Soil Terminology And Definitions

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jumpincactus

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As of late I have been throwing a lot of in depth posts in soil biology and it never dawned on me that some folks may be having a hard time understanding the terminology and how it relates to the context of the study. I know it happens to me all the time . So I am posting a list of commonly used words along with their definitions. This way we will have a one stop shop for all things soil. I would like to add that this list is pretty good coverage but by no means do I claim it is everything . Enjoy!!!!



Actinomycetes: A large group of rod-shaped or filamentous bacterium that includes some that cause diseases and some that are the sources of antibiotics. These soil microorganisms generally resemble fungi and have branched mycelium.

Active Carbon (AC): The portion of total soil organic carbon (matter) that is relatively easily metabolized or utilized by microorganisms. The half-life of active carbon ranges from a few days to a few years. Active carbon would include simple polysaccharides and glucose equivalent reduced sugars, amino acids and proteins, soluble and extractable carbon, and microbial
biomass carbon, etc.

Aerobic: Aerobic means in the presence of oxygen or growing in the presence of oxygen. Aerobic soils have plenty of oxygenated air to carry out oxidative reactions, such as soil organic matter decomposition and nutrient cycling.

Aggregates: Primary soil particles (sand, silt, and clay) held together in a single mass or cluster, such as a crumb, block, or prism or clod using organic matter as cementing material. Soil aggregates are usually greater than ten millimeters in diameter and formed by natural forces (such as alternate wetting-drying) and organic substances derived from root exudates, roots, soil animals and microbial by-products which cement primary particles into smaller aggregates or smaller aggregates into larger particles, such as macroaggregates.

Air Quality: Defined as a measure of the amount or concentration of pollutants emitted into the atmosphere and the dispersion potential of an area to dilute those pollutants. The common air pollutants are groundlevel ozone, carbon monoxide, sulfur dioxide, nitrogen oxide (e.g. N2O), radon, and emitted heavy metal dusts. These pollutants can harm field crops, public health, birds and other animals, and the environment, and cause property damage. Carbon dioxide and N2O are greenhouse gases that are normally present in the atmosphere, but at higher levels may contribute to global warming.

Alkalinity: is the name given to the quantitative capacity of an aqueous solution to neutralize an acid. Measuring alkalinityis important in determining a stream’s ability to neutralize acidic pollution from rainfall or wastewater. Alkalinity and acid neutralizing capacity of a solution is equal to stochiometric sum of the bases in solution. In nature, the carbonate alkalinity makes most of the total alkalinity due to presence of carbon dioxide in the atmosphere and common occurrence and dissolution of carbonate rocks

Anaerobic: Absence of oxygen or growing in the absence of oxygen. Soils that are heavy textured (clay), compacted, wet or flooded tend to be anaerobic because they have less oxygenated air to carry out oxidative reactions. Anaerobesis of soil is also responsible for widespread soil-borne diseases.

Bacteria: A large group of single-celled microorganisms lacking chlorophyll and are prokaryotic (lacking a nucleus). Typically a few micrometers in length, bacteria have a wide range of shapes, ranging from spheres to rods and spirals. Bacteria are important for functioning of biochemical properties and/or processes. Bacteria are active in the soil for decomposing organic matter, recycling nutrients, and detoxification of contaminants. Bacteria dominate in disturbed (e.g. conventionally tilled) soils because they are generalist feeders that prefer aerobic (oxygenated) conditions, and survive in small soil pore spaces (micropores).

Basal Respiration (BR): Respiration, or oxygen used, by soil microbes to decompose organic matter or any crop residues as a food and energy source and released as carbon dioxide into the soil atmosphere. Soil respiration is a direct and sensitive assessment of soil antecedent biological activity. A high BR generally indicates higher soil microbial activity, however, not
biological efficiency.

Base saturation: The degree to which material having cation-exchange properties is saturated with exchangeable bases (sum of Ca, Mg, Na, K), expressed as a percentage of the total cation-exchange capacity.

