Modulins of the peribacteroid compartment in soybean nodules

Fortin, Marc G.

January 1987

No description available.

Soybean.

Rhizobium.

Nitrogen -- Fixation.

Bacteria, Denitrifying.

Transcription initiation sites on the soybean mitochondrial genome

Auchincloss, Andrea Helen

January 1987

No description available.

Plant mitochondria.

Soybean -- Genetic engineering.

Genetic transcription.

Fractal geometry concepts applied to the morphology of crop plants

Foroutan-Pour, Kayhan

January 1998

No description available.

Companion planting.

Corn -- Morphology.

Fractals.

Soybean -- Morphology.

Water table management strategies for soybean production

Broughton, Stephen R. (Stephen Russell)

January 1992

No description available.

Soybean -- Irrigation.

Water table.

Irrigation -- Management.

Subsurface irrigation of soybean

Galganov, Yvonne T. (Yvonne Tamara)

January 1991

No description available.

Subirrigation -- Québec (Province).

Development of economic thresholds for semiloopers (Lepidoptera: noctuidae) on four soybean cultivars in Zimbabwe

Lapointe, Renée

January 1992

No description available.

Trichoplusia orichalcea

Intercropping corn and soybean :: planting pattern, plant density, and nitrogen fertilizer responses /

Vargas, Antonio

01 January 1985

No description available.

Companion crops

Corn

Nitrogen fertilizers

Soybean.

Manipulation of yield through source-sink changes in soybean (Glycine max (L.) Merrill) /

Zhang, Shu-Huan

01 January 1996

No description available.

Plant canopies

Effect of light on Plants

Soybean Yields.

Effects of certain antiviral compounds on symptoms and infectivity of cowpea chlorotic mottle virus in cowpea and soybean plants.

Cassel, Loretta J.

01 January 1981

No description available.

Antiviral agents

Cowpea

Plant viruses

Soybean.

Occurrence of diseases and insect pests in select soybean (Glycine max (L.) Merr.) and sorghum (Sorghum bicolor (L.) Moench) rotations in Mississippi

Pichardo, Sergio Tomas

15 December 2007

Field and greenhouse studies were conducted during 2004 through 2006 at the Rodney R. Foil Plant Science Research Center, Starkville, MS. Six sorghum and soybean rotation treatments were tested to determine their effect on plant pathogen, insect, and nematode diversity and density levels. Treatments included 1) continuous sorghum, 2) continuous soybean, 3) sorghum-soybean-sorghum rotation, 4) soybean-sorghum-soybean rotation, 5) sorghum-soybean-soybean rotation, and 6) soybean-sorghum-sorghum rotation. Several nematode and insect species were identified during the study, but were always below economic thresholds. Six insect species were identified on soybean during each growing season and used as the indicator species for this study. The most prevalent were threecornered alfalfa hopper (Spissistilus festinus (Say) and bean leaf beetle (Cerotoma trifurcata (Forester). Sorghum webworm (Nola sorghiella Riley) and corn earworm (Helicoverpa zea (Boddie) were the most common insects on sorghum panicles. Rotations did not affect the diversity or density levels of the indicator soybean or sorghum insects during the three year study. Plant disease levels during the investigation showed variable results. Three foliar fungal pathogens including Diaporthe phaseolorum (Cooke & Ellis) Sacc. var. meridionalis, Septoria glycines Hemmi, and Cercospora sojina Hara on soybean, and Gloeocercospora sorghi D. Brain & Edgerton ex Deighton on sorghum were observed. The only virus disease on soybean was bean pod mottle, but levels were not affected by the rotations during the study. Zonate spot caused by G. sorghi was the most prevalent foliar sorghum disease, but was not affected by the rotations. Six frequently isolated fungal pathogens from either soybean or sorghum roots included Macrophomina phaseolina (Tassi) G. Goidanich, Rhizoctonia solani Kühn, D. phaseolorum, Aspergillus spp., Trichoderma spp and Fusarium spp. Aflatoxin contamination of sorghum seed was low (<20 ppb) the first two years of the study, but was high (790 ppb) in 2006. Significantly greater soybean and sorghum yields were obtained from rotated systems compared to monoculture systems in 2005. In a greenhouse test, M. phaseolina infection of soybean led to significantly greater root disease ratings, lower plant height and dry weight than the untreated control. Sorghum plant growth was not affected by M. phaseolina and R. solani.

insect pests

diseases

soybean

sorghum

Crop rotation