Abstract
A four-year field experiment was initiated in 2011 at the EV. Smith Research Station, in central Alabama, to determine the effect of sunn hemp (Crotalaria juncea L.) termination methods on organically grown kale (Brassica oleracea, var. acephala L.) for fresh market and cereal rye (Secale cereale L.) for grain. Three different termination methods for the sunn hemp cover crop were chosen: (1) rolling/crimping with an experimental two-stage roller/crimper, (2) rotary mowing, and (3) rotary mowing with incorporation (disking). Kale plots were harvested in the winter and rye plots were harvested in the following spring. Kale plots were fallow from January to June (kept mowed) until planting sunn hemp again across all plots in late spring of the next growing season. Over four growing seasons, average sunn hemp biomass (dry basis) was 10,981 kg ha−1 with plant height of 2.4 m. The average C/N ratio of sunn hemp was 23:1. Sunn hemp biomass amounts differed among growing seasons (from 5589 to 14,720 kg ha−1) due to different weather conditions. Kale yield also varied across growing seasons, with the highest yield of 17,565 kg ha−1 measured in 2012 and the lowest (3915 kg ha−1) in 2014 due to massive weed pressure. Generally, sunn hemp residue management affected kale yield, with greater yields measured for mowed and incorporated residue (15,054 kg ha−1) compared with lower yields for mowed (6758 kg ha−1) and rolled sunn hemp (5559 kg ha−1). Lower yields were related to poor kale seed-to-soil contact (hair pinning) from large amounts of sunn hemp residue on the soil surface. Over four growing seasons, cereal rye grain yield varied among growing seasons, with an average yield of 1358 kg ha−1. Moreover, sunn hemp residue treatments affected grain yield, with greater yields for rolled (1419 kg ha−1) and mowed residue (1467 kg ha−1) compared with a lower yield (1187 kg ha−1) for mowed and incorporated sunn hemp residue.
Highlights
In conservation systems, cover crops are utilized to improve soil properties and enhance cash crop growth
Sunn hemp biomass production averaged over four growing seasons was 10,981 kg ha−1, which was in the upper range of 3362–11,208 kg ha−1 for biomass production reported in Alabama [27]
The amount of NO3 -N at sunn hemp termination was significantly lower (13.4 kg ha−1 ) compared to NO3 -N amounts at kale planting (40.3 kg ha−1 ) indicating that the NO3 -N increase was related to nitrogen release during the sunn hemp decomposition period
Summary
Cover crops are utilized to improve soil properties and enhance cash crop growth. Balkcom and Reeves [8] reported that average sunn hemp biomass production in central Alabama was 7600 kg ha−1 , with a nitrogen content of 144 kg ha−1 Sunn hemp management, such as planting date, can affect the performance of a subsequent crop. Balkcom et al [9] examined how two different sunn hemp planting dates following wheat (Triticum aestivum, L.) harvest (early and late June) and corn (Zea mays L.) harvest (late August and early September) affected biomass production of cereal rye (Secale cereale L.) grown as a winter cover crop. Rye biomass production following sunn hemp planted after wheat averaged 38% greater over two growing seasons compared to fallow. In conservation systems, rolling/crimping is especially rolling/crimping is especially important to manage tall cover crops such as sunn hemp.
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