Response of corn to high levels of CuSO₄ and ZnSO₄ applications

Winarko, Clementinus

14 November 2012

Copper and Zn deficiencies of crop plants occur in various areas throughout the world. The sulfate forms of Cu and Zn are generally used to correct these micronutrient deficiencies. In agricultural practices, Cu and Zn are applied to soils not only as a fertilizer but also as manures, pesticides and waste materials such as sewage sludge. High levels of Cu and Zn application to agricultural soils are considered to pose a potential hazard to plants and animals. Research findings have not established Cu and Zn levels that either injure plants or increase Cu and Zn concentrations in edible plant portions to undesirably high levels. Published data on the fate of applied Cu and Zn indicate that there is little, if any, downward movement of these micronutrients in soils and that, with time, applied Cu and Zn revert to plant unavailable forms in soils. / Master of Science

LD5655.V855 1985.W562

Corn -- Field experiments

Corn -- Physiology

Plants -- Effect of copper on

Plants -- Effect of zinc on

Rye and vetch intercrops for reducing corn in fertilizer requirements and providing ground cover in the Mid-Atlantic region

Sullivan, Preston

13 October 2005

Winter-annual cover crops reduce soil erosion by providing ground cover, while producing energy-cheap N for a subsequent crop. Incorporated cover crops or those left as no-till mulch can enhance soil structure and water infiltration. A series of studies was designed to test agronomic advantages of growing mixtures of rye plus hairy vetch and hairy plus bigflower vetches. Plots were arranged in randomized complete blocks and the study conducted for two consecutive cover crop/corn sequences. I measured N yield of cover crops, their ground-covering ability, and their influence on soil structure and a subsequent corn crop. Nitrogen yields ranged from 53 to 187 kg/ha using either pure stands of hairy vetch or mixtures of hairy vetch plus bigflower vetch. Nitrogen yields for rye plus hairy vetch mixtures ranged from 90 to 179 kg/ha. Rye growing in association with vetch had lower C:N ratios (47:1) than pure rye (59:1), apparently deriving additional N from vetch. Vetches were poor at covering the ground in the fall (< 15% cover) as compared to rye (> 41% cover) or mixtures of rye and vetch (25 to 45% cover). When compared to vetch pure stands, corn yields were suppressed 5 to 42% by including rye with vetch due to N immobilization from the rye component and reduced N yield from the vetch component. Corn yields from hairy vetch or hairy: bigflower vetch mixtures were 15.5 Mg/ha and 16.2 Mg/ha respectively and statistically similar to rye + 140 kg N/ha (16.7 Mg/ha). Corn following the two-vetch mixture took up 129 kg N/ha, while corn following hairy vetch took up 114 kg N/ha. Using N fertilizer, corn N uptake was 183 kg N/ha following 140 kg N/ha fertilizer and 213 kg/ha following 210 kg/ha N fertilizer. Increased soil moisture seemed to be related to the presence of a surface mulch. I was unable to detect any changes in water-stable soil aggregates in the upper 15 cm after 2 years of cover cropping. During 1988, water infiltration in no-till plots was lower than in plots that had been disk incorporated, but a tillage effect was not seen in 1989. / Ph. D.

LD5655.V856 1990.S866

Catch crops

Corn -- Fertilizers

Corn -- Field experiments

Intercropping