity doesn’t help. Right where we live, we are either catching more rain, or less. Our biomass reserves are increasing, or decreasing. Keystone populations are expanding, or crashing. We can map our strengths and weaknesses watershed by watershed and get to work. We can see change for better or worse, outside our door, and down the street. This doesn’t require scientists–it requires personal commitment. This is a simple thing. By retaining water, building biomass and protecting and restoring biodiversity, at a landscape scale we can build a strong foundation for the future, whatever it brings. If we fail at these three simple tasks, than we deserve the ruin that we will have earned.
Post Script – When I say “our” watersheds, I am using the possessive primarily in the sense of our responsibility. The challenge before all others is to take responsibility for our own behaviors. Without a measure of self-discipline, all will be lost. When I ask us to consider “our watersheds” I mean ALL the watersheds from which we extract or derive our sustenance. If you buy beef from Brazil, then the Amazon is your watershed too. Once you put your hand on the balance, it cannot be undone. Its the same in our forested foothills, as disposable chopsticks, disposable packaging, and disposable housing feeds the aggressive and endless clearcut in our foothill forests, reducing them to fiber factories. We cannot tend our watersheds at the expense of another, and pretend any moral foundation, nor can we adequately steward our lands where we have relinquished our sovereignty.
Budswell begins sometime around Brigid’s Day, also called Imbolc or Candlemas, with the Chinese Lunar New Year is sometime near. Day length grows rapidly, buds swell, and bulbs push through duff. Budswell ends, and springtime begins with the Spring Equinox, celebrated around the world since time before memory, now remembered as Nawruz, Higan, Easter or Passover.
Winter still holds the land in its wet cold grip, but many creatures, marking the day length, know that the green flush of spring is just around the corner. The mountains are hopefully deep in snow, a vast crystalline reservoir insuring summer river flow.
Wild Creatures and Wildcraft
Wild salmon eggs begin to hatch, and alvins live in the gravel, eating their eggs sacks, until one-by-one they being to drift downstream, looking for eddies and still water in which to forage.
The high country is still only accessible to back-country skiers that must contend with chilling rain and slushy spring skiing. In the lowlands the early shoots of forbs and some trees provide vegetables long before spring gardens are planted.
REVegetation
The final push to get all bare stock in the ground is now. Everything left un-planted must be potted up and watered for another summer–good motivation to keep planting. Elderberry (Sambucus spp.) will break buds early and are particularly vulnerable if they unfurl leaves with weak roots. Cuttings can be thrown in the cooler to buy time.
Ideally you finish the bulk of planting and have time to tie up loose ends, and look ahead to the next year. Look back at your plantings. Have you documented plant counts and areas? Have you written down any experiments you might forget? Where will you need to provide the most aftercare? Where are the places where you will create disturbances over springtime and bloom in preparation for next winter’s plantings?
If you want to introduce mulch crops by seed, now is your last chance to create rough seed beds. Machines might be too rough on sensitive soils still too wet to be worked, but a tillage hoe can cover lots of ground.
THE Garden
Bed preparation is underway for the earliest crops, if you can find a dry week to do the work. Any mulch laid in fall is now thin and rotten. Perennials that have hidden all winter may show their shoots enough to be dug and divided. Overwintering crops will also wake up soon. Any remaining root crops, often biennials by evolution, will soon begin their final expenditure. There will soon be abundant shoots and seeds from overwintering mustards.
Waves of transplants begin under plastic and glass. The conundrum: direct sow or transplant? There are advantages to both, and early seeding is risky, both from weather and slugs. This is the last moment for tending the tool shed, before the continuous tilling, and weeding, and seeding, and thinning, and transplanting of spring begins. Tend your tools, tidy your work spaces, Assess your stocks and supplies.
Earthworks, Construction and Hazards
The last floods of spring come. In some cases, warm rain falls on melting snow, sending a surge down the rivers. Any mistakes around erosion or flood management have been made plain by the relentless rains.
Large scale construction is a slow motion dance. Next year’s earthwork season is closer than it might seem. The allowed time for in-water construction work begins in Bloom, at the beginning of the dry season. Restoration project managers are nailing down permits, and are competing for the best contractors, reviewing bids.
Politics and Government
The state and federal legislative processes are in full swing. Strategies developed following last years elections begin to take shape. Lobbyists organize their troops and create spectacles to compete for time and attention. The process of governance is ruled by never ending events and pageantry. Political capital is hoarded and spent.
At the state, however, the main even is just beginning to unfold. After positions and new directions are debated, elevated, or buried, comes the main event: the budget. Words can be loud but hollow, and money talks louder than words.
Over at the nation’s full time legislature, the drama can play on for months, particularly in election years. Agencies may still be waiting for their budgets that would have begun back in October. Executive programs are often hoarding or conservatively spending based on a calculus of continuing resolutions and rumors, and prepare to jump depending on which way the dice fall.
This post is part of a standing body of work to capture the seasonal nature of our lives, and how they might apply to the work of the Ecosystem Guild and Restoration Camping.
Plant-soil work is perhaps the fundamental process of ecosystem stewardship. Every landscape on earth is shrouded in a green cloak of vegetation, with a particular structure and composition. Plants created the earth as we know it. The line between plants and soils is difficult to draw. Plants are a manifestation of a living soil ecology, and the soil ecology is aggressively modified by plants. We almost always work on both together. This land cover drives hydrology and carbon storage, and is the infrastructure of biodiversity.
Like most human endeavors, our work with plants and soils follows the annual cycle of the sun. The Eight Season Year is a framework for organizing that annual cycle. Plant-soil work occurs everywhere locally; a primal intersection of social and ecological systems. Some kind of multi-scale systems assessment is useful for clarifying the context of plant-soil stewardship. Our work has layers of purpose and meaning.
Plant-soil work is infinitely varied, but follows recurring patterns. Buried in tradition there is some goal of achieving a desired future state. If you are farming for a living, that desired future state is an easy to harvest field full of product you can sell. If you are cultivating an ecosystem, your desired future state may be an evolutionary trajectory that plays out over 1,000 years. The important part is that you know where you want to go. Without clarity about where you want to go, you cannot pick a target, assess a complex social-ecological system, or design a good soil-plant treatment to get you there.
Most soil-plant treatments are built of three parts: 1) disturbance, 2) propagation, and 3) aftercare. This is a simplification, as a “treatment” may include several cycles or repeat steps, but we can always find three parts:
Disturbance – Vegetation fills every viable niche on the surface of the earth. To introduce a new vegetation pattern we apply some destructive force, to create a vacancy. Nature does this with floods, landslides, fire, and herd animals. Humans use tillage, mulch, animals or poison. As part of our disturbance we may modify soils, changing their structure and composition. Because disturbance takes work, we constantly ask, how little disturbance is necessary to create enough of a vacancy to achieve the desired state?
Propagation – The second step is to introduce some propagule into our vacancy. A propagule can be seed, a cutting of stem or root, a bare root plant, or potted stock. Perhaps we are only activating seeds sown in the seed bank by previous generations. The production and transport of propagules takes work, and less developed plants are better able to adapt to a new niche, but less able to withstand stress. So we constantly ask, what is the smallest propagule that can establish on a site, and initiate the transition to our desired state?
