Biomass Production of an Overwinter Cover Crop with Biofumigation Properties in New Mexico

IF 1 4区农林科学 Q3 HORTICULTURE

Horttechnology Pub Date : 2022-12-01 DOI:10.21273/horttech05084-22

Asmita Nagila, S. Sanogo, O. Idowu, B. Schutte

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引用次数: 0

Abstract

Soil-borne diseases and weeds can be inhibited by mustard family (Brassicaceae) cover crops that are mowed and incorporated into the soil with tillage—a process referred to as biofumigation. To determine whether a fall-seeded mustard cover crop produces enough biomass to be a biofumigant in spring, this study measured the amount of biomass produced by a mixture of ‘Caliente Rojo’ brown mustard (Brassica juncea) and ‘Nemat’ arugula (Eruca sativa) grown in three commercial fields and a university research farm in southern New Mexico, USA. This study also determined whether the mustard biomass incorporated in the soil inhibits a weed [Palmer amaranth (Amaranthus palmeri)], but does not affect a cash crop adversely [chile pepper (Capsicum annuum)]. Results indicated that, if the mustard cover crop was seeded before the first frost in fall, mustard cover crops produced biomass in quantities sufficient for biofumigation in spring. Mustard biomass incorporated in the soil reduced the survival and germination of Palmer amaranth seeds. Under greenhouse conditions, chile pepper plants grown in soil with mustard cover crop biomass were larger than chile plants grown in soil without mustard biomass. Chile pepper plants in soil with mustard biomass did not show symptoms of Verticillium wilt (Verticillium dahliae), whereas such symptoms were found on about 33% of chile pepper plants in soil without mustard biomass. These results suggest that a fall-seeded mustard cover crop that is tilled into the soil in early spring is a potential pest management technique for chile pepper in New Mexico.

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新墨西哥州一种具有生物灌溉特性的覆盖作物的生物量生产

芥菜科（Brassicaceae）覆盖的作物可以通过修剪并通过耕作融入土壤来抑制土壤传播的疾病和杂草，这一过程被称为生物灌溉。为了确定秋季播种的芥菜覆盖作物是否能产生足够的生物量，使其在春季成为生物肥料，本研究测量了在美国新墨西哥州南部的三块商业田地和一个大学研究农场种植的“Caliente Rojo”棕色芥菜（芥菜）和“Nemat”芝麻菜（Eruca sativa）的混合物产生的生物量。这项研究还确定了土壤中的芥子生物量是否会抑制杂草[Palmer amaranth（Amaranthus palmeri）]，但不会对经济作物[chile pepper（Capsicum annuum）]产生不利影响。结果表明，如果芥菜覆盖作物在秋季第一次霜冻之前播种，芥菜覆盖农作物产生的生物量足以在春季进行生物灌溉。土壤中加入的芥末生物量降低了帕尔默苋种子的存活和发芽率。在温室条件下，生长在有芥菜覆盖作物生物量的土壤中的辣椒植株比生长在没有芥菜生物量的土地上的辣椒植株大。在含有芥末生物量的土壤中，智利辣椒植株没有表现出黄萎病（大丽花黄萎病）的症状，而在没有芥末生物量土壤中，约33%的智利辣椒植株出现了这种症状。这些结果表明，早春播种的秋种芥菜覆盖作物是新墨西哥州辣椒的一种潜在害虫管理技术。

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来源期刊

Horttechnology 农林科学-园艺

CiteScore

2.30

自引率

10.00%

发文量

审稿时长

3 months

期刊介绍： HortTechnology serves as the primary outreach publication of the American Society for Horticultural Science. Its mission is to provide science-based information to professional horticulturists, practitioners, and educators; promote and encourage an interchange of ideas among scientists, educators, and professionals working in horticulture; and provide an opportunity for peer review of practical horticultural information.