Translate

Sunday, December 23, 2012

Planetary System Confirmed in Alpha Centauri

What does this have to do with ecology based agriculture?  Nothing really!  But its a MAJOR discovery.  Alpha Centauri B is a component of the closest star system to the sun at just over 4ly away.  Since terrestrial planets usually come in groups this means that there could be other planets in the system, some of which may be in the habitable zone.  Don't get too excited though.  Even our fastest spacecraft would still take thousands of years to get there.  We have a long way to go before we have the technology to explore this new world and its possible companions.

http://www.sciencedaily.com/releases/2012/10/121016184436.htm

Sunday, September 16, 2012

Article claims little evidence of health benefits from organic produce - OK

There may be something to this when regarding the fact that many organic foods are grown exactly the same way as non-organic, just without the chemicals.  I have seen some incredibly damaging organic farming outfits.  If something is grown in a monoculture pulse with depleted soils it can be nearly as damaging and unhealthy as production agriculture.  If the soil is depleted and damaged the food is probably not going to be that healthy.  The part I find especially interesting is a comment that another blogger made "Do a tiny amount of digging, about 10 mintues worth, and you find an excessive amount of crossover and revolving doors between Castlight and (wait for it...) Monsanto Company."  Go figure right?

http://www.sciencedaily.com/releases/2012/09/120903221122.htm

More on the Drought in the United States

This just continues to highlight the fact that we need to rethink our entire water strategy...

http://www.cnn.com/2012/09/15/us/drought-impact/index.html?hpt=hp_c3

Monday, September 10, 2012

The Worst Idea Ever - Geoengineering

The latest geoengineering idea to combat global warming is both a ridiculous and dangerous.  While I do not see something so dumb ever getting past the drawing board, the notion of geoengineering general seems to keep popping up at a frightening level.  Does anyone see the problem in engineering our way out of a problem we engineered our way into?  In this case, the plan is to spray tonnes of aerosols into the upper atmosphere to reflect sunlight back out into space.  Our lack of understanding in the way nature works is what got us into this mess in the first place.  Further complicating the issue with more unnatural means does not seem like the solution.  Why not just attack the cause?  This would basically give industry license to emit as much as they want as long as they spray enough aerosols to mitigate their warming effect.  It is a reckless and stupid endeavor.

http://www.sciencedaily.com/releases/2012/08/120830191017.htm

Deforestation Decreases Rainfall

Anyone who understands hydrology cycles knows that forest and plant cover, along with associative transpiration, is critical in the formation of long term climate stability in both medium and large scale precipitation patterns.  Deforestation and modern agriculture have decreased transpiration and soil drought resilience to the point that desertification is affecting large swaths of territory.  Feedback loops further exacerbate the ever increasing problem.

http://www.sciencedaily.com/releases/2012/09/120905135008.htm

Part 1 Grand Master Beekeeper Don the FatBeeMan on Naturalizing and Avoiding Chemicals listen while you work or Facebook!

Organically Managed Beekeeping Podcast interview with Grand Master Beekeeper Don the FatBeeMan part 1.  Discussion topics include Naturalizing Bees, Small Cell Beekeeping, Avoiding Chemicals and much more.  He has 50+ years using alternative beekeeping methods and is a wealth of knowledge.  Listen while you work or Facebook!  Check out his YouTube Channel for more information.

http://somdbeekeeper.com/2011/01/15/podcast-episode-18-meet-don-the-fatbeeman/

Matt Reed from BeeThinking.com discusses Top Bar Hives on The Organically Managed Bee Keeping Podcast listen while you work or Facebook!

Matt Reed from http://www.beethinking.com/ discusses Top Bar Hives on The Organically Managed Bee Keeping Podcast.  Listen while you work or Facebook!  Top Bar Hives offer an alternative style of beekeeping which allows the bees to build their own comb in a more natural way.

http://somdbeekeeper.com/2011/11/21/episode-22-top-bar-hive-style-beekeeping/?utm_source=feedburner&utm_medium=feed&utm_campaign=Feed%3A+somdbk+%28Pragmatic+Beekeeping+Podcast%29

Michael Bush on the Organically Managed Beekeeping Podcast listen while you work of Facebook!

Michael Bush is a legend in the Natural Beekeeping movement.  Whether you are an aspiring beekeeper or an experienced one looking to move to more natural methods, Michael is a wealth of knowledge.

http://somdbeekeeper.com/2011/12/23/podcast-episode-23-the-practical-beekeeper/?utm_source=feedburner&utm_medium=feed&utm_campaign=Feed%3A+somdbk+%28Pragmatic+Beekeeping+Podcast%29

Dr. Lee Reich and Jack Spirko discuss Growing Fruit Naturally listen while your work of Facebook!

Dr. Lee Reich and Jack Spirko discuss growing fruit naturally, eating fresh fruit during the winter, and extending your harvest.

http://www.thesurvivalpodcast.com/reich-growing-fruit-naturally

Part 5 Model Watershed Keyline Design at the Beach

Darren Doherty creates a model watershed at the beach to explain Keyline Design.  For those of you having trouble understanding what Keyline Design is, this is a very visual explanation.