Aftercare – Once our intervention is complete, the wildness of the earth re-asserts itself over the site. Propagules are subject to competition and stress. We mediate that process, by supplying nutrients or water, or with selective disturbance. Aftercare is always more expensive than the initial disturbance, because we have to work around our propagules. We now pay for any poor choices in steps one or two. There are many risks: poor site assessment, ill-informed species selection, too little disturbance, too small a propagule, a labor intensive layout, a bad season, poor quality stock, or unskilled planting. We pay for any weakness in design with aftercare. If our design is poor, or we are unlucky, we can fall into spiraling aftercare costs, or fail to achieve our desired change.
Every plant-soil treatment successful or not, emerges from a vision of a desired future state. In restoration, we push ecosystems from one wild state to another wild state. Given the complexity of wild things, lack of clarity in design is not surprising. What exactly is the desired change? Where are we going and why? It is easy to be lazy in our intentions and purposes, and play it by ear. I suspect that if we are going to restore hydrology, carbon stores and biodiversity at the scale of watersheds, our soil-plant work must become a disciplined art. This art is built from a deep knowledge of place, species, tools, technique, and the annual patterns of vegetation.
Evolved vegetation is not entirely random. What we see in a plant community are the results of forces at work in a place. Those forces precede us and remain after we leave. Vegetation ecologists attempt to explain the factors that control vegetation, and their theories can help us organize our thinking about soil-plant work, so we are working in alignment with ecological drivers. In particular we pay attention to the role of disturbance and stress. These drivers change as a stand recovers from disturbance (a pattern called “succession”), and different species have traits that are adaptive to circumstance. However the evolution of a patch of vegetation is also affected by more random processes of assembly, like who’s there now, and who shows up next. The narrative of vegetation is like an story where the details change, even as the themes remain the same.
Lets take each of these concepts in turn:
Disturbance
Each site has a regime of disturbance. Disturbance involves physical damage to a plant. Storms rip at stems and leaves with some combination of wind, ice, snow, and cold. The flooding of rivers and streams can scour or bury, and saturated slopes slump and slide. Grazing herds nip and trample more noticably than the quiet predation of insects or fungi. Living under a big-leaf maple insures an annual burial under smothering leaves. Plants have a traits that make them more or less resilient under disturbance, such as winter retreat to roots, stems that form roots, or the production of toxins. The frequency, predictability, intensity, and homogeneity of disturbance determines who lives or dies on a site, and shapes structure and composition.
Stress
Optimal growth is achieved in warm, moist, and oxygenated environment in the presence of nutrients. In the absence of stress and disturbance, life in a patch of vegetation becomes a race for light amid rampant growth. As growing conditions become less than ideal, this causes stress, a reduction and eventually cessation of growth. Cold, heat, prolonged inundation, nutrient deficiency, or drought can slow growth or force dormancy. Each species has traits that make them more or less resilient to different stresses: waxy leaves, deep roots, or symbiotic relationships with bacteria or fungi. As with disturbance, stress comes in different frequencies, intensities, and with variable predictability over an annual cycle. Species that are resilient to the stresses of a site will come to dominate the vegetation.
Succession
Following a severe disturbance, there may be more resources available to an entrepreneurial propagule. As vacancies are filled, and the annual regime of stress and disturbance settles in, the rewards for exuberance decrease. Even as the work of plants increasingly moderates climate, retains moisture, and cycles nutrients, those resources are shared among increasingly entwined co-habitants. The species that are successful after disturbance shift over time, from fast growers, to those that are able to thrive under the stresses of cohabitation. This process is called succession, and as plant-soil workers, we can anticipate, accelerate, arrest, or reset successional processes to suit our purposes.
Assembly
While we can talk about pattern, the reality of vegetation is formed by uncountable individual experiences by individual plants. Any pattern we might detect emerges as a general direction, driven by a mix of potentially erratic processes. While succession is a tidy and useful story, the development of vegetation does not follow a predictable path. The sequence of arrival, specific interactions, and random events may create unexpected changes in the story-line of vegetation. Under climate change, past performance may not indicate future behavior. As short lived species, we humans may have a very limited understanding of long-lived cycles and patterns. We may find patterns out of habit, to soothe our confused minds, while the wild is sublime in its chaos. It may be more useful to see evolving vegetation as subject to a variety of filters that winnows down the pool of potential species, to those that can complete the challenge of life in the moment. A variety of young ideas, under the umbrella of assembly theory, attempts to makes sense of emerging unpredictable reality.
Annual Cycle of Work
Armed with this language, lets walk through the Eight Season Year beginning in Springtime (early spring). Bud-swell (late winter) is a culminating flurry of activity, when woody plant propagules are inserted into a site during cold weather dormancy. In Springtime we catch our breath, and look at what we have done. We anticipate our our past mistakes, and begin aftercare and disturbances in preparation for the next planting.
Springtime (Equinox)
By the equinox, all our woody planting should be complete, and we can turn our attention to aftercare of old plantings, and disturbances to prepare for new plantings. We can observe leaf and shoot development rate and color, and get a feel for which plantings are robust, and which are weak. While the ultimate outcome is yet to be seen, and first year growth varies among species, we begin to feel which of last years treatments are effective. We get to see the regrowth in last years disturbances, and the level of competition. Any detail weeding should be done in spring time, before weeds are rampant. Tillage windows become abundant, although spring seed beds will be rougher than those begun in fall, and seeds are sown when not requiring cold stratification.
Bloom (Mayday)
Bloom is the peak of above ground growth, and the moment when new plantings are over-topped. Vegetation is succulent, nutrient rich, and easy to cut. This is the opportunity to chop and drop, or cut and carry material to smother planting sites for next years growth, and to protect new plantings from drought. The mechanisms for providing water as aftercare should be in place, as drought can come in bloom, and water may be most effective if applied in occasional deep irrigation before drought stress arrests growth, so that new plantings can sustain root growth into the drought. In bloom, the flowering details of species are easily observed, but spring ephemerals are still present.
Drying (solstice)
Earthwork and tillage is easier while there is still some moisture in the soil. After the rush of cutting and piling and before the heat of summer is the ideal time for all outdoor construction and earthwork. Building trails and bridges. Cut and carry can continue in moist areas with rampant growth. The seed formation and collection season has begun.
Harvest (Harvest)
By Harvest, the natural dry-down may create intense stress. In new plantings, some of this stress is beneficial, driving plants to commit to deeper roots. Seed harvest is in full swing.
Leaf Fall (Equinox)
With the return of rain, the aftercare season is over, but planting season has not yet begun in earnest. This is a good time for starting a new round of layering.
Frost
Frost is the beginning of the dormant season, and the ground is less likely to be frozen than during darkness. Out-plantings, particularly evegreens, will have the maximum time to adjust to their new settings.
Leaves are abundant, and can be collected, moved, stockpiled or concentrated to achieve disturbance effects. Some municipalities will stockpile or even deliver leaves. Tree services begin their winter storm cleanup work, and will be motivated to dump ramial chips.
Darkness
After a flurry of planting in frost, and after the holidays, attention turns to cuttings, which benefit less from the early out-planting. Clear days bring frozen ground, and inefficient planting. Bare root orders arrive, having been dug by nurseries during Frost. Planting in Darkness makes you wonder why you didn’t get your work done during Frost.
Budswell
As day length expands, buds begin to break, stimulating root growth. Elderberry and osoberry pop first, and any bare root plant or potted stock must go in the ground or be replanted into nursery beds for another summer of watering. Weedy root-mass not sufficiently damaged by disturbance will start to push through rapidly decomposing mulch. Leaves and cuttings from last season are almost gone, while wood chips persist. This is the flurry, before you take another breath, and switch to aftercare and a new wave of disturbances.
