land use and soil erosion
TRANSCRIPT
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Land Use & Soil Erosion
• Agriculture = dominant land use
• Urban Sprawl = new land use threat
• Excessive soil erosion – soil components moved to new location due to water or wind
http://www.metacafe.com/watch/yt-x2CiDaUYr90/u_s_dust_bowl_of_1930s/
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Type of Erosion • Geological (natural) Erosion
- continuous slow rate of erosion- 0.02 to 0.25 mm /yr for bare rock- 2 mm /yr on stable soil surface
• Accelerated Erosion – human-caused- 10 tons/A/yr
(natural replacement = 0.5 tons/A/yr)- splash, sheet, rill, & gully erosion- Dust Bowl (1930s)
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Rill Erosion
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Gully Erosion
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Shelterbelt Program • Response to Dust Bowl• 1-5 rows of trees (preferable to have 12)• ~ 70% reduction in wind speed• Aesthetics, wildlife habitat, energy
conservation (25% savings)• Will we repeat History? - removing
windbreaks to gain > field size
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Managing Soil Erosion • USDA – 3,000 Soil & Water
Conservation Districts• Are we controlling soil erosion?
- rate today = rate during 1930s)- 4 B tons /yr- mostly on farmland (50% water-
based & 60% wind-based)- 80% farmland > natural replace. rate
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Tolerable Soil Loss
• USDA – erosion loss of 1 to 5 tons/A/yr without impacting crop production
• No scientific basis for this measure
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Costs of Soil Erosion
• Lower soil fertility / crop production• Air (dust) & water (sediments) pollution• Estimates of on-site costs = $27 B/yr• Estimates of off-site costs = $17 B/yr
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Erosion Factors (water)
1) Rainfall• Amount, Intensity, Seasonality
2) Surface Cover (erodibility)• Soil structure (related to water-stable
aggregates)water-stable aggregates: material that aids
in soil particles clumping together in water (e.g., organic matter)
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Erosion Factors (water) cover crops:
vegetation grown before/after primary crop for protection of soil surface (e.g., clover, alfalfa, winter wheat) – related to green manure
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Erosion Factors (water) green manure:
plowing under of cover crop in order to increase soil fertility (N fixation), increase organic matter, reduce erosion
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Erosion Factors (water) 3) Topography
• Slope grade and length
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Controlling Water Erosion of Soil
clean tillage: crop residues turned into soil soon after harvest; often fall plow
1) contour farming2) Strip cropping3) Terracing4) Gully reclamation5) Conservation tillage6) Cropland Reduction Programs
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Moldboard Plow
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Moldboard Plow
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Contour Farming • Farming perpendicular to slope (across
slope) -- Jefferson• Reduces water runoff (65%), erosion,
and siltation • Link to Strip Cropping
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Contour-Strip Cropping
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Corn
Strip Cropping • Alternate strips of crops across a slope• Rotate crops (crop rotation), i.e., rotate
strips• Example:
Corn-Oats-AlfalfaOats
Alfalfa
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Waterways
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Terracing • Ancient practice from
mountain cultures• Create bench-like
steps on steep slopes• ridge terraces (broad-
base or grass backslope) – broad flat steps in slope
• channel terraces – dig channel across slope; used in high runoff sites
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Channel Terracing
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Conservation Tillage • Limit or restrict plowing (tilling) of soil
in order to reduce soil erosion
1) Minimum Tillage – field cultivator & disc for working top few inches of soil (vs. moldboard plow turning 6+ inches)
• < 50% of US cropland
2) No Till – field machinery cuts narrow slit into soil & drops seed; maximal surface residue; maximal soil protection
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Minimum Tillage Equipment
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No-Till Farming • Pros:
- reduces labor, fuel consumption, soil erosion- increases crop yield
• Cons:- need special equipment- not universal- disease & crop pest problems (herbicide & pesticide use)
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No Till Equipment
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No Till
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No-Till with Crop Residue
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Pesticidespesticide: chemical that kills pests (animal
& plant)
herbicide – weedsinsecticide – insectsrodenticide – rodentsSilent Spring – Rachel Carson (1960s)1960s to present (6X > herbicide)
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No-Till vs. Minimum Till
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Alternative Agriculture Systems conventional farming: agrochemicals, new
crop varieties, bigger equipmentalternative agriculture: use organic,
biodynamic, integrated, low-input or no-till concepts
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Alternative Agriculture Systems organic farming: no agrochemicals;
combats disease/insects via cultural treatments (e.g., crop rotation, green manures, compost)
biodynamic farming: use soil preparations made from animal manure, silica, and plants
low-input farming: minimize use of material from outside of farm
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The Ecology of Farming• Native communities = dynamic
equilibrium• Human-altered systems = monocultures,
