Permaculture Design Project for Wild Meadows Farm prepared for Permaculture Certificate Course 2005. Reviews permaculture principles and applies to 195 acre PA farm. Reviews farm characteristics and includes one and 5 year plan for transition to organic management and permaculture management
1. Wild Meadows Farm
Chestnut Ridge Cooperative
March 2005
Permaculture Design project
for Darrell Frey Permaculture
Certificate Course—March 2005
2. Permaculture Principles
David Holmergren
• Observe and Interact • Integrate rather than
• Catch and store energy segregate
• Obtain a yield • Use small and slow
• solutions
Apply self regulation and
accept feedback • Use and value diversity
• Use and value renewable • Use edges and value the
resources and services marginal
• Produce no waste • Creatively use and
• Design from pattern to respond to change
details
3. Other Listing of Principles
Toby Hemmingway
• Accelerate succession
• Observe • Use biological and
• Connect renewable resources
• Catch and store energy • Recycle energy
• Each element performs • Turn problems into
multiple functions solutions
• Each function supported • Get a yield
by multiple elements • Design limits yield
• Make least change for • Mistakes are tools for
greatest effect learning
• Use small scale intensive
systems
• Use edge effect
4. Observe and Interact
Farm Natural Features
• 195 acre farm in Bedford County PA
• Ridge and Valley
• East of the Eastern Divide—goes in Chesapeake
• Spring on farm flows to Bob’s Creek, Dunnings Creek, to
Juniata, to Susquehanna, to Chesapeake
• Orchards, dairy farm, and row crops/corn surround—run
off from dairy flows thru woods on farm
• Although rural—in 2000 census manufacturing major
employer in area
5.
6.
7. S—NORTHERN ATLANTIC SLOPE DIVERSIFIED
FARMING REGION
• 147—Northern Appalachian Ridges and Valleys Maryland,
Pennsylvania, Virginia, and West Virginia
48,210 km² (18,610 mi²)
• Land use: Most of this area is in farms. About 12 percent is
used for urban development or consists of land altered by
urbanization or other activities. Approximately 30 percent is
cropland. A wide variety of crops are grown, mainly corn, small
grains, and forage for dairy and beef cattle. Other important
crops include potatoes, soybeans, apples, peaches, and some
tobacco and vegetables. Dairy, beef and poultry farms are
major enterprises. About 5 percent of the area is permanent
pasture. Less than 60 percent is in hardwood forests that are
mainly in small to medium-size holdings and some larger tracts
of state forests, game lands, and parks. Much of the prime
farmland in the valleys is urbanized.
8. Region
• Climate: Average annual precipitation—900 to 1,275 mm.
Maximum precipitation is in spring and in summer, and the
mimimum is in fall. About 525 to 650 mm falls during the growing
season. The average annual snowfall is 60 to more than 130 cm.
Average annual temperature—8 to 13 C. Average freeze-free period
—120 to 170 days; the shorter growing seasons are at the higher
elevations and in the north. ----
• Water: Water is plentiful in this area. Springs, wells, farm ponds,
reservoirs, and streams are the principal sources of water. The
major streams are the Susquehanna and Potomac Rivers.
Raystown Lake on the Raystown Branch of the Juniata River is one
of the largest reservoirs in the area. Ground water is plentiful; the
better producing wells are in the limestone valleys. Mineralized
water and pollution of ground water are common land use problems.
9. Soils and Natural Vegetation
• Soils: Most of the soils are Udalfs, Udults, and Ochrepts. They have a mesic
temperature regime, udic and aquic moisture regimes, and mixed mineralogy. Nearly
level to sloping, deep, well drained, medium textured to fine textured Hapludalfs
(Hagerstown, Duffield, Edom, and Washington series) are in the limestone valleys.
