Dan Medford soil - Oregon State University Extension Serviceextension.oregonstate.edu/.../default/files/Dan__Medford_soil.pdf · Soil Structure Aggregation of sand, ... Aeration.

Soils, soil organisms, soil amendments, and their relation to plant health

Thanks to Craig CoggerExtension Soil Scientist WSU-Puyalluphttp://www.puyallup.wsu.edu/soilmgmt

Outline

•Introduction to soils•Local soil types•Soil organisms•Choosing organic amendments•Compost quality•How much organic amendment to use

Mineral MatterPore Space

OrganicMatter

Soil Components

The soilecosystem

Residue decompositionNutrient cyclingAggregation and porosityEnhance plant growthBreak down contaminants

•Water MovementHow quickly water moves through soil

Water Holding CapacityHow much water a soil can hold available for plant growth

Soil pores and water movement

•Macropores: Infiltration and drainage

•Capillary pores: Available water

•Micropores: Unavailable water

Soil properties that affect porosity

•Soil texture•Soil structure•Compaction and disturbance•Organic matter

Soil Particle SizesSand .05-2 mmSilt .002-.05 mmClay <.002 mm

Coarse Fragments >2 mm

Hand texture technique

Soil StructureAggregation of sand, silt, and clay particles

Structure affects:MacroporosityInfiltrationAeration

Formation of soil structure

•Growth of roots and movement of organisms create pores and aggregates

•Soil organisms break down organic residues, producing glues that stabilize aggregates

•Fungi provide structural support to aggregates

•Physical, chemical processes also involved

Urban and suburban soils

•Compaction: Loss of structure and macropores

•Cuts: Loss of topsoil, less structure, shallow depth

•Fills: Unstructured “dirt”

Disturbed soil:Cut and

compacted.

Effects of development on soils

•Increased bulk density•Resistance to root penetration•Loss of structure•Reduced porosity•Reduced infiltration•Reduced rooting depth•Reduced nutrient and water availability

Consequences

•Increased stress on plants

•Increased risk of runoff and erosion

Prescription•Incorporate organic matter

Expected benefits of organic matter

•Physical: Improved bulk density, structure, porosity, permeability,

•Biological: More activity•Available water: Increase depends on soil and irrigation regime

•Runoff: Better structure and porosity reduces runoff and erosion

•Nutrients: Significant for some materials

Bacteria, fungi, actinomycetes, protozoa, nematodes, arthropods, earthworms

Pictures courtesy M. Fauci and D. Bezdicek

Soil Organisms

Residue decompositionNutrient cyclingAggregation and porosityContaminant breakdownNitrogen fixationEnhance root functionPathogensPredatorsMary Fauci

Roles of soil organisms

Roots

Detritus

Phytophagousnematodes

Collembolans

Predaciousmites

NematodeFeeding mites

Predaciousnematodes

Omnivorousnematodes

Amoebae

Bacterivorousnematodes

Mycorrhizae

Fungi

Bacteria

Cryptostigmatidmites

Noncrypto-Stigmatid mites

Fungivorousnematodes

Flagellates

Soil food web and nutrient cycling

Organic matter stimulates soil

organisms

•Formation of soil structure•Nutrient cycling•Plant disease suppression/stimulation

Choosing organic

amendments

Organic materials:Fertilizers vs. Soil amendments

vs. mulches•Fertilizer

1. High nutrient content and availability. 2. Main benefit is nutrients. 3. Relatively small amounts applied.

•Soil amendment1. Low nutrient content and availability. 2. Main benefit is organic matter. 3. Large amounts applied.

•Mulch1. Negative available nutrients2. Applied to surface to control weeds and conserve

moisture

Carbon:Nitrogen ratio

•Ranges from <5:1 to >500:1 in organic materials

•Low C:N supplies N to plants•High C:N ties up N by biological immobilization

Types of organic amendments

Hot stuff – C:N <10:1Cool stuff – C:N 15:1 to 25:1Woody stuff – C:N > 30:1

Hot stuff C:N < 10:1•Rapid N availability•Use as a fertilizer•Over application leads to excess nutrient levels in soil --potentially harming crop and water quality.

