Nitrogen fixation '' plant (a
hazelnut pictured for comparison) |189x189px Many legumes contain
symbiotic bacteria called
Rhizobia within
root nodules of their
root systems (plants belonging to the genus
Styphnolobium are one exception to this rule). These bacteria have the special ability of
fixing nitrogen from atmospheric, molecular nitrogen (N2) into
ammonia (NH3). The chemical reaction is: : Ammonia is converted to another form,
ammonium (), usable by (some) plants, by the following reaction: : This arrangement means that the root nodules are sources of nitrogen for legumes, making them relatively rich in nitrogenous
amino acids and
protein. Nitrogen is therefore a necessary
ingredient in the production of proteins. When a legume plant dies in the field, for example following the
harvest, all of its remaining nitrogen, incorporated into
amino acids inside the remaining plant parts, is released back into the soil. In the soil, the amino acids are converted to nitrate (), making the nitrogen available to other plants, thereby serving as fertilizer for future crops. , making nitrates available to other plants in the soil. In many traditional and
organic farming practices,
crop rotation or
polyculture involving legumes is common. By alternating between legumes and non-legumes, or by growing both together for part of the growing season, the field can receive a sufficient amount of nitrogenous compounds to produce a good result without adding nitrogenous fertilizer. Legumes are often used as
green manure. Sri Lanka developed the
polyculture practice known as coconut-soybean
intercropping. Grain legumes are grown in coconut (
Cocos nuficera) groves in two ways: intercropping or as a cash crop. These are grown mainly for their protein, vegetable oil and ability to uphold soil fertility. However, continuous cropping after 3–4 years decrease grain yields significantly.
Pests and diseases A common pest of grain legumes that is noticed in the tropical and subtropical Asia, Africa, Australia and Oceania are minuscule flies that belong to the family
Agromyzidae, dubbed "bean flies". They are considered to be the most destructive. The host range of these flies is very wide amongst cultivated legumes. Infestation of plants starts from germination through to harvest, and they can destroy an entire crop in early stage.
Black bean aphids are a serious pest to broad beans and other beans. Common hosts for this pest are fathen, thistle and dock.
Pea weevil and
bean weevil damage leaf margins leaving characteristic semi-circular notches.
Stem nematodes are very widespread but will be found more frequently in areas where host plants are grown. Common legume diseases include
anthracnose, caused by
Colletotrichum trifolii;
common leaf spot caused by
Pseudomonas syringae pv. syringae; crown wart caused by
Physoderma alfalfae;
downy mildew caused by
Peronospora trifoliorum; root rot caused by
Fusarium spp.; rust caused by
Uromyces striatus; crown and stem rot caused by
Sclerotinia trifoliorum;
Southern blight caused by
Sclerotium rolfsii; pythium (browning) root rot caused by
Pythium spp.;
fusarium wilt caused by
Fusarium oxysporum; root knot caused by
Meloidogyne hapla. These are all classified as biotic problems. Abiotic problems include nutrient deficiencies, (nitrogen, phosphorus, potassium, copper, magnesium, manganese, boron, zinc), pollutants (air, water, soil, pesticide injury, fertilizer burn), toxic concentration of minerals, and unfavorable growth conditions. == Storage ==