Bulk Density (ρb): The mass (weight) of unit soil divided by the total volume occupied. An ideal soil has a bulk density of about 1.25 g cm-3. Bulk density is the total soil porosity. Compacted soils have a bulk density of 1.5 g cm-3 or higher.

Calcareous soil: A soil containing enough calcium carbonate (commonly combined with magnesium carbonate) to effervesce visibly when treated with cold, dilute hydrochloric acid.

Capillary water: Water held as a film around soil particles and in tiny spaces between particles. Surface tension is the adhesive force that holds capillary water in the soil.

Carbon-nitrogen ratio (C/N): Ratio of the mass (weight) of organic carbon to the mass of total nitrogen in the soil, plants, or any other organic compounds. Soil C: N is generally 10:1 to carry out ecological functions.

Carbon Sequestration Index (Cindex): A new term explains the simple and integrated index that identifies the rate of carbon accumulation in the soil. This index can be used as an early and sensitive indicator of carbon or soil organic matter accumulation and could help explain the complex nature of global carbon cycling.

Catalyst: Chemical substances generally produced by microorganisms or plants that promote biochemical reactions by lowering the energy needed during a reaction. It is not changed or consumed during the reaction. Catalysts are important in the soil in speeding up biochemical reactions and are usually only present in minute amounts.

Cation: An ion carrying a positive charge of electricity. The common soil cations are calcium, potassium, magnesium, sodium, and hydrogen.

CEC: 1. Cation exchange capacity(CEC) is the totalcapacityof a soil to hold exchangeablecations. CEC is an inherent soil characteristic and is difficult to alter significantly. It influences the soil’s ability to hold onto essential nutrients and provides a buffer against soil acidification.

Cellulose: The greatest amount of carbon in a plant in the form of carbohydrates is cellulose, which gives plants structural rigidity, and allows plants to grow erect. As a plant matures, the cellulose content of the plant generally increases.

Concretions: Grains, pellets, or nodules of various sizes, shapes, and colors consisting of concentrated compounds or cemented soil grains. The composition of most concretions is unlike that of the surrounding soil. Calcium carbonate and iron oxide are common compounds in concretions.

Congeliturbate
: Soil material disturbed by frost action.

Conventional Tillage (CT): The combined secondary and primary tillage operations performed in preparing a seedbed in a given geographical location. Examples of primary tillage include moldboard plowing, chisel plowing, and sub-soiling, while finishing tools like a disk, field cultivator, or cultipacker would be considered secondary tillage. Conventional tillage means that the soil is physically turned over (or loosened), and oxygenate. This process accelerates breakdown of crop residues and native soil organic matter and temporarily increases microbial respiration. Soil organic matter decomposition releases nutrients, especially N, but it also destroys soil structure and macropores leading to soil compaction and decreased soil organic matter levels.

Coprogenous earth:
(sedimentary peat). Fecal material deposited in water by aquatic organisms.

Decomposition:Biochemical breakdown of plant or animal residues into simpler compounds, often accomplished by soil food webs especially microorganisms.

Deductive Soil Quality: A measure of soil quality, based on crop production from the soil, such as grain yield, hay, fruits, and other outputs.

Denitrification: Reduction of nitrogen (e.g. nitrate or nitrite) to molecular nitrogen or nitric oxide by microbial activity or biochemical activity. Typically, it occurs under anaerobic (lack of oxygen) conditions when soil is wet and compacted. The result is a loss of nitrogen to the atmosphere.

Detritussphere: Area on the top soil where by animal waste and other organic matter lands and begins it’s decomposition process.

Drilosphere: 1. The drilosphere is the part of the soil influenced by earthworm secretions and castings. Specifically, it is the fraction of soil which has gone through the digestive tract of earthworms; or the lining of an earthworm burrow.

Ecosystem Services:The resources and processes supplied by natural ecosystems that benefit humans. Collectively, these benefits are known as ecosystem services and include products like clean drinking water and processes such as the decomposition of wastes. Ecosystem services have been grouped into four broad categories: provisioning, such as the production of food
and availability of water; regulating, such as the control of climate and diseases; supporting, such as nutrient cycles and crop pollination; and cultural or social, such as norms, ideas, and spiritual and recreational benefits.

