Start Date: Apr 21, 2011
End Date: Sep 07, 2014
Conventional corn hybrids and transgenic corn hybrids containing insect and herbicide resistance traits will be compared for variation in physiological components, mycotoxin contamination, insect damage, agronomic performance and economic return. Maturity group IV and V soybean varieties will be grown in both twin-row and single row planting patterns to compare their growth, photosynthesis, and agronomic performance. Glyphosate resistant corn hybrid grown in both twin-row and single row planting patterns will be evaluated for canopy light interception, photosynthesis, weed population densities, and agronomic performance. Conventional and glyphosate-resistant cotton-soybean rotation will be initiated under minimum tillage to assess impact on various soil properties, weed population densities, plant nutrition, cotton physiology, seed composition, crop agronomic performance, and economic return. Barnyardgrass and junglerice populations will be surveyed at various sites within the mid-southern region of the U.S. and characterized for morphological diversity and variation in growth parameters. Weed populations will be monitored throughout the growing season in glyphosate resistant soybeans grown in twin-row pattern to address issues with late season weed control. Different crop management systems for corn, cotton, and soybeans will be utilized on land infested with cogongrass to determine effectiveness and economic viability of various cogongrass control options. Obsolete and modern cotton varieties consisting of both conventional and transgenic types will be grown at two different plant population densities and assessed for variation in dry matter partitioning, canopy light interception, growth analysis, and agronomic performance. Diverse cotton varieties grown under either irrigated or dryland conditions and with 3 different levels of nitrogen fertilization will be assessed for dry matter partitioning, canopy light interception, chlorophyll fluorescence, and agronomic performance. Normal, okra, and super-okra leaf type isolines in the same genetic background will be grown in both twin-row and single row planting patterns and assessed for dry matter partitioning, canopy light interception, growth analysis, and agronomic performance.