Examples:

•Poultry manure•Packaged organic fertilizers•Fresh grass clippings•Fresh, undiluted rabbit manure•Heat-dried biosolids

Cool stuff, C:N 15:1 to 25:1•Slow N availability•Can add large amounts without risk of over-fertilization

•Use as a soil amendment•Expect some N immobilization (tie-up) shortly after application.

Examples:

•Compost (yard debris, most manures, biosolids)

•Mixed fresh yard debris•Cover crop residues•Dairy manure solids

Woody stuff, C:N > 30:1•N immobilization•Need to add N along with organic amendment

•Use as mulch or bulking agent for compost

Examples:

•Straw•Sawdust•Paper waste•Horse manure rich in bedding

Compost Quality

Why use compost as a source of

organic matter?•Locally produced, recycled material•Home, farm, or commercial•Can usually be applied at high rates to increase organic matter benefits

•Hot composting kills pathogens

What is composting?

•Biological transformation of raw organic materials into biologically stable, humus-rich substancessuitable for growing plants

What can compost be made of?

•Feedstocks includeyard debriswood wastebiosolidsdairy solidsfeedlot manurepoultry manurefair wasteand more

Compost Quality•Quality depends on specific use (landscape incorporation vs. mulch vs. potting mix component)

Compost Quality: Important things to

know•Moisture•Particle size•Organic matter•Nutrient availability•Salts•Biological stability•Contaminants

Compost moisture affects handling

•Dry compost (< 35% moisture) is dusty

•Wet compost (> 60% moisture) is clumpy

Compost particle size•Particle size < 1 inch is good for incorporation in landscape beds

Compost organic matter•Typically 40 to 60%•If a compost contains large amounts of soil, the organic matter content will be lower (this may be true of backyard and feedlot composts)

Keys to compost nutrient availability

•Carbon to Nitrogen (C:N) ratio•Biological stability

Soluble salts•Less of a problem in humid climates than in arid climates

•General recommendation is soil:compost blend < 2.5 to 6 mmho/cm, depending on sensitivity of plants

Biological Stability

•Unstable compost can harm plants (phytotoxic compounds include organic acids and high levels of ammonia).

•Indicators include color, odor, very low or high C:N, stability test kits.

Compost contaminants

•Inerts (plastic etc.) affect aesthetic appeal.

•Metals (lead, cadmium etc.) tend to be low in Northwest composts.

•Pesticides: Clopyralid was a concern in some composts, but no problems have been reported since 2001.

Other organic amendments

•Cover crops•Yard debris (leaves, grass clippings)•Uncomposted manures (horse, dairy solids, rabbit, goat, etc.)

•Class A biosolids (such as Tagro)•Food waste (coffee grounds, vegetable trimmings)

Amending soil with organic materials

How much to add?•Physical benefits are most apparent with high rates of amendments.

•Materials must have low nutrient availability to avoid potential N leaching when high rates are used.

•Most research has been done on agricultural soils.

•Maximum rates studied are about 1/3 by volume.

Landscape plantings

•Most research has focused on amended planting holes.

•Little or no benefit of amending holes.

•Not much data available for planting beds.

•Recommend 1/3 by volume based on results from ag research and field experience.

Annual Beds•Establishing raised beds. You can use up to 30 to 50% by volume of suitable material. Expect settling.

•Annual amendments. One half to one inch per year to maintain OM.

Organic Mulches•Cover ground, reduce erosion•Reduce growth of weeds•Reduce evaporation•Buffer surface soil temperature•Decompose to become part of soil organic matter

Organic Mulches for Landscapes

•Coarse, woody material (bark, wood chips) are good for weed control in landscapes

•Apply 3” deep, keep away from trunks•Compost mulches may not control weeds well after the first few months

•Woody mulches may slightly reduce N availability to plants in first year after application

Which mulch where?

•Landscapes: Woody mulches•Annual gardens: Mulch in winter with compost or straw, or grow cover crops (living mulch)

•Turf: Do not mulch