Part 4 Model Watershed Keyline Design at the Beach

Darren Doherty creates a model watershed at the beach to explain Keyline Design.  For those of you having trouble understanding what Keyline Design is, this is a very visual explanation.

Part 3 Model Watershed Keyline Design at the Beach

Darren Doherty creates a model watershed at the beach to explain Keyline Design.  For those of you having trouble understanding what Keyline Design is, this is a very visual explanation.

Part 2 Model Watershed Keyline Design at the Beach

Darren Doherty creates a model watershed at the beach to explain Keyline Design.  For those of you having trouble understanding what Keyline Design is, this is a very visual explanation.

Part 1 Model Watershed Keyline Design at the Beach

Darren Doherty creates a model watershed at the beach to explain Keyline Design.  For those of you having trouble understanding what Keyline Design is, this is a very visual explanation.

Saturday, September 8, 2012

Rx for the Biosphere part 21 Darren Doherty

Rx for the Biosphere part 21 Final Installment Darren Doherty on Water Harvesting, Carbon Farming, and Soil Building.  See our blog to start at the beginning.  This is important information on whole systems design and range management.

Rx for the Biosphere part 20 Darren Doherty

Rx for the Biosphere part 20 Darren Doherty on Water Harvesting, Carbon Farming, and Soil Building.

Rx for the Biosphere part 19 Darren Doherty

Rx for the Biosphere part 19 Darren Doherty on Water Harvesting, Carbon Farming, and Soil Building.

Rx for the Biosphere part 18 Darren Doherty

Rx for the Biosphere part 18 Darren Doherty on Water Harvesting, Carbon Farming, and Soil Building.

Rx for the Biosphere part 17 Darren Doherty

Rx for the Biosphere part 17 Darren Doherty on Water Harvesting, Carbon Farming, and Soil Building.

Rx for the Biosphere part 16 Darren Doherty

Rx for the Biosphere part 16 Darren Doherty on Water Harvesting, Carbon Farming, and Drought Resilience.  You can find the entire series here on Agroregeneration.

Saturday, August 25, 2012

Rx for the Biosphere part 15 with Darren Doherty

Darren continues his outstanding lecture on carbon farming, keyline water harvesting, building soil, and improving drought resilience. Statistics on the financial damage of modern agriculture.

Rx for the Biosphere part 14 with Darren Doherty

Darren continues his outstanding lecture on carbon farming, keyline water harvesting, building soil, and improving drought resilience.

Rx for the Biosphere part 13 with Darren Doherty

Darren continues his outstanding lecture on carbon farming, keyline water harvesting, building soil, and improving drought resilience.

Rx for the Biosphere part 12 with Darren Doherty

Darren continues his outstanding lecture on carbon farming, keyline water harvesting, building soil, and improving drought resilience.

Rx for the Biosphere part 11 with Darren Doherty

Darren continues his outstanding lecture on carbon farming, keyline water harvesting, building soil, and improving drought resilience.

Friday, August 17, 2012

Rx for the Biosphere with Darren Doherty part X

Darren continues his outstanding lecture on carbon farming, keyline water harvesting, building soil, and improving drought resilience.

Rx for the Biosphere with Darren Doherty part IX

Darren continues his outstanding lecture on carbon farming, keyline water harvesting, building soil, and improving drought resilience.


Rx for the Biosphere with Darren Doherty part VIII

Darren continues his outstanding lecture on carbon farming, keyline water harvesting, building soil, and improving drought resilience.

Rx for the Biosphere with Darren Doherty part VII

This video series is an incredible lecture on keyline systems and ecology-based range management.  It basically equates to carbon farming while producing a profitable product.  Who would have thought that cattle farming could REDUCE greenhouse gases.  All this is done while creating soil, recharging aquifers, improving grassland habitat, and producing meat products.  Its a win for everyone.  Don't forget to read our article about grassland ecosystem management:

http://agroregeneration.blogspot.com/#!/2012/08/grassland-ecosystem-management-using.html



Wednesday, August 15, 2012

Rx for the Biosphere Part VI with Darren Doherty

Darren continues his outstanding lecture on carbon farming, keyline water harvesting, building soil, and improving drought resilience.

Rx for the Biosphere Part V with Darren Doherty

Darren continues his outstanding lecture on carbon farming, keyline water harvesting, building soil, and improving drought resilience.

Rx for the Biosphere Part IV with Darren Doherty

Darren continues his outstanding lecture on carbon farming, keyline water harvesting, building soil, and improving drought resilience.

Predatory Beetles Eavesdrop on ants' Chemical Conversations to find Best Egg-Laying Sites

This is an intriguing article on multispecies insect interactions.  It shows how interconnected ecological webs really are.

Predatory beetles eavesdrop on ants' chemical conversations to find best egg-laying sites

July 2012 Hottest Month on Record for U.S.; Drought Expands to 63 percent of Lower 48

Again this just highlights the food security issues we will most likely be facing in the near future.

