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Growth and Yield of Sweet Corn Following Green Manure in a Warm Temperate Environment on Sandy Soil
Authors:C. M. Cherr  J. M. S. Scholberg  R. McSorley   O. S. Mbuya
Affiliation:Authors' address: Mr C. M. Cherr, Graduate Group in Ecology and Department of Plant Sciences, University of California, One Shields Ave., Davis, CA 95616, USA;Mr C. M. Cherr and Dr J. M. S. Scholberg (corresponding author;e-mail: ), Department of Agronomy, University of Florida, Box 110500, Gainesville, FL 32611, USA;Prof. R. McSorley, Department of Entomology and Nematology, University of Florida, Box 110620, Gainesville, FL 32611, USA;Asst Prof. O. S. Mbuya, Agronomy Program and Center for Water Quality, Florida Agricultural and Mechanical University, 119 Perry Paige Building, Tallahassee, FL 32307, USA
Abstract:Legumes used as green manure (GMN) may provide on‐farm sources of N for subsequent crops. In warm‐humid climates on sandy soils, however, there is a need to evaluate effects on growth and yield of subsequent crops when GMN substitutes for chemical N fertilizer. We collected time‐series data for 2 years to evaluate growth and ear yield response of sweet corn (Zea mays L. var. Rugosa) in annual rotation with GMN (summer, winter or summer plus winter GMN) and supplemented with 0, 67 or 133 kg chemical N ha−1. Control treatments receiving 0, 67, 133, 200 or 267 kg chemical N ha−1 were used for comparison. Rotation with summer plus winter GMN resulted in more growth and yield benefit for sweet corn than did the other GMN rotations. Compared with control treatments receiving the same chemical N rates, rotation with summer plus winter GMN increased sweet corn ear yield, leaf area index and total plant dry weight and N content by 15–30 %. Despite these benefits, use of high chemical N rate (267 kg chemical N ha−1) resulted in ear yields at least 20 % greater than sweet corn rotated with any GMN and fertilized with reduced N rates. Largest increases in sweet corn dry weight and N content occurred between 4 and 6 weeks after emergence in all treatments. After this period of rapid growth, sweet corn fertilized with 267 kg chemical N ha−1 showed higher N content than all other treatments. Prior to this period of rapid growth, multiple rainfall events in excess of 30 mm may have resulted in leaching of N from GMN residue. Considering the high rainfall levels, low water and N retention capability of sandy soils and rapid N release from GMN during decomposition, future research of GMN in this environment should evaluate options to better match GMN termination with time of greatest potential N uptake from a subsequent crop.
Keywords:green manure    growth analysis    lupin    sweet corn    sunn hemp    vetch
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