Add to ORKGThis NebGuide details research conducted in Nebraska on soybean inoculants and provides a method and worksheet to determine if inoculation is needed in a specific field. Why is it that we see soybean yield responses from inoculating with Bradyrhizobia japonicum in some cases but not others? In part one of this two-part series we discussed field conditions that support B. japonicum survival and encourage fixation of nitrogen. Please refer to the publica-tion titled, Soybean Inoculation: Understanding the Soil and Plant Mechanisms Involved, NebGuide G1621 for more information on the basics of soybean inoculation. This publication explains how to distinguish which fields will likely respond to inoculation with B. japonicum from those that will...
Nitrogen fixation is the process of converting atmospheric nitrogen into a usable form for the plant...
Nitrogen fixation by Bradyrhizobium japonicum in soybean [Glycine max] is highly beneficial in soybe...
Nitrogen gas (N2) comprises nearly 80 percent of total atmospheric gases, yet most organisms are una...
Why is it that we see soybean yield responses from inoculating with Bradyrhizobia japonicum in some ...
Why is it that we see soybean yield responses from inoculating with Bradyrhizobia japonicum in some ...
This NebGuide discusses when soybean seed should be inoculated and why, and provides recommendations...
The symbiotic nitrogen fixing bacteria have usually been grouped on the basis of their ability to ca...
If soybeans are to have a place in New Zealand farming, system, they must be grown economically, in ...
Currently, there is a lot of interest in soybean seed inoculation. Several new products have entered...
This NebGuide discusses when soybean seed should be inoculated and why, and provides recommendations...
Inoculating soybeans with products containing the bacterium Bradyrhizobium japonicum is considered a...
Nitrogen gas (N2) comprises nearly 80 percent of total atmospheric gases, yet most organisms are una...
Funding was generously granted by the CIFSRF program, jointly funded by the International Developmen...
ABSTRACT In early soybean cultivars of high productive potential, the use of chemical nitrogen (N) f...
It is unclear if additional inoculation with Bradyrhizobia at varying soybean [Glycine max (L.) Merr...
Nitrogen fixation is the process of converting atmospheric nitrogen into a usable form for the plant...
Nitrogen fixation by Bradyrhizobium japonicum in soybean [Glycine max] is highly beneficial in soybe...
Nitrogen gas (N2) comprises nearly 80 percent of total atmospheric gases, yet most organisms are una...
Why is it that we see soybean yield responses from inoculating with Bradyrhizobia japonicum in some ...
Why is it that we see soybean yield responses from inoculating with Bradyrhizobia japonicum in some ...
This NebGuide discusses when soybean seed should be inoculated and why, and provides recommendations...
The symbiotic nitrogen fixing bacteria have usually been grouped on the basis of their ability to ca...
If soybeans are to have a place in New Zealand farming, system, they must be grown economically, in ...
Currently, there is a lot of interest in soybean seed inoculation. Several new products have entered...
This NebGuide discusses when soybean seed should be inoculated and why, and provides recommendations...
Inoculating soybeans with products containing the bacterium Bradyrhizobium japonicum is considered a...
Nitrogen gas (N2) comprises nearly 80 percent of total atmospheric gases, yet most organisms are una...
Funding was generously granted by the CIFSRF program, jointly funded by the International Developmen...
ABSTRACT In early soybean cultivars of high productive potential, the use of chemical nitrogen (N) f...
It is unclear if additional inoculation with Bradyrhizobia at varying soybean [Glycine max (L.) Merr...
Nitrogen fixation is the process of converting atmospheric nitrogen into a usable form for the plant...
Nitrogen fixation by Bradyrhizobium japonicum in soybean [Glycine max] is highly beneficial in soybe...
Nitrogen gas (N2) comprises nearly 80 percent of total atmospheric gases, yet most organisms are una...