ecosystem simplification
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“Cutting-Edge” Agriculture Integrated Pest Mgt (IPM): limit pesticide
use by combating insect pests with broad-spectrum (integrated) approach (e.g., biological, chemical, cultural…)
precision farming: use satellites (Global Positioning System = GPS) to map fields and spatial data (crop yield, fertilizer application); manage smaller units (i.e., field sub-units)
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Precision Farming
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Precision Farming
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Soil Properties • comprised of: minerals
organic matter water air
• Properties = texture, structure, organic matter, life, aeration, moisture content, pH, fertility
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Soil Texture • Coarse fraction (rock, gravel) vs. fine-
earth fraction (sand, silt, clay)• Sand > Silt > Clay• textural classes (soil texture pyramid,
p.105, fig 6.2)• adsorption: process of forming chemical
bonds (ionic bonds) between nutrients (+) and soil (clay -) – relates to leaching/fertility
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Adsorption
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Soil Structure • arrangement/grouping of soil into
aggregates (or clumps)• Influenced by “natural” physical factors
(e.g., freezing/thawing, burrowing) and human alterations (e.g., tilling)
• Affects soil permeability (air & water) and plant growth (roots)
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Soil Organic Matter (OM) & Life
• OM = living & dead organisms in soil• humus: top layer of soil produced via
decomposition; improves structure, permeability, stability, fertility, habitat
• microorganisms vs. macroorganisms
• mycorrhizae (pl.): “fungus root” symbiotic relationship between plant & fungus – nutrient uptake from soil (e.g., conifers and fungi)
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Aeration & Moisture Content • pore space: space between soil particles
filled with air or water; relation to structure & texture (sand vs. clay)
• Pore space (aeration/moisture content) increased by OM
• At soil saturation, all pores filled with water – correlated with surface runoff intensity / erosion
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Soil pH (reaction) • soil reaction: pH of soil (acid, neutral,
basic) – depends on H+ or OH- ions• wet & mesic soils – acidic to neutral• dry soils -- basic• pH & agriculture
- lime (CaCO3) – Ca+ ions reduce acidity
- fertilizers (N, P) – with water… acidic
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Soil Fertility • soil fertility: capacity to provide all
nutrients needed for maximum growth• macronutrient vs. micronutrient
- N vs Fe• relation to pH• some nutrient sources:
• fixation, decomposition, animal waste
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Soil Formation Five Factors:1) Climate (temp. & precipitation)
physical & chemical changes in soil/rock (weathering) – clay, leaching
2) Parent material- weathering in place or transported- outwash plain, alluvial, lacustrine, dunes, tephra
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Soil Formation Five Factors:3) Organisms (macro and micro)
4) Topography – relation to water movement & soil condition/type
5) Time *4.5 - 3.5 billion yrs before present(ybp)* relation to other 4 factors
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Soil Profile • soil profile: cross-section view of soil
horizons• horizon: layers of soil that share
attributes of texture, structure, etc…
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Soil Profile Major Horizons:
• O horizon (organic layer)• A horizon (topsoil, humus, life)• E horizon (leaching zone)• B horizon (subsoil, accumulation zone)• C horizon (parent material, field stone)• R horizon (bedrock)
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Water Resources Water Shortage?1) Human Population2) Consumption - ag.,industry,resident
3) Efficiency4) Distribution Problems5) Pollution (air, soil, water)
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Water Cycle? replacement period: time to complete cycle
(9 days to 37,000 years)• Unequal distribution of precipitation
- US 102 cm - MI 81 cm- Death Valley 4 cm- Pacific NW 368 cm
• Evaporation & Transpiration
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Surface Water & Groundwater • Surface water (lakes, streams)
- may be potable, municipal use• Groundwater – water infiltrates into soil• percolation into aquifer (porous soil
stratum of sandstone or limestone) • zone of aeration: plant roots, capillary
water in pore spaces• zone of saturation: pore filled from
water table down to bedrock
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Watersheds watershed: area drained stream/river
• U.S. Army Corps of Engineers
Flood Control 1) Levees – raise river banks with
earthen/stone dikes • develop floodplains• floods prevented, almost• increase flood severity?
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Flood Control (cont.) 2) Dredging – removal of sediments
(Corps) – pollutants? 3) Channelization – straightening streams
(NRCS) – floods & drainage, Everglades
4) Dams – water impoundment – public works projects• potable water, irrigation, recreation,
energy• loss of habitat, evaporation,
sedimentation, $$
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Dams - Alqueva Dam (Portugal)
Irrigation water but destroys critical habitat for Iberian lynx
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• World’s most endangered cat
• Less than 600• Spain & Portugal
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• Distribution of Iberian lynx
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• Know populations Iberian lynx
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• Alqueva Reservoir began filling February 8th 2002 behind
the 96-m-high floodgates
• New proposals to reduce wall height by 13 m leading to a
reduction of the submersed area from 29,636 ha to 14,696
ha.
