SDG 2- Zero Hunger and SDG 15- Life on land. This Collection welcomes original research on rhizobium, from nitrogen fixation mechanisms to sustainable agricultural applications. Rhizobium is a ...
Legumes thrive in low-nitrogen environments by partnering with rhizobia, soil bacteria that convert atmospheric nitrogen into ammonium, a usable form for the plants. These beneficial bacteria are ...
Soil inoculants for beans and corn can provide positive improvements for the health of your row crops. You can determine which corn and soybean inoculant is best suited to your needs by learning more ...
Recent research on Lotus japonicus, a model leguminous plant, has unveiled that the interaction between legume roots and rhizobia is characterized by periodic gene expression with a six-hour rhythm.
Legumes thrive in low-nitrogen environments by partnering with rhizobia, soil bacteria that convert atmospheric nitrogen into ammonium, a usable form for the plants. These beneficial bacteria are ...
Legumes like clover form root nodules that harbor symbiotic soil microbes known as rhizobia. These nodules are the site of exchange of nutrients that benefit the plants and the rhizobia. CHAMPAIGN, ...
A Native Hill Lotus plant (Acmisponbrachycarpus) growing happily in toxic serpentine soil due to support from its nitrogen fixing rhizobia bacteria symbionts. Photo taken at the Donald and Sylvia ...
Scientists have discovered a new partnership between a marine diatom and a bacterium that can account for a large share of nitrogen fixation in vast regions of the ocean. The newly-discovered ...
Plants need nitrogen to grow. Many legumes meet this need through a symbiotic relationship: They harbor bacteria that fix ...