Edaphology: Is the study of the way soils influence plants, fungi and other living things.

Elutriate (soil) To wash away the lighter or finer particles of (soil, for example).

Eluviation: The movement of material in true solution or colloidal suspension from one place to another within the soil. Soil horizons that have lost material through eluviation are eluvial; those that have received material are illuvial.

Eutrophication: Enrichment of natural fresh waters with excess nutrients (especially phosphorus) that lead to algal blooms and subsequent oxygen deficiencies when the algae die and start to decompose. However, both nitrogen and phosphorus are responsible for sea water eutrophication, such as in the Gulf of Mexico.

Fibric soil material:(peat). The least decomposed of all organic soil material. Peat contains a large amount of well preserved fiber that is readily identifiable according to botanical origin. Peat has the lowest bulk density and the highest water content at saturation of all organic soil material.

Field moisture capacity: The moisture content of a soil, expressed as a percentage of the oven dry weight, after the gravitational, or free, water has drained away; the field moisture content 2 or 3 days after a soaking rain; also called normal field capacity, normal moisture capacity,or capillary capacity.

Fulvic Acid (FA): Light yellow colored material that remains in solution after separating humic acid from humus by acidification. Fulvic acid is less dense, more alipathic, and has a low molecular weight compared to humin and humic acid but has a high nitrogen content that is more available to plants. It is soluble in any pH levels.

Fungal Hyphae: Long and often branched filaments associated with fungus, somewhat like a spider web. Fungal hyphae are important to extract nutrients, especially micronutrients, to support growth in poor quality soil. (See Mycorrhizae)

Fungus: Microorganisms that contain a rigid cell wall that are either single-celled or multicellular organisms without chlorophyll that reproduces by spores and lives by absorbing nutrients from organic matter. Fungi include mildews, molds, mushrooms, rusts, smuts, and yeasts. Fungi survive better under no-till or undisturbed ecosystem and slightly acid conditions. They do not perform well in plowed fields due to their extensive hyphae (spider web like) networks affected by tillage operations.

Genesis, (soil: The mode of origin of the soil. Refers especially to the processes or soil-forming factors responsible for the formation of the solum, or true soil, from the unconsolidated parent material.

Glomalin: A glycoprotein (sugar-protein complex) produced by mycorrhizal fungus (e.g. Glomus spp.). Glomalin binds soil particles together to form aggregates to promote soil aggregate stability and are important in the storage of soil carbon.

Hemic soil material: (mucky peat): Organic soil material intermediate in degree of decomposition between the less decomposed fibric and the more decomposed sapric material.

Hemicelluloses: Consists of polymers that branched, the second most common carbohydrate (up to 30%) in plant residues. Hemicelluloses generally contain of several types and forms due to condensation of sugars. Pectin is an example of hemicelluloses.

Humic Acid (HA): Dark colored organic material extracted from soil by various reagents (such as dilute alkali) and is precipitated by acid. Humic acid has a relatively high molecular weight and is dense, aromatic, and dark brown to black in color. It is relatively stable compared to fulvic acid and essential for soil cation exchange capacity and formation of soil structures.

Humic Substances (HS): Series of relatively high molecular weight organic substances which are brown to black in color. Make up 60 to 80% of soil organic matter and are generally partial decomposable to resistant to microbial decomposition. They have a hydrocarbon structure composed of C-C, C-N, C=C, and C-O-C bonds.

Humification: Process by which the carbon of organic substances is transformed and resynthesized to humic substances through biochemical and physio-chemical processes.

Humification Degree (HD): The ratio of humic acid (HA) and fulvic acid (FA) to total humified organic matter, HD = (Humic acid + Fulvic acid)/ (Total extracted C)*100. The greater the HD, the higher the soil organic matter polymerization and condensation. In other words, high DH means the organic matter is more resistant to decomposition.

Humification Index (HI): A ratio of non-humified carbon or glucose carbon, divided by total humified organic carbon, HI = (Non-humic C)/ (Humic acid + Fulvic acid)*100. Higher HI indicates less humification of soil organic matter.

