Pasture Ecology ANSC 110 August 31 2010 Pasture
- Slides: 43
Pasture Ecology ANSC 110 August 31, 2010
Pasture Ecology n Ecology- Interrelationships of grasses, legumes, weeds, and grazing animals with their environment n Categories: n n Non-living components Plants that capture solar energy Herbivore/Carnivore consumers Decomposers
Why do we care? n Some plants are better able to adapt to the environment than their neighbors n Has a HUGE impact on pasture quality n By understanding ecology, we can better implement management techniques
What influences pasture ecology? n n n n n Energy Water & Temperature Pasture site Space available Competition Grazing habits Plant anatomy Soil characteristics Decomposers/Pests
Energy n Energy runs the show n “Free” energy in the form of sunlight n Manage pasture to maximize sunlight Increase leaves/surface area n Increase size of leaves n Increase length of growing season n
Solar Energy Volume of plants Area of leaf Duration of growth Savory, 1988
Energy Through Sunlight n Sunlight is single most important influence on pasture yield n Light collection is influenced by: n n n Forage species Leaf angle Canopy density Leaf aging Availability of water and nutrients in soil
Competition for sunlight n When another plant shades its neighbor, the photosynthesis rate of that neighbor declines n Competition for sunlight decreases at: Early growth in spring n Re-growth after grazing/cutting n
Competitive advantage n Sunlight is not like a soil nutrient Must be used instantaneously n Once gone, gone forever n n Position of leaves gives plants the competitive advantage n Leaves that are above the canopy will get more sunlight than those below
Water n Rainfall is primary water source for pastures n Irregular rainfall deficient or excessive soil water n Direct effect on plant productivity and persistence
Drought
Drought n Plant leaf area decreases n Plant root growth increases n Decreased ability to take up nutrients
Drought n Ability of legumes to fix N decreases n Carbohydrate storage supplies decrease n Nutrient levels highest at surface
Wet conditions n Too wet plant growth slows n n n Water fills soil pockets, excluding oxygen needed by plant roots Fungal root disease organisms will thrive and damage roots Longer recovery periods after wet conditions are needed before grazing
Temperature Second most important influence n Plants are adapted to certain climatic conditions n 68° F n Plants that can adapt to temperature fluctuations will do better n
Temperature n Mean annual air temperature for our zone (Zone D in textbook) is ~ 58° F
Pasture Site Forage crops cannot escape the locations in which they are growing n Location influences affect pasture composition and growth n Important factors to consider – n Elevation n Soil type n Drainage n Slope and exposure n
Space Available n Space within pasture is limited n Bare spaces allow growth of unwanted weeds n As space becomes more limited so does: n n n Moisture Light Nutrients needed for growth
Competition n When all necessary growth factors are in abundance, competition doesn’t play a part in pasture ecology n Low supply of one vital nutrient will cause competition among forage species
Competition n n n Water Nutrients Light Carbon Dioxide Oxygen Environmental stressors Means of pollination/seed disbursal
Competition n Success of a single plant depends on how well its characteristics: n n n Match the demands of the environment Allow it to cope with stresses as compared to neighboring plants Increase the competitiveness of the desired species and/or decrease the competitiveness of the undesirable species
What makes a plant a successful competitor? n The plant that can: n n Draw on the limited factor Do so quickly n Usually able to grow more roots and leaves n Adaptable to several environmental conditions
Grazing Habits n Intensity and frequency can have a tremendous affect on competitive ability of many pasture plants n Pasture species vary greatly in their tolerance to grazing
Grazing Horses n n Animals more complex pasture Selective grazing Manure and urine Treading - Walking, running, jumping, lying down, scratching, pawing
Management n Plant height – especially during leaf development and elongation n Grazing frequency n Grazing intensity n Soil fertility
Management n Weedy pastures n Understocked lax grazing n Overgrazing
Management n Clover and grass n High N from urine and fertilizer grass growth, shading of clover n More frequent grazing no shading of clover, increased competitive ability
Overgrazing n Not necessarily number of animals n More a function of the time that animals are exposed to plants n An overgrazed pasture is one that grows from root energy rather than solar energy n Continuous grazing or inflexible rotational grazing without enough paddocks
Plant Anatomy n Plant roots have a huge effect on pasture productivity n n n Water absorption Nutrient storage Root temperature = soil temperature Rhizomes or stolons? Taproot?
Plant Anatomy n If overgrazing occurs, regrowth depletes food reserves and weakens the plants n Methods plants use to cope with being grazed: n n Spines, thick hairs, waxes, tough leaves Chemicals to deter grazing
Grazing’s effect on roots n If pasture is grazed during adverse conditions, animals will preferentially avoid weeds n About ½ of pasture plant growth is in the roots!
Soil Characteristics n Microorganisms n Earthworms n Nematodes n Nutrients
Soil Characteristics n Various soil nutrients levels favor different plant species n Knowing general fertility requirements of various pasture plants has practical application
Microorganisms Found near the roots n Presence of soil organisms helps reduce nitrogen loss through leaching n Root area of soil is different because: n Release of organic materials from roots n Uptake of nutrients by roots improved n
Rhizobium Bacteria n “Nodulate” the legume root n To form a small knoblike outgrowth on the roots of many leguminous plants Symbiotic relationship with plant n Requires certain soil nutrients and p. H n
Earthworms
Earthworms n Pasture production can be as much as 25% higher on earthworm-containing fields n Aerate and loosen soil n Incorporate dead pasture plants n Break down manure quickly n Eat nematodes that could harm clover roots
Earthworms n Move 20 -30 tons of soil per acre per year! n Application of urea (fertilizer) can cut earthworm numbers in half n Use ammonium nitrate instead n Soil p. H below 5. 6 is unfavorable n Herbicides, insecticides can kill them n Need plant cover (no bare soil)
Nematodes n Beneficial and important Lead to rapid decay and incorporation of organic matter in the soil n Nutrient cycling n Feed on bacteria, fungi and soil protozoa n n Pathogenic forms are kept in check by predatory nematodes (in soils that are in good condition)
Pests n Weeds n n n Forbs (example: pigweed) Noxious weeds (causes injury, has a bad taste or is poisonous) Insects n n Grasshoppers, locusts, crickets, aphids, etc. Control by not overgrazing, provide birdhouses, add poultry to pasture
Pests n Diseases About 45 disease affect pasture plants n Mixed populations is best control n Avoid overgrazing n n Rabbits, hares and rodents Favored by overgrazing n Encourage abundant diversified wildlife (i. e. foxes, owls, eagles, even snakes) n
Things to Remember… n Only a slight change in a particular environmental factor may determine death or survival of an individual plant n Good management decisions have major impacts on pasture productivity, persistence, and livestock performance n Many factors that influence pastures can in some way be affected by management
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