Humus refers to organic matter that has been decomposed by soil microflora and fauna to the point where it is resistant to further breakdown. Humus usually constitutes only five percent of the soil or less by volume, but it is an essential source of nutrients and adds important textural qualities crucial to
soil health and plant growth. Humus also feeds
arthropods,
termites and
earthworms which further improve the soil. The end product, humus, is suspended in
colloidal form in the soil solution and forms a
weak acid that can attack silicate minerals by
chelating their iron and aluminum atoms. Humus has a high
cation and
anion exchange capacity that on a dry weight basis is many times greater than that of clay colloids. It also acts as a
buffer, like clay, against changes in pH and soil moisture. As vegetal detritus decomposes, some microbially resistant compounds are let undecayed, including modified lignins, oils, fats, and waxes. Secondly, some new compounds are synthesized, like
polysaccharides and
polyuronids. These compounds are the basis of
humus. New reactions occur between these compounds and some proteins and other products that contain nitrogen, thus incorporating nitrogen and avoiding its
mineralization. Other nutrients are also protected in this way from mineralization. Humus formation is a process dependent on the amount of plant material added each year and the type of base soil. Both are affected by climate and the type of organisms present. Soils with humus can vary in nitrogen content but typically have 3 to 6 percent nitrogen. Raw organic matter, as a reserve of nitrogen and phosphorus, is a vital component affecting
soil fertility. Humus also absorbs water, and expands and shrinks between dry and wet states to a higher extent than clay, increasing soil porosity. Humus is less stable than the soil's mineral constituents, as it is reduced by microbial
decomposition, and over time its concentration diminishes without the addition of new organic matter. However, humus in its most stable forms may persist over centuries if not millennia.
Charcoal is a source of highly stable humus, called
black carbon, which had been used traditionally to improve the fertility of nutrient-poor tropical soils. This very ancient practice, as ascertained in the genesis of
Amazonian dark earths, has been renewed and became popular under the name of
biochar. It has been suggested that biochar could be used to sequester more
carbon in the fight against the
greenhouse effect.
Humic substances Humic substances are classified into three genera based on their solubility in acids and alkalis, and also according to their stability: •
Fulvic acid is the genus that contains the matter that has the lowest molecular weight, is soluble in acids and alkalis, and is susceptible to microbial action. •
Humic acid is the genus that contains the intermediate matter that has medial molecular weight, is soluble in alkalis and insoluble in acids, and has some resistance to microbial action. •
Humin is the genus that contains the matter that has the greatest molecular weight, is the darkest in color, is insoluble in acids and alkalis, and has the greatest resistance to microbial action. As the residues break down, only molecules made of
aliphatic and
aromatic hydrocarbons, assembled and stabilized by oxygen and
hydrogen bonds, remain in the form of complex molecular assemblages collectively called humus. Humus is never pure in the soil, because it reacts with metals and clays to form complexes which further contribute to its stability and to soil structure. == Function in carbon cycling ==