Humification Ratio (HR): The ratio of humic acid plus fulvic acid divided by total carbon, HR = (Humic acid + Fulvic acid)/ (Total organic C)*100. Low HR indicates less humification of soil organic matter.

Humin (HN): A fraction of soil organic matter that cannot be extracted from soil with dilute alkali or acid. Humin is a very stable fraction of soil organic matter due to its strong association or bonding with clay minerals and metal ions.

Humus: Total of the organic compounds in the soil excluding undecayed plant and animal tissues. Humus equals fulvic acid plus humin, plus humic acid. The term is often used to describe soil organic matter. Humus is generally dark in color.

Hypoxia: Insufficient oxygen in an environment to support aerobic life. Usually occurs in estuarine and sea water (including Gulf of Mexico) from an excess of nitrogen and phosphorus which promotes the growth of algae. When the algae die, the decomposition uses so much oxygen other life is harmed.

Illuviation: The movement of soil material from one horizon to another in the soil profile. Generally, material is removed from an upper horizon and deposited in a lower horizon.

Impervious soil
. A soil through which water, air, or roots penetrate slowly or not at all. No soil is absolutely impervious to air and water all the time.

Inductive Soil Quality: A measure of soil quality based on soil characteristics and/or processes that regulate the functional behavior of the soil, such as hydrologic properties, microbial activity, emission of gases, organic matter, and nutrient availability.

Infiltration: The entry of water into the soil. Infiltration is affected by several factors including antecedent soil moisture content, soil compaction, soil texture, earthworms, and plant roots.

Labile: A substance that is readily transformed or used by microorganisms. Labile organic matter is often associated with active organic carbon to regulate soil quality.

Legume: Legumes are plants associated with nitrogen fixing organisms and include peas, beans, peanuts, clovers, alfalfa, lespedezas, vetches, and kudzu.

Lignin: Lignin is the third most common component of plant residue. It is prominent in woody or mature tissues and increases as a plant ages. Lignin is a very complex energy-rich molecule and varies greatly in structure, making it hard to decompose. Lignin helps cement cell walls together to provide structural support for plants.

Liquid limit: The moisture content at which the soil passes from a plastic state to a liquid state.

Macroaggregates: Soil aggregates greater than 250 micrometers in size consisting of microaggregates cemented together by organic matter, microbial polysaccharides, fungal hyphae, earthworm excretions, and plant roots. Macroaggregates are typically found in undisturbed soils such as continuous no-till with cover crops.

Macropores: Larger soil pores (greater than 60 micrometers) from which water drains readily by gravity. Macropores are important for soil aeration and good drainage.

Mesofauna: Animal life of medium size (between 2 and 0.2 millimeters in diameter). Examples include centipedes, nematodes, and mites.

Metabolic quotient (qR): A ratio of total microbial biomass carbon over total organic carbon. A high qR is an indication of an enlarging biological carbon pool in total organic carbon. It typically ranges from 0.5 to 5% in soil.

Metamorphic rock: Rock of any origin altered in mineralogical composition, chemical composition, or structure by heat, pressure, and movement. Nearly all such rocks are crystalline.

Microaggregates: Soil aggregates less than 250 micrometers in size consisting of primary particles, plant roots, and humin cemented together. Microaggregates are more typically found in disturbed or cultivated soils. Multiple microaggregates may form larger macroaggregates through microbial activity, plant root exudates and actions, fungal hyphae, and earthworm casts.

Microbial biomass: Includes the smallest living organisms such as bacteria, fungus, protozoa, algae, actinomycetes, nematodes, and nonliving organisms: prion and viruses. Microbial biomass denotes a small portion (less than 5%) of soil organic carbon. The main function of the microbial biomass is to act as bio-catalyst for organic matter decomposition and mineralization, soil fertility, and humus formation and soil aggregation.

Microfauna: Animal life too small to be clearly seen without a microscope; includes protozoa and nematodes.

Microflora: Plants too small to be clearly seen without using a microscope; includes actinomycetes, algae, bacteria, and fungus.