July 2012 marked hottest month on record for contiguous U.S.; Drought expands to cover nearly 63 percent of the Lower 48

Study Demonstrates that One Extinction Leads to Another

Population dynamics can have unintended consequences.  This article shows how a reslilient ecosystems approach to conservation is far better than trying to protect any one species.  Without the proper ecology the effort may be futile.

Study demonstrates that one extinction leads to another

Leaving Islands Of Protected Forest Does Not Conserve Biodiversity

Biodiversity can only be conserved when tracts of land are interconnected and remain free from human encroachment.  Reports show that species diversity declines even in pockets of forest that are untouched and have intact canopies.  The effect of the surrounding agricultural fields and human activity are profound.  Since there is no refuge and no place to retreat, species diversity suffers.  Seed banks and populations are weak and fragile.

http://www.sciencedaily.com/releases/2012/08/120814213404.htm

Saturday, August 11, 2012

Sepp Holzer, Paul Wheaton, and Jack Spirko all together in Montana. How amazing is that?!

At one point you could see Flathead lake in the background.  So many heroes in one place.  I wish I could have been there.  I have been there.  Just at a different time!

http://www.permies.com/forums/posts/list/80/7577http://www.permies.com/t/7577/a/5572/sepp-holzer-dayton-2.jpg

Thursday, August 9, 2012

Senior Center Community Garden



Check out this Senior Center Community Garden in New York City.  What a great way to stimulate the mind through healthy activities...



Organic Natural Beekeeping Podcast with the Great Michael Bush and SoMDBeekeeper! Listen while your work or Facebook! Small Cell Beekeeping, Pollen Fermentation, Grafting, Tracheal Mites, Strains, Hive PH, and Micro Organisms...

Michael Bush is famous in the world of Natural Beekeeping.  His alternative style has been an inspiration to many.  SoMDBeekeeper is a wonderful resource.  The podcasts are packed with great information.  This podcast discusses small cell beekeeping, pollen fermentation, grafting, tracheal mites, strains, hive PH, and micro organisms...

Podcast:

http://somdbeekeeper.com/2011/12/23/podcast-episode-23-the-practical-beekeeper/?utm_source=feedburner&utm_medium=feed&utm_campaign=Feed%3A+somdbk+%28Pragmatic+Beekeeping+Podcast%29

Holistic Range Management Podcast Raising Cattle WIthout Hay Listen While You Work Or Facebook

Great podcast with Paul Wheaton of Permies.com and Owen Hablutzel.  They discuss mob grazing, paddock rotation, winter feed crops, and much more!  Learn to raise cattle without feeding them hay.  Cured forage and winter crops can see them through with better health and fewer inputs.

Podcast: http://www.richsoil.com/permaculture/1882-190-raise-cattle-without-hay/

Don't forget to read our article on grassland ecosystems:

http://agroregeneration.blogspot.com/#!/2012/08/grassland-ecosystem-management-using.html

Rx for the Biosphere Part III with Darren Doherty

This video series is an incredible lecture on keyline systems and ecology-based range management.  It basically equates to carbon farming while producing a profitable product.  Who would have thought that cattle farming could REDUCE greenhouse gases.  Darren says that on a small piece of land he can sequester enough carbon to offset the emissions of five people.  All this is done while creating soil, recharging aquifers, improving grassland habitat, and producing meat products.  Its a win for everyone.  Don't forget to read our article about grassland ecosystem management: http://agroregeneration.blogspot.com/#!/2012/08/grassland-ecosystem-management-using.html

Rx for the Biosphere part II with Darren Doherty

Part 2 in the series RX for the Biosphere with Darren Doherty on Carbon Farming, Range Management, and Keyline Design...

Tuesday, August 7, 2012

Rx for the Biosphere with Darren Doherty

This video series is an incredible lecture keyline systems and ecology-based range management.  It basically equates to carbon farming while producing a profitable product.  Who would have thought that cattle farming could REDUCE greenhouse gases.  Darren says that on a small piece of land he can sequester enough carbon to offset the emissions of five people.  All this is done while creating soil, recharging aquifers, improving grassland habitat, and producing meat products.  Its a win for everyone.  Don't forget to read our article about grassland ecosystem management: http://agroregeneration.blogspot.com/#!/2012/08/grassland-ecosystem-management-using.html

Oregon Fines Man $1,500.00 with Probation for Retaining Runoff on HIS PROPERTY!

As natural farmers we all understand that retaining runoff on your property is beneficial to the landscape.  Allowing it to percolate into the ground recharges aquifers and helps streams run for longer and with larger volume.  Those who use these resources down stream BENEFIT from these activities.  Flows are stabilized and flooding is reduced.  This man is being harassed for retaining NON-PERENNIAL runoff.  For such a supposedly foreward thinking state, Oregon is basing this off of an antiquated law from the 1920's.  Wake up Oregon!  You have done a great deal for the local food movement and the ecological farming movement.  Its time to dump some of these antiquated laws.

http://earthfix.opb.org/water/article/the-state-of-oregon-vs-rain-man/

Sepp Holzer - Father of Hugelkultur and Permaculture Practitioner Extraordinaire!

