the soil foodweb approach to soil and compost managing the … · 2008-04-24 · soil organism...
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The Soil Foodweb Approach to Soil and Compost
Managing the Biology to Design Compost
Soil Foodweb Canada East Ltd.Halifax, Nova Scotia
We know more about the movement of celestial bodies than about the soil underfoot.
- Leonardo da Vinci circa 1510
SOIL ORGANISM INTERACTIONS = SOIL FUNCTIONS = SOIL BIOLOGY
Healthy soil performs the following functions:– Holds nutrients and prevents leaching into water sources– Cycles nutrients from organic to plant available forms– Decomposes organic matter (coupled to nutrient cycling)– Suppresses and prevents soil-borne diseases – Maintains porous structure to allow air and water movement– Binds or detoxifies pesticides and other toxic substances– Sequesters carbon in humus and stable forms of organic
matter
All of these healthy soil functions are a result of healthy soil biology.
Role of Plants in Soil Food Webs
• Provide large quantities of plant matter to soil (food for the food web)• Provide up to 60% of their photosynthetically fixed carbon dioxide as
food to soil organisms through their roots as root exudates (sugars, amino acids, proteins, shed root cells)
• By providing a rich source of exudate foods, plant roots are surrounded by a thin layer of intense biological activity – the rhizosphere – where most soil biology is found
• By selectively secreting specific foods a plant can stimulate specific organisms to grow and perform a required function for the plant (facilitated by high biodiversity)
• By regulating microbial growth in the rhizosphere, plants exert a very sophisticated influence on the structure of soil food webs and patterns of nutrient flow
SOIL BACTERIA• One acre of healthy soil contains the weight of a cow in bacterial biomass• One gram of healthy soil contains over 25,000 species and a billion
individual bacteria• High bacterial biodiversity is required to sustain soil functions under a variety
of soil conditions• Engage in nitrogen fixation (rhyzobia, Azotobacter), chemical detoxification
(pseudomonads), promoting root growth and mycorrhizal associations• Decompose organic matter and dissolve minerals and hold these nutrients• Cover leaf and root surfaces to provide pathogen protection• Secrete polysaccharide glues that stick soil particles together, increase
water holding capacity and improve soil structure• Serve as a primary food source for protozoa and bacteria-feeding
nematodes that (bacterial nutrient cycling channel)• While most bacteria are beneficial, a small number are plant pathogens and
usually occur in unhealthy and unbalanced soils• Recent research has discovered numerous bacteria species inside plants
and performing beneficial functions
SOIL FUNGI
• Important decomposers of high-carbon and resistant materials (lignins, woody materials) – including toxic organic chemicals
• Efficiently retain nutrients/micronutrients in their biomass and prevent them from leaching (N, P, S, Ca, Fe and others)
• Build soil structure by holding soil particles (glued by bacteria) together in aggregates with their long hyphal strands
• Improve air and water infiltration and the water holding capacity of soil• A small number are pathogenic in contrast to large numbers of beneficial
fungi that perform essential soil functions, including suppression of pathogenic species and the soil conditions permitting their appearance
• Can trap and digest nematodes• Serve as a food source for fungal feeding nematodes and microarthropods
that then excrete plant available nutrients (fungal nutrient cycling channel) • Easily damaged by high-till and chemical agriculture
Soil Protozoa
• Single-cell flagellates, amoebae and ciliates living in water films on soil and organic particles, feed on bacteria and small bits of organic matter
• Feed almost exclusively on bacteria and in this process take in more nitrogen and nutrients than they need and excrete these in plantavailable form (Key discovery by Elaine Ingham in the 1980s)
NUTRIENT CYCLING RATES are proportional to protozoa populations.
• Activity and movement helps maintain soil structure
Soil Nematodes
• Small round worms living in water films, inside plant roots and inside insects or their larvae
• Movement through soil spreads bacteria and fungi• Classified as bacterial, fungal or root feeders - or as predators• Participate in both bacterial and fungal nutrient cycling
channels• Provide food for other soil fungi, insects and worms
Soil Food Web Structure and Plant Growth
• Different plants require different soil biology and food webs• The ratio of soil FUNGI:BACTERIA is very important to plant growth
and to supply balanced food resources to protozoa and nematodes• Strong populations of mineralizers (protozoa and nematodes) are
required for high rates of nutrient cycling from organic matter decomposition by way of bacteria and fungi
• Soil biology can be managed by using :– Bacterial or fungal specific foods– Compost (bacterial, fungal, balanced)– Compost Teas– Compost Extract
Bare Parent
Material
100% bacterial
CyanobacteriaTrue BacteriaProtozoaFungiNematodesMicroarthsF:B = 0.01
“Weeds”- high NO3- lack of oxygen
F:B = 0.1
Early GrassesBromus, Bermuda
BRASSICA FAMILYF:B = 0.3
Mid-grasses, VEGETABLESF:B = 0.75
Late successionalgrasses, row crops
F:B = 1:1CEREAL GRAINS
Shrubs, vines,Bushes
F:B = 2:1 to 5:1FRUIT CROPS
Deciduous TreesF:B = 5:1 to 100:1
Conifer, old-growth forests
F:B = 100:1 to 1000:1
Soil Foodweb StructureThrough Succession,Increasing Productivityand Fungal Dominance
What does your plant need?
Basic Program
• Measure the soil biology to determine deficiencies or imbalances
• Apply compost and compost tea to supply deficient biology and provide food for the soil food web (Compost must be tested; its biology must be known.)
• Robust and healthy soils resist disease and provide plant available nutrients from organic and mineral matter in composts and soils.Soluble fertilizers and synthetic pesticides are not required. Healthy soil food webs are absolutely required.
Components of Soil Nutrient Pools Tests used for each pool
Total Extractable
Exchangable
Soluble
Biology
Biology
RootsBacteria and Fungi
Grind; Conc. Nitric acid, combustion10% HCl, H2NO3
Melich IIIBray 2Amm. Cl / BaCl
ColwellOlsen, Bray 1Melich IMorgan (Reams)1 M KCl, Universal
Designer Compost
Compost produced to contain specific food webs for specific soil management applications:
– Correct biomasses of highly diverse bacterial and fungal populations in the correct ratio to provide high levels of decomposition and nutrient cycling
– Correctly balanced mineralizer populations to provide robust nutrient delivery capacity with the correct pattern of nutrient flow
All design principles are based on understanding soil andcompost biology and how to integrate them into healthy andproductive soil food webs.
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