Forage plant mixture type interacts with soil moisture to affect soil nutrient availability in the short term

S. Shepperd, A. Thomson, D. Beaumont, T. Misselbrook, H. Jones, C. Reynolds, M. Lukac, Dr. T õ nu T õ nutare, Dr. Krishna Bhandari
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引用次数: 0

Abstract

Abstract Agricultural intensification within forage systems has reduced grassland floral diversity by promoting ryegrass (Lolium spp.), damaging soil functionality which underpins critical ecosystem services. Diverse forage mixtures may enhance environmental benefits of pastures by decreasing nutrient leaching, increasing soil carbon storage, and with legume inclusion, reduce nitrogen fertilizer input. This UK study reports on how species-rich forage mixtures affect soil carbon, phosphorus, and nitrogen at dry, medium and wet soil moisture sites, compared to ryegrass monoculture. Increasing forage mixture diversity (from 1 to 17 species) affected soil carbon at the dry site. No effect of forage mixture on soil phosphorus was found, while forage mixture and site did interact to affect soil nitrate/nitrite availability. Results suggest that forage mixtures could be used to improve soil function, but longer-term studies are needed to conclusively demonstrate environmental and production benefits of high-diversity forages.
草料混合类型与土壤水分相互作用,短期内影响土壤养分有效性
牧草系统内的农业集约化通过促进黑麦草(Lolium spp.)减少了草地植物多样性,破坏了支撑关键生态系统服务的土壤功能。不同的牧草混合可以减少养分淋失,增加土壤碳储量,并通过豆类夹杂物减少氮肥投入,从而提高牧场的环境效益。这项英国研究报告了与黑麦草单一栽培相比,富含物种的牧草混合如何影响干、中、湿土壤湿度点的土壤碳、磷和氮。增加牧草混合多样性(从1种增加到17种)对旱地土壤碳有影响。混合饲草对土壤磷没有影响,而混合饲草与立地之间存在交互作用,影响土壤硝态氮/亚硝酸盐有效性。结果表明,混合饲料可以改善土壤功能,但需要更长期的研究来最终证明高多样性饲料的环境和生产效益。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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