Add to ORKGThe lack of uniform infestations of Mexican bean beetle (Epilachna varivestis Mulsant) in field plantings can make selection for resistance in segregating soybean populations very difficult . For this reason, the results from screening F2 plants in the field have been inconsistent. An alternative is to advance F2 plants to the F3 to provide replication at more than one location
Much emphasis is being placed on the development of new soybean (Glycine max (L.) Merrill) cultivars...
As the soybean cyst nematode (SCN), Heterodera glycines Ichinohe, has become a serious pest of soybe...
Sixty-five soybean germplasm lines from maturity groups (MG) IV to VIII were evaluated for their aci...
One of the major objectives of the proposal is systematic screening of all available soybean germpla...
Segregating populations arising from crosses involving two sources of Mexican bean beetle (Epilachna...
Due to considerable extending of soybean sowing areas and inculcation of it in new cultivation regio...
Use of resistant soybean cultivars is an excellent method of controlling various insect pests and di...
Genetic base of major conmercial soybean cultivars is very narrow. The top 10 most widely grown cult...
A total of 1,273 soybean germplasm lines and 39 commercial varie-ties were screened for natural resi...
A field study was conducted for screening and selection of improved soybean germplasm for disease re...
In screening experiments** to determine resistance of several commercial as well as introduced soybe...
Eighteen soybean genotypes, six each from Maturity Groups (MG) V, VI, and VII were planted in four-r...
Three soybean cultivars, \u27Lee-74\u27, \u27Wright\u27, and \u27RA 401\u27, were subjected to 100% ...
The phenomenon of plant resistance to insects may be classified into three components, namely, nonpr...
Fusarium wilt of soybean (causal organism: Fusarium oxysporum Schlecht. emend. Snyd. & Hans.) has be...
Much emphasis is being placed on the development of new soybean (Glycine max (L.) Merrill) cultivars...
As the soybean cyst nematode (SCN), Heterodera glycines Ichinohe, has become a serious pest of soybe...
Sixty-five soybean germplasm lines from maturity groups (MG) IV to VIII were evaluated for their aci...
One of the major objectives of the proposal is systematic screening of all available soybean germpla...
Segregating populations arising from crosses involving two sources of Mexican bean beetle (Epilachna...
Due to considerable extending of soybean sowing areas and inculcation of it in new cultivation regio...
Use of resistant soybean cultivars is an excellent method of controlling various insect pests and di...
Genetic base of major conmercial soybean cultivars is very narrow. The top 10 most widely grown cult...
A total of 1,273 soybean germplasm lines and 39 commercial varie-ties were screened for natural resi...
A field study was conducted for screening and selection of improved soybean germplasm for disease re...
In screening experiments** to determine resistance of several commercial as well as introduced soybe...
Eighteen soybean genotypes, six each from Maturity Groups (MG) V, VI, and VII were planted in four-r...
Three soybean cultivars, \u27Lee-74\u27, \u27Wright\u27, and \u27RA 401\u27, were subjected to 100% ...
The phenomenon of plant resistance to insects may be classified into three components, namely, nonpr...
Fusarium wilt of soybean (causal organism: Fusarium oxysporum Schlecht. emend. Snyd. & Hans.) has be...
Much emphasis is being placed on the development of new soybean (Glycine max (L.) Merrill) cultivars...
As the soybean cyst nematode (SCN), Heterodera glycines Ichinohe, has become a serious pest of soybe...
Sixty-five soybean germplasm lines from maturity groups (MG) IV to VIII were evaluated for their aci...