Each plant-soil treatment is an experiment, based on a prediction (sometimes unstated or unclear). To the degree each treatment is well-designed, and we watch our results, we can advance a shared art.
Our greatest challenge is to find and let go of useless work. Can we use the right tool, and the right technique, at the right time, and create the desired result with less effort? Can we create a sequence and structure and timing of disturbance that also reduces the labor of aftercare? Can we use accelerated assembly and succession to let time do our work for us? This is the mystery ahead.
Right now, I suspect our plant-soil work is rudimentary. We are good at trees, because they are easy. Biodiversity is harder. Succession is haphazard. The dynamics of assembly, mysterious. We use lots of oil and buy lots of stuff. Labor is separate from design, and monitoring is generally absent. Staff turnover is rapid, and plant-soil workers are the last to be consulted and the least paid. We don’t respect the art.
Further, most of us don’t use wild plants, and so we barely care about the wild communities we tend. A young forest with fifty species might provide twenty products to enrich a community, and harvest might be just another tool to guide assembly. But we are divorced before the planting is even done. The designers have gone home, and the crews toil in the rain, and may never see the site again. No wonder we remain ignorant.
The cycle of the year suggests a web of practical skills from ecology, horticulture, ethnobotany, pedology, phenology, silviculture, agriculture, botany, allometry, biology, agroforestry, and culinary arts. You can follow the roots of these sciences deep into time before memory. Each thread of this web ties us to the land. Each place is a new story unfolding.
This is a framework for integrated social-ecological systems assessment to support the mission of the Ecosystem Guild. WARNING–very abstract stuff.
Stewardship is a two step dance. You observe and then you act. Then you do it over again[1]Different authors differ in their choreography of the dance, from Hollings’ early descriptions of adaptive management, evolved into the Open Standards for the Practice of … Continue reading. All of our knowledge, skills and technologies just facilitate this two step dance. We are trapped in the current moment, we learn by comparing present to past, and we speculate about the future. Stewardship of ecosystems is the ultimate strategy game[2]A portion of my fascination with this work, and my approach, comes from playing the classical East Asian strategy game of Go. Many complex games offer metaphorical guidance. We are all players.
When I play a game, I like to have a strategy to organize my work. If we hope to play such a game as a community, a shared model is necessary to support our collaboration[3]Many strategic approaches depend on construction of shared models, such as Stroh’s Systems Thinking for Social Change, group exercises in Value Creation Chain evaluation proposed under Lean … Continue reading. In this infographic I offer my 30-year synthesis of how to assess the game board of ecosystem stewardship (also available in PDF format). It has been a vexing journey, and a learning experience, with ideas gathered from many different sources, so it seemed like a good idea to pause for a moment and try to scribble down a map. The next 7,000 words are just an expansion of this graphic. This is a draft and I have a lot to learn. Assessment of the design environment is so central to ecological work. I will likely be revising this the rest of my life. There are footnotes where I try to credit my inspirations. Thank you.
Before diving into the essay, here is the one paragraph version full of lingo:
“Stewardship is achieved through the design of behavior at the interface of social and ecological systems. Systems are nested and operate at multiple scales–the earth is a shared system now dominated by human behavior. While ecological systems are tangible, social systems are largely a fabrication of consciousness. Stewardship design requires identifying a system of appropriate scale for our work, and discerning both ecological and social context, at both larger and smaller scales than our system of interest. Large scale structures and processes are often stable and slow, and smaller scales are often fast and evolving. We are both influenced and inherit our purposes from our place within larger scale systems. We act on these larger systems only through the cumulative effects of work within our zone of influence. There are likely optimal scales at which to cause a durable change in system state. The complexities of systems are best integrated in places at a human scale through design. Design is driven by values. At any scale, the functions of a system are shaped by the interactions among processes and structures, resulting in the emergence of functions or dynamics. Often a few defining processes regulate system dynamics. Some system dynamics are stable and generative, and we describe these as natural, human, or economic capital. Many different forms of capital are realized and sustained at different scales. Stewardship is the process of developing and sustaining diverse forms of capital through the cultivation of effective individual actors within a nested human-ecological system.”
Ecological Systems, Human Social Systems, and Design
Ecological systems and human social systems interact, but are fundamentally different. Ecological systems are made of tangible features that can be measured. If we spend the time, we can sense the flows, fluxes, and transformation of energy, water, nutrients, and gases[4]This nomenclature for ecological processes is inspired by processes-based models developed Simenstad and others, and will be revisited later, however the division of systems into four elements … Continue reading. Human social systems by contrast, are mostly inside our heads.
Between ecological systems and humans systems there is overlap, where the ideas in our heads lead us to work on the land, and some of that work can change ecosystem state[5]“Ecosystem state” is common short hand for the structure of a system at a moment in time. In turn, our observations of ecosystems can inform the ideas in our heads about social systems. How we obtain resources and interpret scarcity is an example of this interaction. Our relationship with nature is a story in our head, that is played out on the ground. This”place and moment of social-ecological overlap” is important, because as ecological systems and human social systems collide it determines the fate of civilizations. Stewardship is focused on shaping this interaction so that it aligns with our values and sustains the well-being of our descendants.
My assessment of social systems is focused on humans. There are beaver social systems and wolf social systems that we barely understand. Humans, however, are the earth’s dominant ecosystem engineer. Our efforts eclipse the work of all other beings. We do not tolerate any creature that contests our domain. The global well-being of most species is now along for the ride as we careen along a precipitous road mountain, dependent on our ability to drive–our emerging capability of collective design[6]I suspect that collective design capability is different than individual design capabilities and that individual design capabilities may not be sufficient to solve ecological stewardship problems..
The global well-being of all species is now careening along a precipitous road mountain, dependent on our ability to drive–our capability for collective design (Image from Pakistan Today by Javed Azam)
For the purposes of stewardship our social system and the ecosystem are not separate. They are one integrated system. I often avoid the word “natural”. Both human-built environments and “wild” places are part of a single inseparable social-ecological system[7]The term “social-ecological system” has emerged in part form the adaptive management community described earlier, the subject of increasing scholarly work. Our built environments are just those patches of earth that we have most aggressively engineered. While we may wholly transform a watershed it is still an ecological systems. Our idea of being somehow outside nature is only a story of rapidly declining utility[8]This is not intended to suggest that when humans detach from evolutionary processes and systems that there are not consequences in our mental landscape. We could likely describe a wildness gradient … Continue reading
I am using the word “design” both broadly as a widely applicable process, and precisely, as a specific phenomena. We carry all kinds of stories and understandings in in the clutter of our heads. Not all of these affect our designs. Design is the mechanism by which we take the stories in our heads, and turn them into tangible work in ecological systems. Our designs may be simple or sophisticated, and stack one upon another. However, we still work one design after another, one work after another[9]It is important to differentiate between work and talk. It is the work that affects ecosystems, and the talk only counts when it changes the work. Sometimes our designs are so ingrained, and our work so ritualized that they are almost subconscious, like when we repeat our design for how we get to work in the morning, burning fuel and spreading copper dust and oil residue, racing along perpetually maintained travel paths, built of compacted rock and tar. We carry all kinds of values in our heads, but the ones that count are the ones that get into our designs and our work. The form of the dance depends on not only our values, but our ability to integrate our values into our design process. In this way I talk about design broadly as a process that everyone uses all the time for just about everything, but it is specifically how we translate internal or shared values into external work.[10]There is a feedback loop here, recently clarified by a colleague Joe Brewer, who introduced the concept of “social niche formation” whereby we create inherited infrastructures that guide … Continue reading
Design is the only mechanism by which we exert control over our behaviors. Our effectiveness as ecosystem engineers depends on our design skills. How our designs perform, depends on both intentions and how our designs are fitted to the design context. We can have good intentions, and bad designs and fail to express our values. Our ability to create an effective design depends on our ability to assess the design environment. If we get the assessment step of the stewardship dance wrong, the action step is more likely to be misguided and misshapen. This seems simple, except for the complexity of our design environment. We are working in both ecosystems and social systems, and both systems are operating at multiple scales simultaneously.
