Two main types of nodule have been described in legumes: determinate and indeterminate.
Determinate nodules are found on certain tribes of tropical legume such as those of the genera
Glycine (soybean),
Phaseolus (common bean), and
Vigna. and on some temperate legumes such as
Lotus. These determinate nodules lose meristematic activity shortly after initiation, thus growth is due to cell expansion resulting in mature nodules which are spherical in shape. Another type of determinate nodule is found in a wide range of herbs, shrubs and trees, such as
Arachis (
peanut). These are always associated with the axils of lateral or adventitious roots and are formed following infection via cracks where these roots emerge and not using
root hairs. Their internal structure is quite different from those of the
soybean type of nodule.
Indeterminate nodules are found in the majority of legumes from all three sub-families, whether in temperate regions or in the tropics. They can be seen in
Faboideae legumes such as
Pisum (pea),
Medicago (alfalfa),
Trifolium (clover), and
Vicia (vetch) and all
mimosoid legumes such as
acacias, the few nodulated
caesalpinioid legumes such as
partridge pea. They earned the name "indeterminate" because they maintain an active apical
meristem that produces new cells for growth over the life of the nodule. This results in the nodule having a generally cylindrical shape, which may be extensively branched. • Zone I—the
active meristem. This is where new nodule tissue is formed which will later differentiate into the other zones of the nodule. • Zone II—the
infection zone. This zone is permeated with infection threads full of bacteria. The plant cells are larger than in the previous zone and cell division is halted. • Interzone II–III—Here the bacteria have entered the plant cells, which contain
amyloplasts. They elongate and begin terminally differentiating into symbiotic, nitrogen-fixing
bacteroids. • Zone III—the
nitrogen fixation zone. Each cell in this zone contains a large, central
vacuole and the cytoplasm is filled with fully differentiated bacteroids which are actively
fixing nitrogen. The plant provides these cells with
leghemoglobin, resulting in a distinct pink color. • Zone IV—the
senescent zone. Here plant cells and their bacteroid contents are being degraded. The breakdown of the heme component of leghemoglobin results in a visible greening at the base of the nodule. This is the most widely studied type of nodule, but the details are quite different in nodules of peanut and relatives and some other important crops such as lupins where the nodule is formed following direct infection of rhizobia through the epidermis and where infection threads are never formed. Nodules grow around the root, forming a collar-like structure. In these nodules and in the peanut type the central infected tissue is uniform, lacking the uninfected ells seen in nodules of soybean and many indeterminate types such as peas and clovers.
Actinorhizal-type nodules are markedly different structures found in non-legumes. In this type, cells derived from the root cortex form the infected tissue, and the prenodule becomes part of the mature nodule. Despite this seemingly major difference, it is possible to produce such nodules in legumes by a single
homeotic mutation. ==Nodulation==