Micropores: Smaller soil pores (less than 60 micrometers) generally found within soil aggregates. Water does not drain freely in micropores.

Mineralization: Conversion of an organic compound to a transitional or inorganic form by microorganisms. As a result, nutrients are generally more available and absorbed by plant roots.

Mineral soil:
Soil that is mainly mineral material and low in organic material. Its bulk density is more than that of organic soil.

Minimum tillage: Only the tillage essential to crop production and prevention of soil damage.

Morphology, soil: The physical makeup of the soil, including the texture, structure, porosity, consistence, color, and other physical, mineral, and biological properties of the various horizons, and the thickness and arrangement of those horizons in the soil profile.

Mycelium: A string-like mass of individual fungal or actinomycetes hyphae. Mycelium is the vegetative part of a fungus, consisting of a mass of branching, threadlike hyphae.

Mycorrhizae: Literally means “fungus root” and is a symbiotic (mutually beneficial) relationship between fungus and plant roots. The fungus supplies water and nutrients to the plant roots while the plant supplies carbohydrates. Plant roots typically can explore no more than 1% of the soil volume but with mycorrhizal fungus (which attach themselves to the plant root cell walls) association, approximately 20% of the soil volume may be explored. Over 80% of plants have a mycorrhizal association but these fungus populations are reduced by conventional tillage and high fertilizer applications of nitrogen and phosphorus.

Nematode: An unsegmented microscopic roundworm located near plant roots. Nematodes feed on plants, animals, bacteria, and fungi. Typically found in higher concentrations in no-till and undisturbed soils. They are the most populous animals on the planet. In fact, if we counted all the animals on earth, four out of every five would be a nematode.

Neutral soil: A soil having a pH value between 6.6 and 7.3.

Nutrient, plant: Any element taken in by a plant essential to its growth. Plant nutrients are mainly nitrogen, phosphorus, potassium, calcium, magnesium, sulfur, iron, manganese, copper, boron, and zinc obtained from the soil and carbon, hydrogen, and oxygen obtained from the air and water.

Non-humified carbon: Glucose equivalent or total reducing sugars or amino sugars. This is the most labile fraction of carbon in humus to decompose.

No-Till: A system where the crop is planted directly into a seedbed without tilling or disturbing the entire soil surface. The only soil disturbance is for placement of seed and fertilizer. This system is also called zero-till or direct seeding. No-till farming, by definition, means that the soil has not been disturbed since the prior harvest of a crop. Continuous no-till means the soil
has not been disturbed for several years.

Parent material: The unconsolidated organic and mineral material in which soil forms.

Passive Carbon: Passive pools of carbon that have a slow turnover rate and are more resistant to decomposition and nutrient release. Example: more humified soil organic matter. This fraction provides substrate (food and energy) to microbes and acts as binding agents for soil aggregate formation.

Peat: Unconsolidated soil material consisting largely of undecomposed, or slightly decomposed, organic matter (i.e. "fibric" in Soil Taxonomy) accumulated under conditions of excessive moisture. Compare - muck, mucky peat, herbaceous peat.

Pedology: (from Greek: πέδον,pedon, "soil"; and λόγος,logos, "study") is the study of soils in their natural environment.[1]It is one of two main branches ofsoil science, the other beingedaphology. Pedology deals withpedogenesis,soil morphology, andsoil classification, while edaphology studies the way soils influenceplants,fungi, and other living things.

Pedon: The smallest volume that can be called ""a soil.'' A pedon is three dimensional and large enough to permit study of all horizons. Its area ranges from about 10 to 100 square feet (1 square meter to 10 square meters), depending on the variability of the soil.

Plasticity index: The numerical difference between the liquid limit and the plastic limit; the range of moisture content within which the soil remains plastic.

Plastic limit: The moisture content at which a soil changes from semisolid to plastic.

Plinthite: The sesquioxide-rich, humus-poor, highly weathered mixture of clay with quartz and other diluents. It commonly appears as red mottles, usually in platy, polygonal, or reticulate patterns. Plinthite changes irreversibly to an ironstone hardpan or to irregular aggregates on repeated wetting and drying, especially if it is exposed to heat from the sun. In a moist soil, plinthite can be cut with a spade. It is a form of laterite.