Sepp Holzer the Great is a giant in the world of Permaculture and Ecology-Based Farming methods.  He is the father of Hugelkultur and is said to have the finest example of permaculture in existence at his farm Der Kramaterhof.  Located at high elevation in the Austrian Alps, Sepp has created an oasis enabeling him to grow an astounding amount of food in an area which was previously deemed unsuitable for agriculture!



Please buy and read Sepp Holzers book.  I am currently reading it and the information in it is great!


Aquaponics System Extremely Productive, Simple, and Low Energy Consumption

Here is the aquaponics system we have running.  First of all notice the hummingbird feeder above the reservoir?  Since hummingbirds excrete when they eat, we get a free dose of fertilizer every few minutes!  Simple things like this draw energy towards your system by working with nature.  There are multiple salad greens, tomatoes, and strawberries in it right now.  It is made from two large diameter pipes with holes drilled in them.  We set baskets into the holes with hydroton pellets.  The tubes are slightly tilted so the water runs from one to the other than back into the reservoir.  This can be done with an indefinite amount of tubes.

As you can see the root systems have become quite well developed.



We have had a great deal of success with this modest setup.  At one point our greens were producing more than enough salad for the two of us to have a huge salad every day!



Our fish are small at this time but getting bigger fast.  We are feeding them with food made on site from our insect cultures and fresh greens.  Another thing we have done is set out buckets and allow insects to breed in them (yes even mosquitoes).  We then dump that water into the reservoir before the larvae mature and provide a free meal to the fish.  Again, things are much easier if you work with nature.  The reservoir has been mostly filled by rain water which adds additional nitrogen and prevents the need for more inputs.  There is a small airstone in the bottom of the reservoir which keeps the water agitated and prevents sludge from building up.



Any particulates are sucked into this tiny canister filter which is the workhorse of the operation.  It uses very little energy and keeps the bacteria quite happy:



Thanks for reading!  We intend to post an article soon about aquaculture including aquaponics systems.  Stay tuned!

Early Season Tomatoes Already 7' Tall

These tomato plants in the containers were supposed to be of modest size.  Its still pretty early in the season and they are over 7 feet tall.  Only now are they starting to grow really fast.  If we can nurse them through October, that will mean they have two more months to grow.  Our plants are regularly top dressed with compost and roach manure which seems to give them a real kick.  The soil has great drainage and much of our moisture has been provided by the rain which is great.  We keep them mulched to retain moisture.  Other than that there are no fertilizers or chemicals.  We have plenty of beneficial insects on the property so there is no need.  They just wont quit and are producing more fruit than we can eat.

Sunday, August 5, 2012

Shade Tolerant Veggies!

I have alot of shaded area in my yard so I found this chart of shade tolerant vegetables and wanted to share with everyone. ENJOY! http://www.motherearthnews.com/shade-tolerant-vegetables-zm0z11zsto.aspx

Saturday, August 4, 2012

Companion Planting!

It does work! So many species yet so little space!  Learn how to companion plant.  There is nothing like it!

http://www.ghorganics.com/page2.html

Your Weedy Lawn Is A Good Thing!

Weeds provide so many different benefits to the landscape.  If they show up that means there is something missing in your lawn.  Lets move away from turf and start thinking MEADOW!  'Weeds' are dynamic accumulators, they create soil, improve soil texture, promote diversity, fertilize, prevent erosion, and much more...

Friday, August 3, 2012

Murray Hallam's aquaponics! He is the man who can do anything with aquaponics you have to check out all of his youtube videos!

Biocomponents - A chart I am working on. Please give feedback!

Component
Positive
Negative
Examples
Insects
Pollination, Pest Control, Food, Aeration, Composting, Attract Birds, Manure
Pestilence, Disease Vector
Bees, Wasps, Ants, Flies, Butterfly, Beetle, Mealy Bug, Earwig, Cockroach, Cricket, Mantis, Lady Bug
Worms
Composting, Aeration, Food, Manure, Attract Birds
Invasive
Earthworms, Dung Worms, Night Crawlers
Birds
Food, Pollination, Pest Control, Manure, Tilling
Crop Damage, Foul Water, Disturb Mulch
Chickens, Ducks, Swallows, Finches, Jays, Quail, Raptors, Crows, Pheasant, Turkey
Burrowers
Food, Aeration, Grazing, Pest Control, Turning, Manure
Root Damage, Over Grazing, Disturb Mulch, Erosion
Moles, Gophers, Prairie Dogs, Rabbits, Rats, Mice, Ferrets, Badgers, Pigs
Grazers
Food, Grazing, Manure, Tilling
Over Grazing, Compaction, Foul Water, Erosion
Cows, Horses, Goats, Sheep
Predators
Pest Control, Turning, Manure
Reduction in Prey Species, Danger to Humans
Dogs, Wolves, Cats, Foxes, Raccoon, Coyotes
Plants
Food, Turning, Tilling, Aeration, Composting Material, Carbon Fixation, Mulch, Erosion Control
Competition, Some Poisonous, Invasive
Trees, Shrubs, Grasses, Forbs, Ferns, Roots, Herbs, Vines, Algae, Aquatic
Fungi
Food, Composting, Nutrient Movement
Pestilence, Some Poisonous
Mushroom, Mold, Rust, Mycelium
Microbes
Composting, Nutrient Movement, Nitrogen Fixation
Pestilence, Oxygen Deprivation
Bacteria, Flagella, Protozoa, Nematodes, Slime Mold (Amoeba)
Soil
Plant Growth, Microbe Growth, Fungi Growth, Water Purification, Water Retention, Root Substrate, Nutrient Storage and Release
Reduced Access to Mineral Earth
Duff, Mulch, Compost, Soil, Sand, Loess, Loam