In my diagram, large scale systems are on top, and smaller scale systems are below. I could have just as well have drawn smaller scale systems floating in an ocean of larger scale systems. Small actions exist within a larger context. When you dig a swale, you are working within a soil series and in a hydrologic cycle. To understand larger scale systems we think about larger areas, and longer periods of time. Most of our lives are lived at smaller scales, over short time cycles, adapting to circumstance.
The large, long cycle systems in which we live influence the context for our work, both ecologically and culturally. Large global patterns of temperature and precipitation determines what lives or dies, from a tropical rainforest to an arctic desert. Among human systems, large, slow cultural stories about agency and ownership drive the structure of households and workgroups, from hunter-gatherer enclaves to the authoritarian networks at the heart of global empires[11]While this is a flip generalization, it is also intended to point at a particular aspect of context. Our social systems existing within a spectrum of co-mingled power structures. I believe J.C. … Continue reading.
There is a paradox here, because even as large long-cycle systems strongly affect our context, we also have a hard time observing these systems. We can’t “see” a civilization. “Seeing” large slow systems depend on the interpretation of diverse and diffuse evidence. The intellectual capital[12]there will be much talk of capital later which lets us comprehend ecosystems is a cultural artifact. Individuals within a sub-culture may reinterpret ecological evidence to fit their stories and beliefs[13]There is much recent consideration of confirmation bias as a human adaptation which can both stabilize and destabilize human systems. How we think affects our ability to comprehend the ecological system we are standing in. On the other hand, ecological systems don’t care what we are thinking about, only what we do.
If we want to be effective in the world we pay attention to what is going on around us. If you want to cross a river, you pay attention to the current and the river bed[14]This is not an accidental metaphor, derived from the Chinese proverb shared with me by John Liu, and I pick up the duality of recognizing both process and structure as a key part of design later. In this way, we react in response to larger scale context. In other words our context gives us purpose. However, these larger scale systems can only be altered by the cumulative effects of their smaller-scale evolutionary units (that’s us). This is a paradox. It suggests to me that there is a continuous and simultaneous flow of influence from large to small, and from small to large. The influence from large to small is powerful. We get this inheritance whether or not we like it. On the other hand our ability as small things to influence to large, whether forest health or a nation state, is not reliable, and so requires exceptional design, work, and adaptation over time.
“You don’t get to control what happens to you, only what you do about it” – The Random Factor[15]An old family friend changed her name to The Random Factor, and self published a book which discussed the phenomena of “resonance” which she described as the inexplicable reciprocal … Continue reading.
Scales in Ecological Systems
In ecological systems, communities of organisms are located in a particular physical position, within a physical landform like a ridge, valley, plain or plateau [16]While I say communities of organisms there is a real and useful discussion here about competing theories of ecological assembly that argue over the existence of “communities”. I think … Continue reading. These landforms can be organized into catchments and watersheds. Watersheds come in all sizes from massive to tiny. Watersheds either huddle within, or straddle, ecological regions, and climate zones. When I go for a walk I can observe individual organisms in patches. As I wander across a landform I can see patterns in the patches and how they sit in the landform[17]Precise definitions of landforms are provided by the science of geomophology and local analysis of landform is often more useful that global generalizations, for example Shipman’s Nearshore … Continue reading. I can use remote sensing, aerial photography or maps to start understanding a watershed. Through experience and research I can begin to understand ecological regions[18]for the purposes of stewardship planning, I believe the World Wildlife Foundation’s Terrestrial Ecoregions of the World is among the best complements to observation of raw temperature and … Continue reading.
Ecological systems are not just a random collection of elements, but rather large systems, like ecological regions, watersheds and landforms generate a set of dynamics that limit or organize all the clumps of organisms. They define the problems we must try to solve, and so define our purpose. In our model, I call these forces “keystone elements.[19]This concept is rough–but essentially, some common aspects of a system are more important than others, because they fundamentally structure smaller scale phenomena. These elements may be … Continue reading.” These elements may include regular winter cold snaps, unpredictably long droughts, or the frequency of floods, in addition to biotic forces like beaver, or the moderation of climate and hydrology by communities of big old trees. These keystone elements of our systems write the big stories of place, and each patch inherits that story because of our position within a layered ecological systems.
On the other end of the scale spectrum, within each place, a particular set of features or biota tell a stories about the unique qualities of that place. These are “indicator elements”. If you see a meadow of mountain sweet-cicely (Osmorhiza chilensis) and bedstraw (Galium arvense) among dwarf shrubs in a river floodplain it might suggest vegetation moderated by elk (Cervus canadensis) and flood. The herbs are both weedy and travel by attaching to fur[20]This points toward another body of work focused on vegetation design around concepts of plant strategies, stress, disturbance, and the role of human work in changing the stress/disturbance mosaic, and the shrubs are dwarfed because of browse. These indicator elements (weeds) help us understand the larger scale nature of a place because they are a responsive to the keystone elements (elk and flood). If the story of elk is murmured and muttered over and over by indicators over a landscape, that is what leads us to identify elk as a keystone element of the ecological system, at the scale and cycle of the range and movement of the herd.
This interaction between large scale influences of climate and geology, and how survival strategies developed by organisms living in patches respond to these influences is the vast unfolding story of the evolution of life, which is our ultimate design context.
Scales in Human Systems
Human systems also structure and process over multiple scales. Unlike ecological systems that organize around physical and biological processes, social systems organize around shared stories in human consciousness. This may be what is most exceptional about humans–that we can create and sustain shared stories among vast populations that sustain collective behavior, sometimes in direct contradiction to ecological reality[21]A concept borrowed from Y.N. Harari’s Sapiens, which I enjoyed, even as his amateur evolutionary psychology is derided by students of human history, the vast majority of which had nothing to do … Continue reading.
We sustain and evolve our shared stories, in part, through institutions. Not unlike keystone species, legal, religious, or economic institutions have complex influences that are inherited by a local human system. We are born into institutions and may or may not be aware of their influence. Like a Jay hiding nuts anticipating the depth of snow, we are conditioned and adapted to survive in the social system in which we are formed[22]This concept of “social niche formation” is reinforced by both inherited social institutions and built infrastructure..
In a landscape shaped by institutions, extended families and workgroups may develop a sub-culture. A sub-culture is like an indicator species in an ecological system, telling a story of place–a social survival pattern in response to the disturbances and stresses of surrounding institutions[23]this reference to stress and disturbance is a second intentional reference to theories of ecological strategy and change including Competitor-Stress Tolerator-Ruderal (CSR) Theory and the Panarchy … Continue reading. Sub-cultures form around shared stories, beliefs, rituals and taboos just as different species are varied in their physiological adaptations[24]This framework describing the four elements of culture came from Javan Bernakevitch at All Points Land Design. Both institutions and sub-cultures reflect a history of human system evolution. Just as in ecological systems, every structure tells a story of past processes. Every cultural feature is a sign, like a bent branch or broken twig that marks a deer’s trail through the forest.
Not surprisingly, while ecological sciences are taught in most primary and secondary schools, we have no parallel curriculum about human systems. They are hard to measure. Experiments are difficult to control and repeat. When we study human systems, we are both observer and observed. A honest experimental construct can be laborious or even unethical to maintain. Our stories about ourselves are more defined by institutions and subcultures than any empirical consensus on the human condition. People get angry if you contradict their founding stories.
We are now at a point in history when big institutional relicts, like nation-states, monotheistic religions, and bank-debt currency systems dominate virtually every inch of the globe. Even within our global cultures, there are still weakly influenced zones where unique local sub-cultures dominate: in rugged undeveloped landscapes, and in underground economies of decaying supercities[25]this is an admixture of observations by J.C. Scott mentioned above, on the global supremacy of grain-based empires, and the retreat of hill-peoples, combined with analysis by Y.N. Harari around … Continue reading.
Organizing Design over multiple Scales
If you begin to see the world as a nested, multi-scale interaction of human and ecological systems, it is easy to be overwhelmed. Stewardship requires work. The art and science of design helps us develop work that is well fitted to the design environment, both human and ecological, so that our actions resonate with the influences of larger scale phenomena, and are more likely to create cumulative effects that reflect our values.
Keyline design was such attempt to find order. Percival Alfred Yeomans was an Australian mining engineer who envisioned what he called the “scales of permanence.” His hypothesis is that when conducting a design you assess and integrate the hardest-to-change elements of a system first (like climate and landform), and work down into the smaller scale easier to change elements of a system (like where to put a fence). In this way, your design features are well-nested within their context and serve many purposes. Design begins with climate, landform and the organization of water, and only then do we locate roads, fencing and buildings. Secondarily, Yeoman’s offered us a clear sense of agency–that we are here to maximize the potential of the system, with a focus on water and soil to build the health and resilience of our community[26]Yeoman’s most complete presentation of his theories may be The Challenge of Landscape written in 1958.. Yeoman’s scales of permanence was birthed amidst Australian grazing operations, and even as I simplify his elegant system, the underlying strategy remains essentially unchanged[27]The most recent refinements of the keyline scales of permanence can be found inThe Regrarians Platform, under the stewardship of Darren Doherty..
This concept is very similar in posture to another piece of work, on the other side of the globe, from roughly the same period of time by Fiebleman who coined his “theory of integrated levels” in which he suggested that our understanding of each scale (which he called levels), depends on our understanding of associated larger and smaller levels, and that unique properties emerge with each successive level. In this way, both Yeomans and Fiebleman may have been indicator elements.[28]Interestingly both were individuals with professional land experience, who were trying to bring integrative thinking into ruling institutions during a period when knowledge in the academic world was … Continue reading.
Perhaps these principles of scale might apply to the design in human systems. If so we would first considers and integrate the factors that most strongly shape local context, and are most difficult to change. Only then can we effectively consider the opportunities for interventions that might shape larger social patterns. While this metaphor seems intriguing, how do we understand what aspects of human systems are most fixed and influential within a design environment? What elements of our social system are “keystone?”
To have a purpose in a large system requires clarity about our personal values[29]I suspect this is perhaps Mollison’s greatest contribution to ecosystem management through his permaculture framework by demanding ethical design first based on values rather than : care for … Continue reading. As we work within our zone of influence, where we can have a discernible effect, we can see how our interventions might cumulatively affect larger scale patterns and systems, if they create synergy with our networks. This aligns with the aphorism “think globally, act locally.” A more detailed construction might be: “use your values to assess purpose from global to local, and then design interventions within local systems that are most likely to create cumulative global effects.”
A System at the Right Scale
Each design intervention occurs within a social-ecological system. But practically speaking, how do we define the “system”? The beauty of systems theory is that we can draw a box around a system at any scale we want, but not without consequence. How we define our systems affects our ability to do work. For stewardship, what matters is the work. In short, the first step is to be somewhere. Because multi-scale design in social-ecological systems is very difficult, but is almost impossible if you are not thinking about somewhere in particular. It makes sense to make some kind of commitment to a place.
There are dangers in casting our systems too large. Our governments profess to manage national or state systems. Because these boxes are so large, we then divide our systems into topics, like flood, fish, farming, water supply, waste management, or transportation. Different agencies are created to work on different topics. In attempted efficiency, we assess and set policy at large scales, with little understanding of the interactions among topics or the particulars of neighborhoods. A story that looks good on paper may hit the ground in unpredictable ways, destroying as much capital as it creates, and generating unintended consequences.
Stewardship is the antidote to the weakness of this centralized plan development and institutional policy deployment. Stewardship revolves around something called a “place”. Within a place, we have the opportunity to integrate institutions and sub-cultures for the purpose of structuring the human-ecosystem interface. The various topics of government agencies can be reassembled back into an integrated whole[30]While I pass over this quickly, for those of us living in an industrialized empire, the challenge of reintegrating large institutional systems so they function well in a place may be a critical pivot … Continue reading. Our places are both social and ecological, and so the definition of a place requires assessment of both ecological and human social systems.
What is the right scale to design stewardship? If a design environment is too small, you will not be able to identify an intervention that has a cumulative effect in the ecosystem to achieve benefits only achieved at larger scales (for example recovery of a fish population). If your intentions are too small compared to the influences at work at larger scales you reduce your ability to be effective (for example modest restoration in the face of climate change, or inadequate tinkering in the face of rapid immigration). You can’t fix watershed hydrology on a single parcel. You can’t shift government policy in one household. This is not to discourage small scale moral action, but if we are designing effort in community, lets take aim at scale.
If your design environment is too large, you exceed your ability to take meaningful action that is responsive to the nuance of context. You waste effort because your actions are too generalized, and poorly adapted to the landscape you are trying to affect. You are easily overwhelmed by complexity, and unable to organize conflicting community needs and concerns into a mutually beneficial pattern. The number of people you need to involve to create a socially durable effect becomes unmanageable at large scales. Its easy to become lost or misguided.
Scale in ecological systems is largely a function of area, while scale in human systems in largely a function of population. This is important because we are looking for a right scale of assessment and action, optimal for affecting the human-ecosystem interface. Too small is ineffective, but too large overwhelms our capabilities. this optimal scale must consider both the ecological and human scale of you system. Thus the right scale for assessment and stewardship design may be smaller that ecologically appealing, as human population density increases. However, our ability to effectively steward community and ecological capital is more likely to pay off through cumulative effects, rather than grandiose schemes. [31]These hypotheses follow many influences from Kirkpatrick Sale‘s Human Scale, Shumachers’s Small is Beautiful, or Ignasi Ribo’s Habitat, all the way back to Greek debates around … Continue reading.
To make any sense of a design environment we must draw a box around a piece of the whole, and try to understand what is happening inside, and how it relates to the rest of the whole. I’d propose that for the purpose of ecological stewardship, that this box surrounds something called a “place”, which is neither too big nor too small, with size driven by population, and boundaries defined by a mix of hydrology and community experience. This size is particularly important because stewardship without work has no ecological meaning. By actually doing the work, we learn a great deal about exactly what we need larger scales of social systems to do to support stewardship in a meaningful way.
Processes, Structures, and Emergent Functions
To understand a system, we can cut it into parts. There are wet parts, dry parts, living parts, non-living parts, evolved parts and anthropogenic parts [32]I have become increasingly cautious in using the term nature or natural, as I find it imprecise. I try to reserve the term “natural” for those elements of a system that are the result … Continue reading. We can measure size and density and temperature. We can count individuals and patches, and convert the structure of our system into data. While structure is easier to measure, it is only a snapshot of the system. We can dissect and measure the broken musical instruments on a stage, but never hear the orchestra[33]When I was younger I was impressed by, Masanobu Fukuoka, an agronomist who invented a form of natural farming, and who made a strong critique of examining systems by dissection, from which I … Continue reading.
Systems are always cycling into something else, and the way that systems change are through processes. Processes include flows, transformations, and fluxes[34]This three fold taxonomy of processes comes from Simenstad and others and is part of a body of “process-based” restoration analysis, often shaped by the interaction of multiple physical and biological processes. Processes are described by observing the change of structures over time. Processes within processes shape structure, but structure also shapes process[35]In Meadows’ seminal primer Thinking in Systems, she describes processes and functions as flows and stocks. Some system mapping software describes edges and nodes. Other system models use … Continue reading.
This interaction among processes and structures creates the phenomena we see around us. These phenomena occur at all temporal and spatial scales[36]Or as they say in Star Trek and graduate school, “in space and time…”, and reoccur again and again: waves on a beach, the wetting and drying of soils, the accumulation of toxins in a food chain, daily rush hour, or the annual production of a vegetable grower. We call these durable patterns of structures and processes by different names: functions, dynamics, or in the cases, when a dynamic supports the stable and repeated generation of something of value, we call it “capital”.
These terms–functions, dynamics and capital–each have different shades of meaning, but I suspect that many of the fundamental attributes are the same. In the end, I suspect we should focus particular attention on forms of capital. These recurring elements of systems emerge from the interactions of processes and structures[37]Emergence describes a process by which complex systems generate phenomena that are not apparent within any one part.. So when we examine a system we look for structures and processes, and pay particular attention to processes as a generative force.
There are millions of processes occurring simultaneously at all scales, but not all processes are created equal. Some processes so strongly shape and sustain the structure of systems, that we make special note. While we appreciate all processes, as designers we are looking for those processes that most strongly shape or limit the structure of ecosystems. In doing so we can best refine our observations, and develop a stewardship strategy[38]I suspect there is a relationship between keystone processes and their scale of operation, such that larger scale processes equate with Yeoman’s higher scales of permanence, or … Continue reading.
Critical Ecological Flows
To understand a system we look for the processes that are doing the work to create and sustain important structures. Work over time creates the desired future social-ecological state, which is the goal of stewardship[39]The importance of recognizing processes in system change is identified by many authors and among many diverse systems, including Meadows, Holmgren, Simenstad, and Hollings among others. The beauty of process observation in ecological systems is that you can understand the dynamics of wildly different systems by looking at a few critical flows. These critical flows can be identified in any ecology text, and include:
Energy, which flows from the sun as radiation, captured by plants and the mass of earth and water, and is then transformed again and again until lost to entropy as heat,
Rare Earths, or nutrients which are either gaseous or mineral, and mobilized by temperature, water, and light, and provide the scarce building blocks of the carbon-based compounds necessary for life, specifically: nitrogen, phosphorus, potassium, calcium, magnesium, sulfur and another dozen and a half rare elements,
Air, which along with water, provides a energy-driven circulation system by which heat energy and water vapor and even rare earths are distributed over the globe, and between oceans and continents.
Water, which is in continuous cycle from pool to pool[40]A pool refers to a structure, where flows accumulate, driven by solar evaporation, air circulation and gravity.
It is no coincidence that these four flows were identified by Greek philosophers as the building blocks of the cosmos. Many scientists like to suggest that the four elements framework was discarded with the advent of elemental chemistry, only to come back around to the four elements in their conceptual modelling of ecosystems! Standing in a tropical swamp, or a boreal desert, you can typically understand the fundamental dynamics of your system of interest by observing the flow of these “elements” at multiple scales.
Critical Flows in Human Social Systems
Compared to ecological systems, when we try assess human systems, we find ourselves relatively blind. We don’t teach a cohesive framework for human systems in primary or secondary school. Perhaps this is because the responsible adults spend their lives arguing around positions and policies, and lack a common framework for human system assessment. There are many confounding issues, creating an obstacle to stewardship design. Without an analysis of the processes and structures of human systems, we are only operating with half an understanding of the design environment.
As a restoration ecologist, I had no training in how to understand human systems. My family sub-culture introduced me to Marxist theory, but failed to teach me about financial systems, or give me experience in dominant legal institutions. In my youth, I was a student of astrology. The beauty of astrology is that it offers a thousand-year-old framework for human system analysis through a direct extension of the Greek’s four elements model–an easy road map for a lost ecologist. Astrological theory divides human systems into physical, intellectual, emotional and spiritual domains.
Later in life, with a little more experience, I stumbled into B. Guy Peters’ writing about policy alignment among social institutions. He identified hierarchies, markets, and networks as three distinct mechanisms for building social relationships that lead to coordinated action. Each mechanism varies in the durability and character of the relationships created. Peters’ framework enhanced my observations and fit neatly into my astrological taxonomies. The quid pro quo of markets was governed by earth, the networks of ideas ruled by air, and willful hierarchical control governed by fire. However, the emotional world of water was absent in Peters’ framework–perhaps appropriate for an academic focused on the power systems of nation states. I experience this emotional world as belonging.
Why wouldn’t human systems be governed by critical flows like ecological systems? Could we equip ourselves, like ecologists, to understand any system in which we were standing by assessing a set of critical flows? Could this help me navigate the design of stewardship systems?
Toward this end I have, for better or for worse, adopted an evolving admixture of astrology and contemporary policy analysis to frame my social systems. Over a period of several years it still satisfies my needs:
Agency, is the flow wherein an individual cedes their agency to the will of another, often resulting in hierarchies. I suspect it is important to pay attention not to the accumulator of agency, but rather the process by which an individual cedes their agency as the source of the flow, just like the sun is the source of energy. Is not our will like a divine spark?
Ownership, is the understanding among peoples over who has the right, often transferable, to use a set of resources, often resulting in markets where value is exchanged. It is important to recognize that even more than agency, defining and enforcing ownership systems is perhaps the essential purpose of states (which operate at large scales).
Knowledge is difficult to control because it travels from person to person, combining and recombining unpredictably, and moves through decentralized networks. I have found information networks and nodes to be a critical tool for system design when you lack control over larger systems of agency or ownership.
Belonging, the missing ingredient of Peters’ policy framework, and the glue which draws people together around a common affection for each other and place, built of trust and reciprocity[41]My consideration of belonging continues to evolve, through fellow ecologist Kimmerer’s Braiding Sweetgrass, and Nenad Maljković’s recent essay on trust..
In this way any human might stand within a social systems, and by observing a set of key flows, discern some of the processes that drive system functions and forms of cultural capital.
Emergence and Forms of Capital
This brings us finally, long-way-round, to my stated purpose of assessment for stewardship design:
“Stewardship is the process of developing and sustaining diverse forms of capital through the cultivation of effective individual actors within a nested human-ecological system.”
Capital historically refers to financial capital, including built assets like factories, traded among capitalists and forming the “means of production and distribution” that defines our industrial age. The meaning of the term has evolved to include more sophisticated “human capital” as we started to invest more of the capabilities of institutionalized humans. Finally we’ve begun assessing “ecological capital” as we ponder the economic feedbacks and full economic costs of resource extraction. The colonial project is ending, as the serpent has found its tail. Ecological revenue is now an economic factor, even if born by future generations at a discounted rate[42]This is a placeholder for economic valuation of ecological capital which is problematic in the deepest sense of the word.. So “capital” has grown to encompass many “forms of capital” which together describe the stable generative functions of both ecological systems and social systems[43]As with the “ecosystem goods and services” language of the Millennium Ecosystem Assessment, there is a risk of misunderstanding the dynamics of systems by only valuing human services. … Continue reading.
Within the last couple years I have encountered two groups both describing forms of capital[44]Ethan Roland and Gregory Landua ‘s Eight Forms of Capital, followed by Hallsmith and Lietaer’s Growing Wealth, and I offer them here as a loosely organized pile of overlapping phenomena. Some forms of capital seem to only emerge at larger scales. Some only emerge under a complex combination of circumstances, and some obviously relate to each other. While I am using words I have gathered from others, I have added a few concepts of my own, focused on the emergent properties of large ecological systems. These proposed forms of capital are my reinterpretations, as I play with observing capital in the systems I work. There is no perfect framework only frameworks that serve different purposes imperfectly. I want to test the language describing key system flows (agency, ownership, information and belonging) in the context of understanding the nature of capital. Further, I also consider each form of capital as it might apply specifically the work of ecological stewardship. From this perspective I’d suggest that these “forms” are not discrete but rather overlapping and interdependent, and represent a confluence of processes and structures, which become stable and generative.
I use the term capital very broadly, to encompass various forms of infrastructure, both built and living. I find myself using the term infrastructure similarly with poor separation between the two terms. Even as I might identify “infrastructure capital” following Hallsmith and Lietaer, I might turn and describe “cultural infrastructure” as social constructs that enable stewardship. Capital must be constructed at a particular scale, for its dynamics can function fully. A train track in not capital, as it only functions when it connects two stations that are placed within population centers. In some cases capital serves as a keystone element creating purpose within its system. In other cases capital serves as an indicator, a particular assemblage of resources responding to the demands of context. Understanding the forms of capital in a system, as a pattern of keystone elements, indicators, institutions and subcultures may be the critical step in integrated system assessment. Toward this end, it will likely be useful to understand capital as a emergent property of structures and flows–a dynamic of a system. A form of capital creates a pattern among critical flows of systems. From there we can diagnose the absence of capital, or design its regeneration. Lets look at that list:
Cultural – an accumulated and shared body of stories, beliefs, rituals and taboos that enable groups of people to create value together. Culture spreads through networks but creates belonging, which motivates us to give our agency to shared ends. Undermining our analytical abilities, culture is nested within culture. It seems likely that “cultural capital” is just an imprecise umbrella for all non-physical forms of capital.
Institutional – a kind of cultural capital where rituals and embedded into durable social structures, enabling more efficient mobilization of ceded agency. What are the institutions in your system, and at what scale and in what domains do they operate? By what flows do they sustain their structure?
Intellectual – a particular understanding built of multiple experiences that can be stored and taught enabling technology. In what systems are our understanding of keystone elements and indicators stored? How is intellectual capital created, maintained and spread?
Technological – a particular kind of intellectual capital which enables the conversion of material capital into infrastructure. Within our pools of intellectual capital, how do we develop and distribute technologies that enable stewardship?
Experiential – the accumulation of experience within an individual, allows for that individual to apply skill to create value. What are the mechanisms by which individuals in the system can acquire experiences that build capital?
Social – a network of individual-to-individual relationships which creates the belonging and trust which enables people to work for each others needs, or pool resources to achieve common goals. This capital appears to be an underpinning of a number of other forms of cultural capital. What are the sub-cultural networks that generate social capital in your system?
Financial – the ability to aggregate ownership to achieve shared goals through the use of currencies, contracts, and shared ownership structures, largely mediated through monetary systems. Local financial systems are shaped by larger scale patterns of ownership and scarcity. What aspects of stewardship are valued by financial systems, and which are not?
Potential Exchange – is a particular admixture to financial capital which describes our ability to orchestrate desired outcomes through currencies and exchanges other than the global system of bank-debt currency. What are the existing mechanisms of exchange other than money? What are immobilized assets that don’t flow because there is no mechanism for exchange? How do various fees and taxation drive economic activity towards bank-debt currencies?
Spiritual – A sense of personal belonging to the unknown elements of the universe which gives individuals the will to exercise their agency. Spiritual capital seems to be built by experience and reinforced by institutional sub-culture. What are the underlying beliefs that shape our relationship to the landscape?
Entrepreneurial – an emergent capital where a combination of capital enables individuals to pursue vision by reorganizing and creating new institutions. This is another specialized capital that has to do with the mechanisms that enable individuals to take experiential capital and use it to evolve institutions. This relates strongly to panarchy theory, and the tendencies for institutions to go through cycles of evolution and ossification[45]This whole concept of the timing of change in relation to the natural cycles of systems proposed under Panarchy will be brought up in part 2.. What are the mechanisms by which an individual can create new institutions that realize stewardship?
Landform – the innate potential of the shape of a landscape to create value through the capture and flow of sun, water, and nutrients, or the presence of rare earths, within a given climate. What services does the landscape naturally produce that creates flows, both historically and currently?
Living – The stock of organisms in our system that we can use to meet our needs. What are the goods and services that organisms in the landscape currently producing? What organisms were once present but are now missing? What are dynamics not supported by the existing assemblage?
Material – Tools, materials, and machines extracted from landforms and living capital that enable efficient production and distribution, and allow us to modify ecosystems to meet our needs. What are tools that are available for stewardship: facilities, vehicles, hand tools, machinery with small and large engines?
Infrastructure – the organization of material and technological capital into larger scale systems that allow for the increased efficiency in the application of collective work. What are the structures of the systems that enable transportation, waste re-circulation, information flow, social interaction, human health, water supply, and energy? Is this the right list of infrastructures?
Ecological – the proximate organization of organisms into webs of relationships that produces resilient, low entropy systems that efficiently capture and use flows of water, nutrients and sun energy, while moderating climate. How is the living capital productivity or resilience affected by patterns of disturbance, stress, dispersal, refuge, predation, or mutualism?
Evolutionary – the ability of living capital to evolve over time through ecological processes, thereby increasing ecological capital without human effort. Where are genetic resources at risk from non-evolutionary selection? Where genetic exchange and natural selection processes are compromised? What is the genetic state of the living capital which has co-evolved under human stewardship?
The art and science of stewardship is the process of tending and increasing these forms of capital within the systems in which we live. It stands to reason that system assessment involves these steps:
Inventory of the various forms of capital present in our systems and the interactions among forms of capital.
Identifying where shortages of capital prevent the fulfillment of values either because of influences from larger scales, or insufficient mechanisms at smaller scales.
Assessment of how social and ecological flows limit the development of desired capital at the right scale.
Identifying the appropriate scale for the efficient development of capital[46]This rough outline is a simplification of Savory’s Holistic Management framework, as presented by Bernakevitch, and will be picked up again in more detail with designing stewardship system … Continue reading.
Where is a system dependent on external flows to sustain capital functions?
This assessment for stewardship has value when it leads to effective action. System assessment, informed by values, naturally beings to suggest weak links, and actions. System assessments in the absence of values creates large bureaucratic reports that have no meaning. Assessment of systems therefore hinges of values and what we hope to accomplish with our lives and our individual and collective agency. An assessment can begin with an individual, but becomes much more powerful when it becomes a shared body of intellectual capital, and an ongoing flow of knowledge and belonging within a human system. This said, I rarely share my assessment of capital at multiple scales with most of my partners in projects. These are diagnostic frameworks, shadows of reality, that help the designer perceive, and ultimately distill an intervention, which must then be tested in reality.
I still hold out hope that we can build towards common understanding. Stewardship enabled by cultural capital, rather than jury-rigged within a failing infrastructure. The challenge in operating at a meaningful scale is to build from individual agency to collective agency. This requires shared values and a shared understanding of the systems in which we are working. If we learn how to develop shared values that don’t distort our assessment of social and ecological systems, we may have a chance of getting where we want to go.
Intervention in the Zone of Influence
While much chatter is spent on large scale social and ecological phenomena (such as war, political contests and global crises) all these large scale dynamics are the expression of smaller scale dynamics which are shaped by large scale dynamics. When we glimpse of the world at large, what we see is little more than what we have built through how we live our collective lives, as well as what we have inherited from our ancestors. We may come to believe that the changes we desire are somewhere out there in that amorphous whole. However, it is clear that our agency is local and immediate. Our best information is local and immediate. From an ecological perspective, we only belong to the land we stand on and the people we are standing next to. The resources we actually have to work with are those in our hands. Our ability to create cumulative effect is through organization of our zone of influence.
Design is the process of converting our values into the systems in which we live. These systems are both social and ecological. We use capital to build capital. Capital is not created from nothing, but rather involves the reorganization of existing flows. If we design our work well we become more effective in the future[47]The refinement of adaptive management theory by Snowden’s Cynfin Framework provides a useful method for adjusting our decision approach to the complexity found in systems..
The process of envisioning a desired future state starts with a reckoning of climate and geology, including the cultural climate, and dominant institutions in which we have been born. Within that landscape we consider states, population centers and their institutions, as well as the flow of water, and recurring ecological keystone elements distributed among landforms. While considering the flows of critical resources, created by this pattern, we can begin to inventory forms of capital, in both living systems, built environments, and ecological systems. We compare this inventory of our capability to our values, and look for collective goals–what we want to build for the future. This is the platform that may enable collective integrated design. Any social-ecological vision is realized through a series of treatments and observations. Each treatment changes the stocks of capital required to create and sustain our desired future state. It begins with accurate assessment. Then you act, and assess again.
Part Two
I am currently working on a complementary infographic and essay focused on the process of designing a social-ecological vision, and working toward that vision through a series of interventions and observations.
A portion of my fascination with this work, and my approach, comes from playing the classical East Asian strategy game of Go. Many complex games offer metaphorical guidance
This nomenclature for ecological processes is inspired by processes-based models developed Simenstad and others, and will be revisited later, however the division of systems into four elements is ancient and informs the later discussion of system flows
I suspect that collective design capability is different than individual design capabilities and that individual design capabilities may not be sufficient to solve ecological stewardship problems.
The term “social-ecological system” has emerged in part form the adaptive management community described earlier, the subject of increasing scholarly work
This is not intended to suggest that when humans detach from evolutionary processes and systems that there are not consequences in our mental landscape. We could likely describe a wildness gradient in human social systems as well as ecosystems. Emerging rewilding communities are actively exploring these concepts
There is a feedback loop here, recently clarified by a colleague Joe Brewer, who introduced the concept of “social niche formation” whereby we create inherited infrastructures that guide future behavior without the need for conscious design.
While this is a flip generalization, it is also intended to point at a particular aspect of context. Our social systems existing within a spectrum of co-mingled power structures. I believe J.C. Scott’s scholarly exploration of the historical relationships between grain-based empires and their peripheral decentralized hill-peoples is an important exploration of this dynamic with modern applications
This is not an accidental metaphor, derived from the Chinese proverb shared with me by John Liu, and I pick up the duality of recognizing both process and structure as a key part of design later
An old family friend changed her name to The Random Factor, and self published a book which discussed the phenomena of “resonance” which she described as the inexplicable reciprocal relationship between scales experienced in individual human lives. By doing so she planted seeds in my 12-year-old mind. When you search google for the random factor and resonance, you find engineering parameters.
While I say communities of organisms there is a real and useful discussion here about competing theories of ecological assembly that argue over the existence of “communities”. I think there may be some metaphorical importance there.
This concept is rough–but essentially, some common aspects of a system are more important than others, because they fundamentally structure smaller scale phenomena. These elements may be structures or processes, and physical or biological, or all of the above.
This points toward another body of work focused on vegetation design around concepts of plant strategies, stress, disturbance, and the role of human work in changing the stress/disturbance mosaic
A concept borrowed from Y.N. Harari’s Sapiens, which I enjoyed, even as his amateur evolutionary psychology is derided by students of human history, the vast majority of which had nothing to do with the dynamics of grain empires.
this is an admixture of observations by J.C. Scott mentioned above, on the global supremacy of grain-based empires, and the retreat of hill-peoples, combined with analysis by Y.N. Harari around global systems of cultural homogenization.
Interestingly both were individuals with professional land experience, who were trying to bring integrative thinking into ruling institutions during a period when knowledge in the academic world was being balkanized into different specialized fields.
I suspect this is perhaps Mollison’s greatest contribution to ecosystem management through his permaculture framework by demanding ethical design first based on values rather than : care for land, care for people, and return of surplus.
While I pass over this quickly, for those of us living in an industrialized empire, the challenge of reintegrating large institutional systems so they function well in a place may be a critical pivot point for our careening civilization, and in developing adaptive capacity within our institutions. However our institutions do not typically recognize their weakness in places, or the opportunity for improvement offered by places. I suspect different subcultures will increasingly define themselves by their attitudes about our increasingly incompetent institutions from Kaizen Gemba to nihilistic forms of anarchism. I use the term “incompetent” here in a geomorphic sense, like a river that is not able to move its sediment. Our institutions may be structurally unable to accomplish the purposes being required by ecological systems.
I have become increasingly cautious in using the term nature or natural, as I find it imprecise. I try to reserve the term “natural” for those elements of a system that are the result of evolutionary processes. But are not humans and our regnerative and degenerative impulses not an acting out of evolutionary process?
When I was younger I was impressed by, Masanobu Fukuoka, an agronomist who invented a form of natural farming, and who made a strong critique of examining systems by dissection, from which I gathered his broken instruments metaphor
In Meadows’ seminal primer Thinking in Systems, she describes processes and functions as flows and stocks. Some system mapping software describes edges and nodes. Other system models use different labels like drivers, results, or outcomes, to describe the role of an elements within a logical chain of influences.
I suspect there is a relationship between keystone processes and their scale of operation, such that larger scale processes equate with Yeoman’s higher scales of permanence, or Feibleman’s higher levels, and this logic may be useful in understanding the dynamics of human social systems.
The importance of recognizing processes in system change is identified by many authors and among many diverse systems, including Meadows, Holmgren, Simenstad, and Hollings among others
My consideration of belonging continues to evolve, through fellow ecologist Kimmerer’s Braiding Sweetgrass, and Nenad Maljković’s recent essay on trust.
As with the “ecosystem goods and services” language of the Millennium Ecosystem Assessment, there is a risk of misunderstanding the dynamics of systems by only valuing human services. In addition Anand Giridharadas provides a robust critique of debating social justice without analyzing social systems, and his critique could extend well to an environmentalism that assumes extraction economies.
This rough outline is a simplification of Savory’s Holistic Management framework, as presented by Bernakevitch, and will be picked up again in more detail with designing stewardship system interventions
The refinement of adaptive management theory by Snowden’s Cynfin Framework provides a useful method for adjusting our decision approach to the complexity found in systems.