Porosity: Porosity is a measure of the void spaces in a soil, represented as the volume of voids divided by the total volume of soil. In an ideal soil, the total pore space should be about 50% (composed of air and water) while the solid phases (sand, silt, clay, and organic matter) make up the other 50% of soil volume.

Potentially Mineralizable Carbon: Soil organic carbon that is mineralized during microbial decomposition of organic matter or under controlled incubation.

Protozoa: Any of a large group of one-celled organisms that move by flagella (flagellates), cilia (ciliates), or have flow (amoeba). Most species feed on bacteria, fungi, or dead microbial particles. Protozoa are more common in conventional tilled or disturbed soils where they outnumber the nematodes.

Quorum Sensing: Quorum sensing is the regulation of gene expression in response to fluctuations in cell-population density. Quorum sensing bacteria produce and release chemical signal molecules called auto-inducers that increase in concentration as a function of cell density. The detection of a minimal threshold stimulatory concentration of an auto-inducer leads to an alteration in gene expression. Gram-positive and Gram-negative bacteria use quorum sensing communication circuits to regulate a diverse array of physiological activities. These processes include symbiosis, virulence, competence, conjugation, antibiotic production, motility, sporulation, and biofilm formation.

Respiration: The biochemical processes by which all living organisms derive energy from food or stored reserves by taking oxygen from the environment and giving off carbon dioxide.

Rhizobacteria: Are root-colonizing bacteria that form symbiotic relationships with many plants. The name comes from the Greek rhiza, meaning root. Though parasitic varieties ofrhizobacteriaexist, the term usually refers to bacteria that form a relationship beneficial for both parties (mutualism).

Rhizobia: A nitrogen-fixing bacterium (genus Rhizobium) that is common in the soil, especially in the root nodules of leguminous plants.

Rhizobium: A nitrogen-fixing bacterium that is common in the soil, especially in the root nodules of leguminous plants.

Rhizoplane: The rhizoplane is the root epidermis and outer cortex where soil particles, bacteria and fungal hyphae adhere

Rhizosphere: A soil zone near the plant roots where microbes flourish in greater numbers and have more activity than in the bulk soil. The rhizosphere typically supports 1000 to 2000 times more microbes than the bulk soil without live roots. Roots give off many root exudates which supply food for the microbes and increases microbial activity. Specific maintenance of respiration (qCO2): It is expressed as basal respiration per unit of total microbial biomass. It is an indicator of soil ecosystem disturbance. A low qCO2 indicates low disturbance and stable no-till situation or a more mature ecosystems; a high qCO2 indicates highly disturbed ecosystems as found under conventional tillage.

Saline soil: A soil containing soluble salts in an amount that impairs growth of plants. A saline soil does not contain excess exchangeable sodium.

Sapric soil material (muck): The most highly decomposed of all organic soil material. Muck has the least amount of plant fiber, the highest bulk density, and the lowest water content at saturation of all organic soil material.

Saprolite (soil science):
Unconsolidated residual material underlying the soil and grading to hard bedrock below.

Soil: A natural, three-dimensional body at the earth's surface. It is capable of supporting plants and has properties resulting from the integrated effect of climate and living matter acting on earthy parent material, as conditioned by relief over periods of time.

Soil Biological Quality:
Biological properties that are associated with soil functionality including microbial biomass, nematodes, earthworms, biological activity, and enzymes.

Soil Carbon Sequestration: How carbon is stored in the soil; the process by which carbon dioxide from the atmosphere is converted to organic carbon by photosynthesis and the decomposition of that plant carbon into organic matter stored in the soil.

Soil Chemical Quality (SCQ): Chemical properties that are associated with soil quality including carbon, nitrogen, cation exchange capacity and base saturation, and salt content.

