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Research ArticleResearch Section

Switchgrass yield and stand dynamics from legume intercropping based on seeding rate and harvest management

A.J. Ashworth, F.L. Allen, P.D. Keyser, D.D. Tyler, A.M. Saxton and A.M. Taylor
Journal of Soil and Water Conservation November 2015, 70 (6) 374-384; DOI: https://doi.org/10.2489/jswc.70.6.374
A.J. Ashworth
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F.L. Allen
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P.D. Keyser
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D.D. Tyler
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A.M. Saxton
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A.M. Taylor
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Abstract

Intercropping legumes may reduce inputs and enhance sustainability of forage and feedstock production, especially on marginal soils. This approach is largely untested for switchgrass (Panicum virgatum L.) production, yet producer acceptance should be high given the traditional use of legumes in forage/agricultural systems. Our objectives were to evaluate three cool-season and two warm-season legumes and their required densities to influence yield and supply nitrogen (N) compared to three inorganic N levels (0, 33, and 66 kg N ha−1 [0, 30, and 60 lb N ac−1]) at three locations in Tennessee (Knoxville [Sequatchie Silt Loam], Crossville [Lilly Loam], and Milan [Loring B2 Series]). Fall of 2010 seeded, cool-season legumes (red clover [Trifolium pratense L.], hairy vetch [Vicia villosa L.], ladino clover [Trifolium repens L.]), arrowleaf clover (Trifolium vesiculosum L.), and a spring of 2011 seeded, warm-season legume (partridge pea [Chamaecrista fasciculate L.]) were interseeded into switchgrass at three (high, medium, and low) seeding rates each in two experiments. Harvest treatments were annual single, postdormancy biofuel (Experiment One) or integrated forage-biofuel (preanthesis and postdormancy; Experiment Two). Year one yield impacts were minimal. During the second harvest year, legumes increased yield versus Year 1; in general, yields for 33 and 67 kg N ha−1 did not differ from those for red clover, hairy vetch, ladino clover, or partridge pea (p < 0.05). Arrowleaf clover yields were not different from 0 kg N ha−1. Forage biomass yields were generally more responsive to legumes (p < 0.05) than the biomass regime. Legume persistence after three years was generally greatest for ladino clover and partridge pea. Forage quality (switchgrass only) in some cases was positively influenced by legume treatments, notably hairy vetch and partridge pea (p < 0.05). Intercropping selected legumes in switchgrass may enhance forage quality and yield while reducing nonrenewable inputs, fertilizer costs, and emissions/runoff to air and groundwater.

  • © 2015 by the Soil and Water Conservation Society

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Journal of Soil and Water Conservation: 70 (6)
Journal of Soil and Water Conservation
Vol. 70, Issue 6
November/December 2015
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Switchgrass yield and stand dynamics from legume intercropping based on seeding rate and harvest management
A.J. Ashworth, F.L. Allen, P.D. Keyser, D.D. Tyler, A.M. Saxton, A.M. Taylor
Journal of Soil and Water Conservation Nov 2015, 70 (6) 374-384; DOI: 10.2489/jswc.70.6.374

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Switchgrass yield and stand dynamics from legume intercropping based on seeding rate and harvest management
A.J. Ashworth, F.L. Allen, P.D. Keyser, D.D. Tyler, A.M. Saxton, A.M. Taylor
Journal of Soil and Water Conservation Nov 2015, 70 (6) 374-384; DOI: 10.2489/jswc.70.6.374
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