Mouse Melon and other Unusual and Underated Crops

Listen while you surf the web! Podcasts are a wonderful resource. http://www.thesurvivalpodcast.com/episode-950-8-more-unusual-or-underated-crops-for-the-homestead

Darren Doherty Keyline Design Part 5

Continuing series with Darren Doherty on Keyline Design Irrigation http://www.youtube.com/watch?v=i3eD-5kf0Kg&feature=youtube_gdata_player

Darren Doherty Keyline Design Part 4

Part 4 of Darren Doherty's Keyline Demonstration at the beach http://www.youtube.com/watch?v=M1Wo5SePOEo&feature=youtube_gdata_player

Darren Doherty Keyline Design Part 3

Part 3 of Darren Doherty's keyline design series http://www.youtube.com/watch?v=ZZ3hVgAsMwk&feature=youtube_gdata_player

Thursday, August 2, 2012

Crayfish in the garden!?? I never would have imagined!

Its true! When groundwater is a few feet below. Burrowing crayfish can live in your garden. The author says they are dynamic accumulators. http://www.waldeneffect.org/blog/Crayfish_in_the_garden/

Wednesday, August 1, 2012

Grassland Ecosystem Management Using Ecology-Based Farming Methods - an article by Agroregeneration


Grassland Management Using Ecology-Based Methods


Written By: Ryan Mayes and Agroregeneration
File:Konza1.jpg

Pastoral agriculture and soil building involves the use of prairie, grassland, meadow, or savannah based systems to restore soil health and increase ecological diversity.  The use of primary herbivorous grazers such as buffalo, cattle, sheep, goats, and horses is the guiding force behind this method.

Encouragement of perennial grasses and forbs as apex plant species is facilitated by the use of rotational grazing, fire, and broadcast seeding if necessary.  Perennial grasses provide the bulk of carbon input into the soil.  Fertility is increased by the use of leguminous plants such as cowpeas, clover, and alfalfa, as well as mineral mining plants like dandelion, plantain, and dock. 

Irrigation, water collection, and water storage is accomplished through the use of rain catchment systems such as swales, berms, and earthen dams.  Soil infiltration, water retention, texture, and stratification is improved through the use of chisel plows, living mulch, invertebrates, root pathways, and burrowing animals such as prairie dogs and rabbits.

Birds Play an Important Role in Insect Control and Species Composition

Birds are often a missing or underdeveloped livestock component of pastoral based agriculture these days.  However, they do play a fundamental part in the overall health of the ecosystem.  There are many niches which birds fill.  Without them, the cost of herbicides, pesticides, antibiotics, and other biological control agents can cripple a business owner and destroy their land.  Reseeding also becomes extremely expensive and time consuming.

            Known Benefits of Birds

·        Birds will light upon the herbivores and go over their bodies looking for parasites.  This is especially important in the population of control of pests and immediate health of the animals. 

·        The action of the grazers stirs up and uncovers seeds, which would otherwise be difficult or impossible for birds to access.  In this way it promotes the growth of perennial grasses and forbs which do not need to reseed every year in order to survive.

·        Grazers also remove cover for insects which may prey upon vegetation and act as parasites.  Birds then have better access to them which keeps the population down. 

·        Days later, the ‘cow patties’ will have fly larvae and other insects in them which make a particularly nutritious food source for many birds.  This particular action is important in controlling flies and other pests, which prey upon herbivorous species.

·        While foraging for grubs within the manure the birds will scratch through it and spread it around.  This makes the manure more available as a nutrition source for a wide array of plants.

·        Spreading manure also prevents stagnant ‘patties’ from killing the plants beneath them.

As demonstrated, birds are extremely important in a pastoralism.  They play a critical part in pest control and species diversity for both flora and fauna.  In newer models of poly grazing, chickens and other fowl are being used more frequently to supplement meat production, spread manure, and control pests without the use of pesticides or herbicides.

