Symbiotic Nitrogen Fixation in Tropical Food Grain Legumes: Current Status

“…After several years of inoculation, B. japonicum becomes established in the soil and any new organisms introduced with the seeds have low infection rate. This "competition" problem has been one of the major constraints to the introduction of new and more efficient strains (Vieira et al, 2010). Competitive exclusion is site specific and determined by a combination of factors related to the environment, the host plant, and the size and composition of the population of indigenous rhizobia (Vieira et al, 2010).…”

“…Detecting small but consistent yield improvements, against a background of biological variation, can present problems in field experiment designs using few replicates and limited numbers of sites (Edmeades, 2002;Vieira et al, 2010), especially when the weights recorded by most harvest equipment used in field trials are not precise and therefore also contribute to the variability of the results. Often, results from similar experiments will disagree as even well-planned studies are limited in statistical power (Olkin and Shaw, 1995).…”

“…In the past, the principal goal was to increase the yield potential of food crops and to maximize productivity. Today, the drive for productivity is increasingly combined with a desire for sustainability (Peoples et al, 1995;Vieira et al, 2010). The effective management of N is an essential element of agricultural sustainability (Zahran, 2010;Vieira et al, 2010).…”

“…oybean was fi rst cultivated in China and is now the most important annual grain legume in the world, with the United States, Brazil, and Argentina the leading producers (Vieira et al, 2010). Soybean is a host for the N 2 -fi xing bacteria, B. japonicum and B. elkanii, and they can obtain up to 50% or more of their N needs through biological nitrogen fi xation (BNF) when B. japonicum and B. elkanii are present in the soil (Elmore, 1984;Collino et al 2015).…”

Soybean Response to Inoculation with Bradyrhizobium japonicum in the United States and Argentina

“…After several years of inoculation, B. japonicum becomes established in the soil and any new organisms introduced with the seeds have low infection rate. This "competition" problem has been one of the major constraints to the introduction of new and more efficient strains (Vieira et al, 2010). Competitive exclusion is site specific and determined by a combination of factors related to the environment, the host plant, and the size and composition of the population of indigenous rhizobia (Vieira et al, 2010).…”

“…Detecting small but consistent yield improvements, against a background of biological variation, can present problems in field experiment designs using few replicates and limited numbers of sites (Edmeades, 2002;Vieira et al, 2010), especially when the weights recorded by most harvest equipment used in field trials are not precise and therefore also contribute to the variability of the results. Often, results from similar experiments will disagree as even well-planned studies are limited in statistical power (Olkin and Shaw, 1995).…”

“…In the past, the principal goal was to increase the yield potential of food crops and to maximize productivity. Today, the drive for productivity is increasingly combined with a desire for sustainability (Peoples et al, 1995;Vieira et al, 2010). The effective management of N is an essential element of agricultural sustainability (Zahran, 2010;Vieira et al, 2010).…”

“…oybean was fi rst cultivated in China and is now the most important annual grain legume in the world, with the United States, Brazil, and Argentina the leading producers (Vieira et al, 2010). Soybean is a host for the N 2 -fi xing bacteria, B. japonicum and B. elkanii, and they can obtain up to 50% or more of their N needs through biological nitrogen fi xation (BNF) when B. japonicum and B. elkanii are present in the soil (Elmore, 1984;Collino et al 2015).…”

Soybean Response to Inoculation with Bradyrhizobium japonicum in the United States and Argentina

“…In 2007, the production of chemical nitrogen fertilizers was 130 million tons which is likely to increase further in the coming years (FAO, 2011). Their production requires a great consumption of fossil fuels (1-2 % global fossil fuel) and is subjected of constant variations in prices (Vieira et al, 2010). Although their direct contribution to energy consumption seems minimal, it is unnecessary and unsustainable.…”

Legume Crops, Importance and Use of Bacterial Inoculation to Increase Production

Nitrogen Fixation with Soybean: The Perfect Symbiosis?