Soil Functions: Ecosystem functions are directly and indirectly associated with soil. Soils perform many functions, and healthy soil gives us clean air and water, bountiful crops and forests, productive rangeland, diverse wildlife, and beautiful landscapes. Soil does all this by performing five essential functions:
1. Nutrient Cycling—Soil stores, moderates the release of, and cycles nutrients and other elements. During these biogeochemical processes, analogous to the water cycle, nutrients can be transformed into plant available forms, held in the soil, or even lost to air or water.
2. Water Relations—Soil can regulate the drainage, flow, and storage of water and solutes, which includes nitrogen, phosphorus, pesticides, and other nutrients and compounds dissolved in the water. With proper functioning, soil partitions water for groundwater recharge and for use by plants and soil animals.
3.Biodiversity and Habitat—Soil supports the growth of a variety of plants, animals, and soil microorganisms, usually by providing a diverse physical, chemical, and biological habitat.
4.Filtering and Buffering—Soil acts as a filter to protect the quality of water, air, and other resources. Toxic compounds or excess nutrients can be neutralized, transformed, or otherwise made unavailable to plants and animals.
5.Physical Stability and Support—Soil has the ability to maintain its porous structure and regulate passage of air, gases, and water, withstand erosive forces, support heavy loads, and provide a medium for plant roots.​

Soil Health: Soil health is an assessment of ability of a soil to meet its range of ecosystem functions as appropriate to its environment. Also refers to the condition of the soil, including its ecosystems (minerals, nutrients, and microbial activity), pH, and structure. The Soil Science Society defines soil health as the capacity of a specific kind of soil to function, within natural or managed ecosystem boundaries, to sustain plant and animal productivity, maintain or enhance water and air quality, and support human health and habitation.

Soil Organic Carbon: Is related directly to soil organic matter. Soil organic matter consists of 50 to 58 percent soil organic carbon. A simple unit of 1.724 is used to convert total carbon into soil organic matter.

Soil Organic Matter: Classified into two major groups composing a humic and non-humic substances. Soil organic matter is thermodynamically unstable and is part of the natural balance between production, decomposition, transformation, and resynthesis of various organic substances. The humified fraction is composed of humic, fulvic, and humin and is the most stable. The non-humic portion is the relatively unstable and most labile fraction and is most easily decomposed.

Soil Physical Quality: All the physical properties and/or processes associated with soil including bulk density, porosity, infiltration, and micro and macroaggregates.

Soil Quality: The capacity of a soil to function within natural or managed ecosystem boundaries, to sustain plant and animal productivity, maintain or enhance water and air quality, and support human health and habitation. Soil quality is analogous to soil health. Soil quality is the result of combined activities of biological, chemical, and physical properties as a reaction of management operations. Crop rotations, no-till, and cover crops improve soil quality.

Soil Quality Index: Integrated measure of soil quality by transforming and combining selected core biological, chemical, and physical properties into a single index to evaluate a soil’s functional capability.

Soil Quality Indicators: A measure of a soil’s functional state. Scientists use soil quality indicators to evaluate how well soil functions since soil function often cannot be directly measured. Measuring soil quality is an exercise in identifying soil properties that are responsive to management practices, affect or correlate with environmental outcomes, and are capable of being precisely measured within certain technical and economic constraints. Soil quality indicators may be qualitative (e.g. drainage is fast) or quantitative (infiltration = 2.5 in/hr). Ideal soil quality indicators should (1) correlate well with ecosystem processes; (2) integrate soil physical, chemical, and biological properties and processes; (3) be accessible to many users; and (4) be sensitive to management and natural processes.

Soil Structure: Combination or arrangement of soil primary particles into secondary units or peds (composed of macroaggregates and microaggregates). The secondary units are classified on the basis of size (microaggregates are the smallest and macroaggregates are the largest) and shape. Soils with good structural stability typically have more macroaggregates and macropores while soils with poor structural stability have more microaggregates and micropores. Compacted soils have poor structure and more microaggregates and micropores.

Soil Texture: Relative portion of sand, silt, and clay in a given amount of soil. Texture is important to evaluate soil quality associated with fertility and crop productivity, compaction, hydrological properties, construction, and biological activity.