Burrowing Animals Improve Soil Conditions and Species Diversity

In natural systems, there are always burrowing animals present.  In the prairie, prairie dogs in particular play a key role in the overall health of the great planes biome.  These animals are important for aerating soil and increasing porosity.  Soil will often stratify over time and minerals become otherwise unavailable to certain plants because of factors such as root depth, inability to compete, leaching, and lithification.  In North America prairie dogs play a major role in grassland ecosystems.  Other animals such as rabbits and ground squirrels may play a major role as well.

Prairie dogs have many benefits

·        Mineral rich soil is brought to the surface and organic matter injected below through their manure, dead bodies, and nesting.

·        Their burrows provide habitat and shelter for many other animals such as burrowing owls, rabbits, snakes, smaller rodents, and ferrets.

·        Prairie dogs provide food for animals such as wolves, coyotes, badgers, hawks, owls, and ferrets.  All of which are animals that keep the population of both other rodents, and the prairie dogs them selves to a manageable level. 

·        Constant grazing pressure is applied to small areas of pasture within a prairie dog town in contrast to the taller grass of other areas.  This promotes species diversity.

·        Additional topography created by their mounds and holes creates microclimates that would otherwise not exist.  This further promotes species diversity.

·        Small areas of bare soil near the entrances to their burrows are often used by large herbivores for dust baths.  This helps clean them of parasites and protects them from biting flies and mosquitoes.

These healing actions keep the soil, topography, and species composition of grasslands in a state of flux, which promotes a high degree of diversity. These factors make burrowers a cornerstone component, which is often left out or repressed from current production models.  The perception is that they somewhat compete for or diminish food resources, when they are actually increasing the long-term viability and overall production of the system.  This is partly by the direct results of their actions, and partly through a reduction in need for inputs.

Insect Ecology on the Great Plains

No terrestrial ecosystem on Earth is without insects.  They are normally suppressed in whenever possible in the vast majority of agricultural models.  This is a mistake and in ecology based agriculture they are encouraged.  Among the most common insects in grasslands of North America are; Hymenoptera (ants, bees, and wasps), Orthoptera (grasshoppers and crickets), Diptera (flies), Coleoptera (beetles), Hemiptera (insects with sucking mouthparts), and Lepidoptera (butterflies and moths). 

Some insects stand out as having a particularly important role

·        Ants are largely responsible for the movement of nutrients to the root zone of many plants.  They are important in maintaining healthy soil texture and structure.  Their tunneling action turns the soil and increases both aeration and porosity.  Invasive earthworms have also become a major component, with both positive and negative effects being observed.

·        Dung Beetles play a major role in the distribution of nutrients.  They move large amounts of dung from concentrated areas and distribute it more evenly.  After laying their eggs within the dung balls, many species even bury them.  The actions of their larvae then further process the dung making it more available as a nutrient source for plants.

·        Many species of flies and beetles are important in the recycling and distribution of nutrients from dead animal tissue.  After consuming a carcass they scatter and redistribute these nutrients through their own dead bodies.  Flies are especially suited to this with their especially short life spans.

·        Endemic bee species play a major role in the pollination of many prairie plants.  Butterflies, beetles, and moths often play a role as well.  In some instances, an insect species may partner up with a particular plant.  The two may depend on each other completely for survival.  This makes species diversity especially crucial.

In addition to the positive effects of insects, there are also perceived negative effects

·        Parasitic flies can torment all forms of animals including humans, as well as spread disease.

·        Mosquitoes provide a huge source of disease and hardship.

·        Plagues of locust may consume huge quantities of material which causes hardship for grazing animals. 

·        Sucking insects may weaken or kill plants, which diminishes forage quality. 

However, in nature nothing is wasted.  Even ‘undesirable’ insects are either returned to the earth, or are consumed by other species.  For example, locust plagues can actually be important in especially rich years.  When there is too much plant growth, herbivores may not be able to keep up.  Hotter and more destructive fires can result from too much standing biomass as well as unfavorable shifts in species composition.  Locusts also provide especially rich bumper crops of protein for reptiles, birds, and rodents all the way up the food chain to bears, wolves, and coyotes.  Even something as seemingly destructive as the locust can end up providing more benefits than drawbacks.  Every component of the ecosystem has its role to play.

Poly-Culture and Guild Structure within Grasslands

Species diversity in plants plays a critical role in overall ecosystem health.  In arid grasslands of the American Southwest, Australia, and Africa, leguminous trees such as acacia, ironwood, and mesquite are sometimes an important component.  In different grasslands, other trees provide similar roles.  These trees do not form a closed canopy as in a forest ecosystem, but remain at a distance great enough to provide adequate lighting and resources for pasture. 

Trees and woody shrubs

·        Provide forage in times of extreme drought with both foliage, and edible pods, nuts, and fruits.

·        Provide nesting places for birds, bees, wasps, and other arboreal creatures.  Hollow trunks provide hiding places for small mammals and reptiles.

·        Furnish shade and cooler microclimates for both animals and other plants.  Woody patches or hedges provide protection from extreme drying winds or biting cold.

·        Have deep taproots which reach water far underground and make it available to surface plants that might not otherwise have access.