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Protecting Watersheds & Floodplains
• watershed protection as proactive & sustainable flood control mgt.
• USDA, BLM, Army Corps, TVA• floodplain zoning & Federal Flood
Disaster Protective Act of 1973• nonstructural flood control
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Types of Pollution 1) Sediment2) Inorganic Nutrient3) Thermal4) Disease-Producing Microorganisms5) Toxic Organic Chemicals6) Heavy Metals7) Organic Wastes
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Managing Pollution pollution control: (output control)
manage pollutant post hoc- pollutant dispersion
pollution prevention: (input control)avoid pollution a priori
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1) Sediment Pollution
- linked to soil erosion /poor land useSources: agriculture, logging,
construction, strip minesCosts: $1 million per day in US
clog irrigation canals, hydro-electric turbines, harbors, life
of dams shortened- carries toxins- turbid water &
sedimentation “kills” coldwater fish/bivalve habitat
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Controlling Sediment Pollution
- input control includes:conservation tillagecontour-strip farmingshelter beltsterracingcover crops/increase OM
- output control includes: $$$$$sediment filtration systems (artificial &
natural)dredging
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2) Inorganic Nutrient Pollution
- aquatic systems require certain chemical elements to exist & support life
- includes C, O, N, H, P among others- N & P often are limiting factors because
of their reduced abundance;- P > N in importance as limiting factor- > N & P = > productivity of aquatic
system
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Lake Productivity Gradient
1) oligotrophic: nutrient-poor lake- low productivity- low plant/animal biomass- e.g., Lake Superior = young lake
2) mesotrophic: moderate nutrient base- swimming, fishing
3) eutrophic: nutrient rich- dense algal blooms- reduced dissolved oxygen, diminished
fishery
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3) Thermal Pollution
- increase temperature of aquatic system- Harmful effects:
- reduced dissolved oxygen- reduced fish reproduction- spread of disease
- Benefits:- increase growth rate of some fish- heating homes
- Use of coolant towers
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4) Disease-Producing Organisms
- infectious organisms introduced to water; cholera, typhoid fever, dysentery, polio, Cryptosporidium
- better sanitation & water treatment can reduce diseasee.g., chlorination for bacteria and
oxygenation for enteric disease (intestine-dwelling; anaerobic)
- coliform bacteria count: index of microorganism-based water pollutioncoliform = usually harmless bacteria in human gut
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5) Toxic Organic Chemicals
- Carbon-based compounds; synthetic derivatives such as Volatile Organic Compounds (VOCs) = toluene
- Synthetic Organics = resist decomposition & therefore persistent
- Disrupt normal enzyme function in organisms; interfere with normal chemical reactions in cells
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Water Pollutants
1) Review Table 11.4, p 2682) Your choice, pick 1 of the pollutants
and,a) be able to name it; b) provide an explanation of its use;c) indicate its source & its prevalence in
the Great Lakes; andd) explain its effects on human health
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6) Heavy Metals
e.g., lead, mercury, arsenic, cadmium (fundamental chemical elements)
- Mines & contaminated groundwater - Mines & tailings (Clarks Fork of
Yellowstone)- interfere with normal enzyme function- lead contamination (soil & water) from
paint & plumbing pipe (solder)- mercury contamination (methyl Hg in
air & water) from industry; in muscle tissue
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7) Organic Waste: reduce available oxygen
- decomposition of wastes by bacteria uses oxygen; release of nutrients -- cyclic
- Oxygen-demanding organic wastesbiological oxygen demand (BOD): index of
amount of organic matter in water sample; indexed via rate of oxygen use by bacteria
- aquatic indicator species (bio-sentinels or bio-indicators) – also application to other pollutants (may flies, trout, bullheads, carp, sludge worms, mink)
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7) Organic Waste: reduce available oxygen
- decomposition of wastes by bacteria uses oxygen; release of nutrients -- cyclic
- Oxygen-demanding organic wastesbiological oxygen demand (BOD): index of
amount of organic matter in water sample; indexed via rate of oxygen use by bacteria
- aquatic indicator species (bio-sentinels or bio-indicators) – also application to other pollutants (may flies, trout, bullheads, carp, sludge worms, mink)
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Eutrophication
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Gulf of Mexico - Watershed
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Gulf of Mexico - Watershed
• hypoxic zone • dissolved oxygen
concentration less than 2 mg/L, or 2 ppm
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Gulf of Mexico - Watershed• 22,000 km2 in mid-
summer • Size of New Jersey or
the states of Rhode Island and Connecticut combined
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Gulf of Mexico - Watershed