OSU ENR 3000 Soil Science Packet 1
More soil in atmosphere or soil?
More carbon in the soil than in the atmosphere
Soil orders (12)
Most inclusive (broad) taxonomic class, covers large areas across the landscape and exhibit the greatest contrasts between themselves
What is soil
1-4 meters deep 1. A naturally occurring thin layer over the earths crust 2. Exists as an unconsolidated, porous medium (only requires a shovel and human power to dig it) 3. Composed of mineral particles, organic matter, and living biomass 4. Formed by weathering and decomposition process 5. Biologically active 6. Varies with depth and spatially across the landscape
Lots of water but not always when and when it's needed
22% rain falls on land mass (110,000 km^3)
Blue water
39% of the 22% of the total continental precipitation that collects in rivers lakes and groundwater
Green water
61% of the 22% of rain that falls onto continental land mass that is absorbed into soil and returns to atmosphere via evaporating
renewable resource
A natural resource that can be replaced at the same rate at which the resource is consumed Ex.crops, trees, wind, water
Soil and global carbon cycle issues
Ag, forestry, other land use emit 24% of all GHG
Us Historical Biomes..
Align with soil orders
Results of excess soil wetness
Anaerobic soil conditions Direct plant injury Reduced organic matter decomposition Interruption of nutrient cycling Release of greenhouse gas methane and nitrous oxide
Carbon cycle
CO2 in the atmosphere is fixed into carbon compounds by plants during photosynthesis. When the plant dies, these compounds are returned to the soil and most carbon is returned to the atmosphere
Soil food web and carbon cycle
Carbon flows from primary producers through different levels of consumers At each level, plant nutrients and CO2 are released for plant uptake
Soil food web
Carbon flows from primary producers throughout the primary, secondary, and higher level consumers
Soil erosion
Converts soil into sediment that is deposited into oceans or continents, which eventually becomes buried and forms sedimentary rock.
Organic matter
Dead matter decomposing
Sources of plant nutrients in soil
Decomposition of plants, animals and soil microorganisms Weathering of soil minerals and rocks Addition of fertilizer (organic or not) Manure, compost, biosolids (sewage sludge), kelp, and other organic amendments Legume fixation of nitrogen Ground rock products of lime, rock phosphate, and greensand Inorganic industrial byproducts such as wood ash or coal ash Atmospheric inputs such as nitrogen and sulfur from acid rain or nitrogen fixation by lightning Deposition of nutrient rich sediment from erosion and flooding
Waste pollution
Disposal or waste can result in serious pollution problems Ie "garbisol" or chemical/garbage soil
Mollisol
Ex Great Plains grasslands
Inceptisol
Ex Mixed Forest of Appalachian Mtns.
Spodosol
Ex NE Boreal Forest
Ultisol
Ex SE mixed/evergreen forest
Aridsol
Ex cool and hot deserts
Alfisol
Ex eastern deciduous forest
Gelisol
Ex trees Arctic tundra
Excess soil wetness and soil oxygen content
Excess soil wetness inhibits oxygen entry into soil, resulting in oxygen depletion and anaerobic soil conditions
The amount of precipitation that falls on the continental land mass is not enough to satisfy everyone on the planet, true or false?
False, this quantity would satisfy the need of everyone. But only a small fraction is captured for human use
Sensible heat
Heat from rising or falling air
Latent heat
Heat from water evaporation or condensation
Soil and compaction
Heavy machinery and other compaction leads to the loss of the ability of roots to penetrate the soil
Soil erosion from tillage
Intensive tillage results in the loss of soil tilth
Agricultural nutrient cycle
Large quantities of nutrients are removed with crop yield. Maintenance of plant productivity requires animal feed or fertilizers to input nutrients
Soil horizon
Layer of soil, roughly, that differs in properties from adjacent layers (above or below)
Biomass
Living organisms
Wind erosion
Made worse by plowing/tillage + drought + location I.e. Dust bowl 1937
Definition of soil
Naturally occurring thin layer over the earths crust that exists as an unconsolidated, porous medium composed of minerals organic matter and biomass formed by weathering and decomposition processes that is biologically active and varies spatially across the landscape and width depth
16 Essential Plant Nutrients
Nitrogen - macronutrients Phosphorus - macronutrients Potassium - macronutrients Calcium Magnesium Zinc Copper Boron Molybdenum Chlorine Also sometimes Sodium Silicon Nickel Cobalt is essential for nitrogen fixation by legumes Selenium and iodine are beneficial for humans and therefore should be in the soil but not required by the plant
Is soil renewable or nonrenewable
Nonrenewable because of the time scale at which soil develops They are fragile and susceptible to injury/devastation
Nutrient cycles
Nutrients cycle between the plant and the soil in a closed loop
Oxygen cycle
Oxygen gas in the atmosphere enters the soil where it oxidizes carbon compounds, forming CO2. CO2 returns to the atmosphere. Plants fixate CO2 and releases O2
Earths critical zone
Portion of the planet extending from the top of the tallest vegetation to the bottom of groundwater
The water cycle
Precipitation striking the land surface will either runoff across the soil surface (into waterways) or infiltrate into the soil
Soil erosion by water
Results in the loss of the most fertile top soil layer I.e. Iowa and Tennessee
Losses of plant nutrients from the soil
Runoff loss of dissolved nutrients in water moving across the soil surface Erosion causes the loss of nutrients in attached soil particles that are removed by wind or water Leaching loss of dissolves nutrients in water that moved through the soil out of the root area into groundwater or out of area because of drain lines Loss of gas to atmosphere through nitrogen loss due to volatilization and denitrification as part of nitrogen cycle disruption Crop removal - plant uptake and removal of nutrients with harvesting products
Soil differs from other non renewable resources because...
Soil can be used REUSED indefinitely without deterioration if managed for sustainability
View of soil as a natural resource
Soil is something humans can use. Study of soil in this case allows us to better manage this resource.
View of soil as component of terrestrial ecosystem
Soil should be preserved, protected, untouched, and studied simply because it is.
Vertisols
Soils developed from
Energy received at the ground surface is returned...
To the atmosphere in diurnal and seasonal cycles
Soil salinity from water misuse
Tap water can cause dryness / salt on the surface of the soil Salt crust will form on the surface of the soil. Salt precipitation within the surface layer of wool
Net radiation
The heat that effects the ground surface through the forms of latent heat, sensible heat, and ground heat.
Soil orders
The most inclusive taxonomic class, cover broad areas across the landscape and exhibit the greatest contrasts between themselves
Thermal energy exchange
The transfer of heat throughout the soil by radiation, conduction, and convection
Soil and the geologic cycle
Uplift brings rocks to the surface where they weather into soil. Soil erosion converts soil into sediment that is deposited into oceans or continents, which eventually becomes buried and forms sedimentary rock.
Geologic cycle
Uplift brings rocks to the surface where they weather into soils. Erosion convert rocks into sediment that is deposited in oceans or continents which form sedimentary rocks
Ground heat
Warms the soil during daylight and cools the soil after sunset
Blue water
Water collected in river lakes or groundwater 39% of the 22% of total rain that falls onto land mass
Soil participates in which earth cycles?
Water cycle Carbon cycle Oxygen cycle Many plant nutrient cycles Geologic cycle Surface thermal energy exchange
Green water
Water that is absorbed by soil and returned to atmosphere via evaporation - 61% of the 22 % total
nonrenewable resource
a resource that cannot be replaced Ex oil coal ore
Histosols
organic soils
Andisols
soils formed in volcanic ash
Entisols
soils with little or no morphological development