·        Because of their nature, leguminous trees also add nitrogen to the soil through colonies of nitrogen-fixing bacteria, which live in special structure on the roots.

Forbs and other leafy plants

·        Forage for bees and other insects.

·        Nutrients for herbivores, which grass often cannot provide.  Diversity allows for a wider array of micronutrients and phytochemicals.  Some plants fight pathogens, act as antibiotics, have powerful antioxidant effects, or aid in digestion ect…

·        Shade and living mulch to prevent the desiccation of soil.  Wider leaves block out sun and form air pockets with higher humidity and lower temperatures.  This helps in preventing evaporation and transpiration from escaping into the atmosphere.

Just as in a forest, grasslands have different layers of plants in their ‘canopy’.  Some are shade tolerant and moisture sensitive, some are tall and can handle the brutal sun.  Roots intermingle and take advantage of different nutrient profiles stratified within the soil.  Some plants like perennial grasses may be fire tolerant.  Annuals and woody shrubs may become more prevalent in areas that have not burned for some time.  Some plants respond well to heavy grazing pressure from prairie dogs or quicker grazing cycles.  Some plants exist only in damaged landscapes and facilitate the healing process.  This entire array of different flora provides a vital element of diversity which sets natural grassland apart from production agriculture and heavily managed pastures.

Perennial Grasses are the Apex Plant Species

The cornerstone of the grassland ecosystem is the perennial grass.  Perennial grass is the apex species of the pasture.  It is tenacious, its roots penetrate deeply, it is nutritious, drought and fire resistant, can survive without reseeding, and it aggressively both improves and creates new soil.  It is the analogue of ‘old growth’ in a grass-based system.  Perennial grass is encouraged in regenerative, pasture-based agriculture because of its nutrition, epic soil building capability, ergonomic ease of care, and the wildlife habitat that it provides.  The roots of these grasses have been shown to penetrate dozens of feet into the earth searching for water and nutrients.  This is not a taproot like on a tree, but a mass of finer roots with thousands of times more surface area. 

Common Perennial Grasses in the American Prairie

Short grass: Blue Grama, Buffalo Grass

Tall grass: Big Bluestem, Switch Grass, Indian Grass

Mixed Prairie: Little Bluestem, Western Wheatgrass

 Important benefits of perennial grasses

·        Drastically increased soil stability, which helps prevent erosion and the formation of gullies.  Wind erosion during drought is minimized or eliminated.

·        Extremely deep roots give greater access to both moisture and stratified bands of minerals, which would otherwise not be available.  This feature results in a very high quality nutrient profile compared to other forage species.

·        After grazing, portions of the root mass shed off and die within the soil.  As they decay, this injects carbon deep within the soil profile, effectively sequestering it.  This is the primary source of organic matter within the fertile Mollisol soils created by grasslands.

·        After decaying, root channels are left behind.  This creates spaces for the growth of new roots.  In addition, it also increases soil porosity, water retention, water infiltration, aeration, slows lithification, improves soil texture, and reduces compaction.

·        Subsurface nutrients and moisture become available to other plants through decay and capillary action within the root zone of perennial grasses.  The effects of drought are minimized and nutrient mobilization is increased.

This combination of effects creates the some of the finest agricultural soils on earth and plays a major role in keeping our carbon cycle balanced.  Oddly enough, pastoral agriculture is touted as a contributor to global warming and in production agriculture it is.  It is true that the bioconversion ratio of grass to meat is only about 10:1.  It is also true that animal’s emit carbon through breathing and digestion. However, the vast majority of grassland biomass lies below the surface.  They are essentially upside down forests.  This is where the carbon sequestration takes place and it offsets the carbon emissions of any animal activity by a huge margin.  The fact is that grassland ecosystems are among the most effective carbon sequestration tools available to man and their management requires the use of grazing animals.

Managing Pasture for both Soil and Animal Health

In rotational grazing, as in nature, herds of different herbivorous animals move through an area, which is generally subjected to heavy, albeit selective grazing upon certain plant species.  Once an area is exhausted, the animals move on to ‘greener pastures’ and the process repeats.  This may happen with several species of animals before an area is allowed to recover.  In a poly-grazing system one may choose to rotate cattle, then sheep, then goats, then chickens.  The reason for choosing which animals may be moved through an area may have to do with the species of forage present, which animals came before, and the way in which those animals graze.

The grazing habits of common livestock

·        Cattle generally eat long grass first.  This can prevent or suppress grasses from going to seed, which could shift the species profile to annuals.

·        Sheep enjoy short grasses and forbs.  They take advantage of material generally left behind by cows.

·        Goats normally browse trees/shrubs.  They also tolerate noxious weeds as well as invasive plants pasture plants like blackberry brambles, multiflora rose, and honeysuckle.  This prevents the formation of a closed canopy above the ground layer and competition from undesirable species.

·        Chickens take advantage of new shoots, seeds, and insects/grubs in both the dung and newly exposed dirt.