Solum: The upper part of a soil profile, above the C horizon, in which the processes of soil formation are active. The solum in soil consists of the A, E, and B horizons. Generally, the characteristics of the material in these horizons are unlike those of the underlying material. The living roots and plant and animal activities are largely confined to the solum.

Substratum: The part of the soil below the solum.

Tilth, soil: The physical condition of the soil as related to tillage, seedbed preparation, seedling mergence, and root penetration.

Total Carbon: The total of all forms of carbon in the soil. If the pH of the soil is 6.5 or higher, all the total carbon is considered to be organic carbon. Total carbon (TC) minus active carbon (AC) equals passive carbon (PC). Total carbon is composed of microbial carbon, particulate organic carbon, fulvic acid, humic acid, humin, non-humified carbon (glucose), and calcium and magnesium carbonates.

Total Nitrogen: Total of all forms of nitrogen in the soil. Total nitrogen also includes the ammonia that is nonmobile and the nitrate form which is more mobile.

Total Phosphorus (TP): Total of all forms of phosphorus in the soil including organic (inositol, phospholipids, etc.) and inorganic (phosphates) phosphorus.

Variant, soil: A soil having properties sufficiently different from those of other known soils to justify a new series name, but occurring in such a limited geographic area that creation of a new series is not justified.

Virus: A large group of submicroscopic infective agents that typically contain a protein coat surrounding a nucleic acid core. Typically considered nonliving and are capable of growth only in a living cell.

Water Quality: Defined as the biological, chemical, and physical conditions of water; a measure of the ability of water to support beneficial uses. The composition of water as affected by natural processes and human activities depending on the water’s chemical, biological, physical, and radiological condition.

Water Stable Aggregates: A soil aggregate that is stable to the action of water such as falling raindrops or agitation, as in wet-sieving analysis. Water stable aggregates improve soil quality.

Wilting point (or permanent wilting point)
: The moisture content of soil, on an oven dry basis, at which a plant (specifically a sunflower) wilts so much that it does not recover when placed in a humid, dark chamber.

http://ohioline.osu.edu/sag-fact/pdf/0019.pdf
 
VERMONTSKUNKS

VERMONTSKUNKS

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Hey jump, let me ask you a quick question brother..........if I wanted a good ph tester for soil runoff testing what would you rec to me?
 
jumpincactus

jumpincactus

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I use a Milwaukee PH600 pen. Approx $45.00 But if you dont have the dinero and need to keep cost down you can use litmus paper color titration, but I like the accuracy of the digital pen. Be sure if you get a digital pen that you check your calibration once a month. Be sure to calibrate at both ends of the ph range. @ 7 .0 and then the lower scale at 4.0
 
VERMONTSKUNKS

VERMONTSKUNKS

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the paper and I don't jive well my brotha, so we gonna take your advice and hunt down the ph600, ive been freeballin it way too long! By the way, you should get paid for the information you help folks with here, I realize a lot of folks are lazy and don't wanna read 2-3 page diatribes on microbial health in rhiospheres but tbh its such a compelling way to learn about our gardens there mediums how they interact and what we can do to keep the boat fro rockin sorta speak.
 
jumpincactus

jumpincactus

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the paper and I don't jive well my brotha, so we gonna take your advice and hunt down the ph600, ive been freeballin it way too long! By the way, you should get paid for the information you help folks with here, I realize a lot of folks are lazy and don't wanna read 2-3 page diatribes on microbial health in rhiospheres but tbh its such a compelling way to learn about our gardens there mediums how they interact and what we can do to keep the boat fro rockin sorta speak.
@VERMONTSKUNKS .........I do get paid bro. On a spiritual level so to speak. Remember,,,,,,, "We can only Keep what we have by giving it away". Someone before me had to do the legwork on the stuff I have learned. But thanks for realizing it is a lot of work. I, with losing my job, found giving to the Farm community has helped keep me sane!!!! :eek:
 
jumpincactus

jumpincactus

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I'm reading, "Teaming with Microbes", it's an excellent read, complex, yet easy to comprehend for the laymen....I would suggest it to anyone interested in living soil.
@Jay Tea It is ordered and on its way. Good looking out. Appreciated!!!
 
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