Gently sloping to sloping, deep, well drained or moderately well drained, medium
textured to fine textured Hapludults (Allenwood, Bedington, Frankstown, Mertz, and
Munill series), Fragiudults (Buchanan and Laidig series), and Paleudults (Frederick
series) are on the lower foot slopes of the ridges and in the valleys. Most of these
soils formed in residuum, colluvium, or glacial till derived from limestone, cherty
limestone, sandstone, and shale. Sloping to steep, well drained, shallow to deep,
medium textured Dystrochrepts (Berks, Calvin, Dekalb, Hazleton, and Weikert series)
are on ridges and on the more sloping sites in the valleys.
• Potential natural vegetation: This area supports hardwood forest vegetation. White
oak, red oak, black oak, hickories, and associated upland hardwoods are the major
species. Scarlet oak, chestnut oak, hickories, and scattered Virginia pine, shortleaf
pine, and white pine are common on dry ridges and shallower soils. Yellow-poplar,
red oak, red maple, and other species that require more moisture grow in sheltered
coves, on foot slopes, and on north-facing sites.
10. Site Characteristics
• Elevation and topography: Elevation ranges
from 100 to 300 m in the valleys and from 400 to
800 m on ridges and mountains, but on some
mountain crests it is 900 m. Parallel sandstone
and shale ridges are separated by narrow to
moderately broad limestone and shale valleys.
Ridges have hilly to steep slopes and narrow
rolling crests; valleys are mainly undulating to
rolling but are hilly locally. Local relief in the
valleys is about 5 to 50 m; ridges rise about 100
m above adjoining valleys.
11. Wild Meadows Specific Site
Characteristics
• Cropland • Elevation 1200-1500
– Type 2 Undulating—14 • Annual rainfall –36”
– Type 3 Rolling—37 • Frost free days—125
– Type 4 Sloping—39 • Soil---ELiber and Mertz—
• Woodland-Rolling--100.41 Cherty limestone base-and
• Farmstead-3.00 Morrison,dolomitic limestone
• Total-194.41 calcerous sandstone base
• All deep and well drained
• Woodlands are Morrison and
Buchanan soils
• Major limitations to agriculture
are erodible lands
12. Farm History
• Farm established 1870s
– Large farm house—1874, Summer kitchen earlier
– Large Bank Barn -1870
– Pig barn—1920s, (maybe could be converted to bioshelter)
– Quarry—old lime stone kilns
– Old Orchard—gone after 1960
– 1970—on became owned by city folk (weavers—then us)
– 90 acres rented to local farmer—leaves half fallow—rotates oats,
corn, barley, soy—contour—strips
– Small organic garden with well irrigation system and deer fence
– Some mushroom shitake logs
– Currently investigating CREP program participation
– Sloping pastures—mowed every 2 or 3 years
13. Chestnut Ridge Cooperative begun
in 1992
• Links
–Arts and Ecology
–Rural-Urban
–Partnership/cooperative
organization
14. Chesapeake Education, Ecology, Arts
Research Society (CHEARS!)
• New organization—
separates ownership
from mission
• Link to Chesapeake
Watershed in which
live
• Builds on interest of
original members
• Same emphasis on
links
16. Apply self regulation and accept
feedback
• Accept that soil on farm is worn out from
years of row cropping on slopes
• Search for ways to allow to recover
• Experiment with alternatives—some of
which will not work—plan for observing
this feedback and revision of plan
• Observe current self-regulation in areas
that have been allowed to be untended—
old orchard etc.
17. Key/ Crop Current Orientation/Notes Planned Use
Description acres / Use
/from Ridge Road
1—Field across from Class 2- Rented to Joe Flat—highest point on farm—across road Keep crop transition
Boyer Orchard—Ridge crop Echart from Non-organic Apple Orchard Organic rotation
Road 10 CVR
C/G (conservation
plan)
2—Woods below 1 Wooded Woods Strong slope/some dumping by road in Keep wooded
8 past/hunters use for dear cleaning /clean
W/M
3A—Shankle road 20—class Rented to Joe Flat Keep crops transition
frontage-right side 2 and 3- Eckart organic
from farm road from srop CVR
Ridge Road
3B—right side of farm 18—class Rented to Joe West and North facing slopes Possible CREP
road 4 crop Eckart--CVR
4—Left side of farm 18.5— Rented to Joe West and South slope gentle to CREP
road from Ridge class 3 Echart moderate—contains the Quarry-Lime
and 4 CVR Stone Kilns
5 Woods on right side 31.8 Woods Slopes are North facing—includes Spring Keep wooded
of farm road coming that flows out of property; run off from Possible Pond site at top of
down from RidgeRoad dairy farm on other side of a ridge—but ridge where old power
does not affect Spring; Storm Creak bed lines were—not yet
flows down from Dairy— treed—water could flow
Shitake Mushrooms down to irrigate the fields
Large rocks below???
Many fossils Catalogue plants observe
Hemlock grove effect of run off on
Jewell weed vegetation
Ferns Look for Chestnut
seedlings
6—right side sloping 10.2 – Mowed every 2 North facing 9 CREP
pasture meadows class 4 years-hayed View of meadows from house-enjoyed by 1 acre plant in berries or
behind barn and house crop members small fruit
7—left side 35-woods woods Old fence from field stones—piles Catalogue plants
woods/slope goes Wild Blueberries, wintergreen, wild
North up hill to another azalea, mountain laurel, ferns
ridge
8-left side—top of 17.4 CVR Perhaps best field Keep crop transition to
hill—flat field C/G organic
Class 2
and 3
9-Left side 10 woods Old orchard; South facing Restore with mixed fruit
gentle/moderate slope 5 acre—organic
10—flat field right side 7 Garden site and Burdock--grows; Expand garden; establish
near house 10 fruit trees Bottom land-fertile rotation
Rest fallow Maybe frost pocket
11—house/barn/yard 3 Spiral and medicine wheel
gardens-native plants;
guild
Class 2 (undulating) Class 3 (rolling) Class 4 (slopping) Woodland
18. Use and value renewable
resources and services
• Foster use of solar, wind, rocks, resources
local on farm
• Let the soil rest—avoid run off to Bay---
CREP program
• Work with dairy farm to address their run
off issue
19. Use Small and Slow Solutions
• Develop multi-year—5 year plan
• Estimate cost and how to get from A to B
• Avoid tendency to want immediate
gain/accept limits--
• Pick a few things to start with that can do
carefully and well and that might give
some payoff in terms of goals
• Build on energy—cooperate/partner
20. Multi-year plan—Years 1and 2
– Chears incorporated as – Medicine wheel garden in
non-profit zone 1--using rocks from
– Begin systematic farm to provide micro-
observation of plants climates for vulnerable
growing in woods and native plants
fields/volunteer – Explore CREP program for
– Observe the run off issue highly erodable land
from the Dairy farm—begin (meeting with Conservation
to develop plan to address office March 25!)
– Start water monitoring – Talk to Joe E. again about
project in partnership with organic transition of farm
others already doing in – Work on establishing a
other areas rotation plan for Walter’s
– Experiment with guilds organic garden
using existing apple and
black walnut trees in
farmyard
21. Years 3 to 5
• Complete things from • Establish nursery for
years 1 and 2 that did not plants for the
happen
suburban eco-
• Plant 50 American
landscaping co-op of
Chestnut trees on north
facing slope members
• Work on plan to restore • Hold 4 workshops
old orchard with heirloom
fruit trees—planted by
Cheers members for own
use
22. Produce no waste
• Use material on farm as much as possible
—rocks, old lumber, straw
• Solve issue of lack of time to
maintain/harvest what start—get more
folks from area involved—
• Avoid Wall Mart
23. Design from pattern to details
• Global to local patterns—dominant pattern
in area --row crops of corn, soy, grain
used to feed animals –meat/dairy based
• Farming--not very labor intensive relative
to yield—use of fossil based energy
pattern replaced human labor.
• Detail-how to move to more sustainable
pattern
25. Organic field crop rotation
Alfalfa
Corn
manure
Alfalfa Soybeans
Oats, barley, manure
Corn
or alfalfa.
26. Obtain a yield
• Gains for Bay—might mean in this case
reduction of conventional yield
• Education or aesthetic pleasure
• Research knowledge gained
• Linking folks removed from food source
and nature to these things
• Habitat for wildlife
• Food/nourishment/medicinal
27. Obtain a yield (Food)
• Plant mixed orchard on part of North Slope and also in
old orchard on South Slope
• Establish native shrub/bushes plant nursery for use by
the suburban garden co-op
• Continue small organic garden for members use
• Maintain and expand the shitake mushroom
• Catalogue the native plants growing in the woods—
experiment with propagation
• Reach out to groups that may need place to host
activities like workshops etc.
• Partner with turtle saving groups to see if can use part of
land as habitat
28. 8 year Vegetable Crop Rotation—
E. Coleman
Sweet corn Potatoes
cover crop
Cabbage Family Squash
Green manures
English peas
Root crops
Tomatoes Beans.
30. Catch and store energy
• Need to catch some human energy to
implement plans
• Constructed pond/wetland with windmill to
aerate (future design)
• Possible conversion of the pig barn to
passive solar/bioshelter (future design)
• Other—wind—solar panels exploration
• Rain barrel installed in garden
31. Integrate rather than segregate
• Guild and companion plantings—apple
guild and walnut guild around established
old trees (see design)
• Mixed orchard plan
32. Use and Value Diversity
• Catalogue existing plants growing on farm
• Plant several varieties of each fruit (see
design)
• Rotate annual crops
• Get more folks involved in planning
33. Use edges and value the marginal
• Rocks plentiful
– spiral garden, medicine wheel
garden—Spring 2005
– Try micro-climate using dry
walls
– Edges woods currently have
bramble berries
• American Chestnut Foundation
– Plant 50 American Chestnut
seedlings—2006 order now for
next spring—will probably not
survive, but can study and
increase the gene pool
– Search for Chestnut seedlings
on farm—note all buildings are
built from Chestnut wood
34. Medicine Wheel Garden with Vulnerable
Plants
Coreopsis rosea Nutt pink tickseed
Arabis patens Sullivant
spreading rockcress Peace
Amelanchier bartramiana (Tausch) M. Roemer
oblongfruit serviceberry
Cynoglossum virginianum L. var. boreale (Fern.) Cooperrider wild comfrey
http://plants.usda.gov/cgi_bin/topics.cgi?earl=plant_profile.cgi&symbol=ARPA2
36. Creatively Use and Respond to
Change
• Revise plans based on whether working new
circumstances
• Build in taking feedback and self-organization
• Anticipate know succession patterns of plants
and people in plans
• Value and preserve the past—restore the
cookhouse—oldest building we think—study
Native American ways
• Build on failures
37. CHEARS Mission
• CHEARS was organized to monitor,
understand, and enhance the life and health
of the Chesapeake Bay Bioregion. We study
our watershed’s local and global
interrelationships, share our knowledge,
express our concerns in art, and support
each other and our likeminded partners in
ecological action. CHEARS projects are
conceived, developed and implemented by
volunteers.
38. Projects
• Place Based Education and Research Projects
• Watershed Tracing: Follow the water from a spring on Wild
Meadows Farm near the Eastern Divide in Pennsylvania as it
joins Bob’s Creek, then observe its transformations as it joins
successively Dunning’s Creek, the Juniata River, the
Susquehanna River, the Cheseapeake Bay, and the Atlantic
Ocean.
• Wild Meadows Farm Stewardship: Wild Meadows Farm
demonstration project, focused on farm survey, preservation,
conservation, and transformation
• Identifying Bird-Links: Identify and track bird species from
several sites in the bioregion, determine their seasonal
migration patterns, nesting, and feeding patterns, and
understand and strengthen partnerships with other bioregions
• Eco-Nature Arts Workshops -- facilitate artistic expression
through nature arts workshops at Wild Meadows Farm
39. Projects
• One Yard at a Time Eco-Friendly Landscape
Cooperative Aided by permaculture principles
households support each other in re-designing their
yards to reduce run-off to the Bay and are helped by
members in implementing and maintaining healthy
yards and gardens. Suburban/Urban Land
Stewardship---
• Innovating --- Chesapeake Teamwork for the Next
Upcoming Thing (CHESTNUT)