In rotational grazing, fencing is used to cordon off a series of paddocks.  Stocking rates of animals are generally very high and the amount of time allowed in any one paddock is unusually brief.  Animals are rotated into a new paddock after they have grazed sufficiently to prevent any one species from gaining a foothold afterwards.  This is accomplished through both direct grazing and the trampling effect incurred by high stocking rates.  Little to no long term compaction occurs and plants are not killed by constant pressure.

Afterwards, one would rest the area until it is deemed to have recovered and repeat the process.  Surface biomass again returns and shed roots grow back.  There is no set amount of time this takes and it depends completely on the pastures response.  The animals are then brought around again for another cycle, which repeats according to the needs of the farmer and the condition of the pasture.  In very healthy pastures this can happen many times over the course of a season.

This model saves time and money by not having to drive the cattle from place to place.  One just opens the gate to the next paddock and the animals find the fresh forage irresistible.  Reseeding is eliminated or diminished and no use of pesticides, herbicides, fertilizers, or other artificial methods is necessary.  Organic matter in the soil is increased and the need for irrigation diminishes. 

Fire Ecology is Essential to Species Composition

Perennial grasses are fire resistant because their perennating organs (the areas where new shoots originate) lie below the surface.  This makes fire a great tool for encouraging perennial grass to dominate in ecosystems.  A varied fire regime is always best since fires during different times of the year have drastically different effects.  A varied fire regime results in the greatest diversity of plant, invertebrate, and bird species present. 

  • Dormant season fires remove litter, but encourage some undesirable species and leave bare soil.  However, they have a much less profound affect on nesting birds and invertebrates. 

  • Spring fires favor warm season perennial grasses like big bluestem.  But they can also have a profound impact on invertebrate species. 

  • Summer fires occur most often but are smaller in size.  They are less likely to affect birds and invertebrates. They also tend to favor perennial grasses while clearing out woody plants and trees that might otherwise get a foothold on the unburned prairie.

Irrigation through Keyline Design

Irrigation in grassland is one of the easiest things to accomplish.  In all but the driest of climates, all the rain needed falls on the property.  It’s just a matter of capturing it either in the soil, or in storage basins and ponds.  A system of range management call Keyline Design was pioneered by an Australian visionary in the 40’s named P.A.Yeomans.  It solves many of the problems faced in range management today.

In the Keyline method, one digs a slightly off-level swale at the highest possible point.  The swale is perpendicular to the slope of the land therefore it intercepts runoff as it runs downhill.  Making it slightly off level means that once runoff is captured, the water will begin to move towards a desired point such as a pond, but without enough velocity to cause erosion. 

Ponds are usually located behind earthen dams in the small draws or valleys between ridges.  One generally does not dam a perennial stream, but some do siphon water from the system out of them.  A series of swales then connect this dam to other dams in adjacent valleys.  In this way, any excess runoff simply moves laterally around the ridge to the next storage area.

In extreme precipitation events, overflow is directed to ridgelines where it spreads over a broad area, preventing erosion.  Usually the water does not travel far before then being captured by another series of swales and dams below the first.  If this is not possible then water may be directed back into permanent waterways if available.

In the areas between swales, chisel plows are often employed off contour sloping out towards ridgelines.  These plow shanks do not turn soil over as in conventional agriculture but merely create narrow slits in the soil.  These channels allow water penetrate and move it underground towards the ridges, which are generally far drier than the valley bottoms.  Chisel plows also allow lower levels of mineral soil to be inoculated by organic matter from above.  Since the earth is not turned over, organic matter does not gas off into the atmosphere as it does with conventional agriculture.  Carbon levels remain intact or are augmented.

In times of drought or dry seasons, baffles located within the walls of the earthen dams allow water to be released at a desired time.  The released water is then captured by lower swale systems where it overflows into designated areas.  Use of a flag (temporary cloth dam) is used to dam the channel causing overflow at desired points along a given swale.

In simpler systems one may chose to use perfectly level swales in closer succession. In this case the swales infiltrate water instead of moving it.  Since water naturally moves through the soil on its own, the chisel plow may not be necessary.  One can still use dams in conjunction with this method and have great success.

In this way one has all the water they need without pumping ground water or damming permanent water ways.  Emphasis is put on storing water in the soil and using the resources at hand rather than extracting from other areas.  With an initial investment, one can create a system which has great longevity and requires very little maintenance.  P.A.Yeomans original property has been around for decades and still operates perfectly.

The true magic in this method is the long term benefits it has on the surrounding ecosystems.  This may take years to be truly realized but the results can be quite profound.  Water is kept in the soil where it belongs.  Groundwater is recharged and surrounding wells generally show higher levels for longer periods of time.  Streams suffering low or seasonal flow show higher volume for longer periods, less silt, and lower levels of flooding.  Pollution downstream is decreased and utilization of nutrients onsite is increased.  Erosion is decreased or eliminated.  Springs which normally run dry last longer and new ones may form both on the property in question and on surrounding properties.  Life is restored to riparian areas and the local ecology is augmented.

Notable Practitioners of Ecosystems based Grassland Farming/Management:

           
Web resources:


Water for Every Farm: