|Legume aka Pulse Crop) in association with Rhizobium bacteria.|
Biological Nitrogen fixation is an important component of organic gardening/farming, forest gardening and other agro-eco practices. Through a partnership with micro-organisms in their roots, some plants can turn atmospheric nitrogen into nitrogen fertilizers useful to themselves but also becoming available to their neighbors over time through root die back, leaf fall, and chop and drop pruning. These are known as the nitrogen fixing plants.
This is a mutually beneficial relationship with the plant providing carbohydrates obtained from photosynthesis to the microorganism and in exchange for these carbon sources, the microbes provide fixed nitrogen to the host plant.
While it does not replace the need to bring in other nutrients depleted by harvests such as phosphorus and calcium, nitrogen fixation provides a valuable biological source of an essential fertilizer.
There are two main groups of microbes that plants associate with in order to utilise the atmospheric nitrogen to fuel growth. They are Frankia and Rhizobium.
FrankiaMany plants partner with micro-organisms called Frankia, a group of Actinobacteria. These plants are known as the actinorhizal nitrogen fixers.
|Frankia can be seen above as the yellow nodules forming around the roots of an Alder - Alnus sp.|
- Betulaceae, the birch family.
- Myricaceae, the bayberry family.
- Casuarinaceae, the Austraian “pines”.
- Elaeagnaceae, the oleasters.
- Rosaceae, the rose family.
- Rhamnaceae, the buckthorn family.
|Balkan Ecology Project Nitrogen Fixing plants|
RhizobiumBy far the most important nitrogen-fixing symbiotic associations are the relationships between legumes (plants in the family Fabaceae) and Rhizobium and Bradyrhizobium bacteria. These plants are commonly used in agricultural systems such as alfalfa, beans, clover, cowpeas, lupines, peanut, soybean, and vetches.
The Rhizobium or Bradyrhizobium bacteria colonize the host plant’s root system and cause the roots to form nodules to house the bacteria. The bacteria then begin to fix the nitrogen required by the plant. Access to the fixed nitrogen allows the plant to produce leaves fortified with nitrogen that can be recycled throughout the plant. This allows the plant to increase photosynthetic capacity, which in turn yields nitrogen-rich seed.
|Vetch - Vicia sp. with Rhizobium colonies clearly seen as nodules on the plant roots|
|Balkan Ecology Project Bio-Nursery|