Add to ORKGCrop yields at summit positions of rolling landscapes often are lower than backslope yields. The differences in plant response may be the result of many different factors. We examined corn (Zea mays L.) plant productivity, gene expression, soil water, and nutrient availability in two landscape positions located in historically high (backslope) and moderate (summit and shoulder) yielding zones to gain insight into plant response differences. Growth characteristics, gene expression, and soil parameters (water and N and P content) were determined at the V12 growth stage of corn. At tassel, plant biomass, N content, 13C isotope discrimination (Δ), and soil water was measured. Soil water was 35% lower in the summit and shoulder compared with the...
Information on the water quality impact of perennial warmseason grasses (WSGs) when grown in margina...
The effects of conservation-tillage practices on the root environment of corn (Zea mays L.) may diff...
Understanding the factors that influence soil and plant nitrogen (N) spatial variability may improve...
Competition mechanisms among adjacent plants are not well understood. This study compared corn growt...
Weed interference with crop growth is often attributed to water, nutrient, or light competition; how...
Winter cover crops have produced mixed impacts on crop yields in frigid semiarid environments. Our o...
Different agricultural practices may have substantial impacts on crop physiology and yield. However,...
Microarray analysis was used to identify changes in gene expression in corn leaves collected from pl...
A diverse set of corn (Zea mays. L.) genotypes was grown at the Plant Science Field Laboratory, Knox...
Identifying the physiological and genetic basis of stress tolerance in plants has proven to be crit...
Cover crops may be used as a management tool in modifying soil water content, helping lower agricult...
Effects of canopy formation and function are frequently represented in irrigation management models ...
Soil water availability is the most important factor limiting crop yield worldwide. Understanding cr...
Efficient use of biomass to produce biofuel and the development of more drought tolerant crops can c...
Nitrogen (N) is an essential plant nutrient in maize production, and if considering only natural sou...
Information on the water quality impact of perennial warmseason grasses (WSGs) when grown in margina...
The effects of conservation-tillage practices on the root environment of corn (Zea mays L.) may diff...
Understanding the factors that influence soil and plant nitrogen (N) spatial variability may improve...
Competition mechanisms among adjacent plants are not well understood. This study compared corn growt...
Weed interference with crop growth is often attributed to water, nutrient, or light competition; how...
Winter cover crops have produced mixed impacts on crop yields in frigid semiarid environments. Our o...
Different agricultural practices may have substantial impacts on crop physiology and yield. However,...
Microarray analysis was used to identify changes in gene expression in corn leaves collected from pl...
A diverse set of corn (Zea mays. L.) genotypes was grown at the Plant Science Field Laboratory, Knox...
Identifying the physiological and genetic basis of stress tolerance in plants has proven to be crit...
Cover crops may be used as a management tool in modifying soil water content, helping lower agricult...
Effects of canopy formation and function are frequently represented in irrigation management models ...
Soil water availability is the most important factor limiting crop yield worldwide. Understanding cr...
Efficient use of biomass to produce biofuel and the development of more drought tolerant crops can c...
Nitrogen (N) is an essential plant nutrient in maize production, and if considering only natural sou...
Information on the water quality impact of perennial warmseason grasses (WSGs) when grown in margina...
The effects of conservation-tillage practices on the root environment of corn (Zea mays L.) may diff...
Understanding the factors that influence soil and plant nitrogen (N) spatial variability may improve...