Fall-planted cover crops improve nitrogen use efficiency but reduce garlic yield in a relay intercropping system amended with arbuscular mycorrhizal fungi.

IF 3.5 2区农林科学 Q1 AGRICULTURE, MULTIDISCIPLINARY

Journal of the Science of Food and Agriculture Pub Date : 2025-09-26 DOI:10.1002/jsfa.70215

Alexandra Smychkovich, Masoud Hashemi

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引用次数: 0

Abstract

Background: Integrating fall-planted cover crops (CC) and arbuscular mycorrhizal (AM) fungi into hardneck garlic production can enhance the sustainability of garlic production in the northeast. We hypothesized that relay intercropping (RI) garlic into standing CC and inoculating with commercially available AM fungi would (i) influence garlic bulb yield and nutrient concentration as a result of increased nutrient retention in CC residues and (ii) enhance the nitrogen use efficiency (NUE) of garlic production by providing an alternative N source (decomposing CC residues) to garlic plants in spring.

Results: Garlic yield response to RI depended on CC fall biomass accumulation (2301-3696 kg ha^-1 dry weight in 2021, < 1500 kg ha^-1 in 2020). Interspecies competition between CC and garlic reduced bulb yield by 21-31% in RI treatments compared to the no cover crop control in 2021. Although bulb N, P, K and Mn assimilation was negatively impacted in the first year, nutrient concentrations were normalized in the second cropping season, suggesting that multiple years are necessary to improve garlic quality under a RI system. Garlic yield and nutritional quality were not significantly improved by AM fungi inoculation in this study. NUE was optimized under oat RI systems, which had the highest yields among RI treatments in the second year.

Conclusion: RI with CC can improve NUE of garlic production systems, but CC should be managed appropriately to avoid reductions in bulb yield. Multi-year implementation of RI balances nutrient assimilation by garlic, which was negatively impacted in the first year of production. © 2025 Society of Chemical Industry.

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在丛枝菌根真菌改良的间作体系中，秋种覆盖作物提高了氮素利用效率，但降低了大蒜产量。

背景：将秋种覆盖作物（CC）和丛枝菌根（AM）真菌整合到东北大蒜生产中，可以提高东北大蒜生产的可持续性。我们假设，将间作（RI）大蒜转化为直立的CC，并接种市场上可获得的AM真菌，将(i)影响大蒜的球茎产量和营养浓度，因为增加了CC残留物中的营养保留；（ii）通过在春季为大蒜植株提供替代氮源（分解CC残留物），提高大蒜生产的氮素利用效率（NUE）。结果：大蒜产量对RI的响应取决于CC秋季生物量积累（2021年干重2301-3696 kg ha-1, 2020年干重-1）。2021年，与无覆盖作物控制相比，RI处理的CC和大蒜的种间竞争使鳞茎产量降低了21-31%。尽管茎部氮、磷、钾和锰的同化在第一年受到负面影响，但养分浓度在第二种植季趋于正常化，这表明在RI系统下提高大蒜品质需要多年的时间。本研究中，接种AM真菌对大蒜产量和营养品质没有显著提高。氮肥利用效率在燕麦轮作制度下得到优化，第二年产量最高。结论：秸秆还田可提高大蒜生产系统的氮素利用效率，但应适当管理秸秆还田，避免降低大蒜鳞茎产量。多年实施RI平衡了大蒜的营养吸收，这在生产的第一年受到了负面影响。©2025化学工业协会。

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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来源期刊

Journal of the Science of Food and Agriculture 工程技术-农业综合

CiteScore

8.10

自引率

4.90%

发文量

634

审稿时长

3.1 months

期刊介绍： The Journal of the Science of Food and Agriculture publishes peer-reviewed original research, reviews, mini-reviews, perspectives and spotlights in these areas, with particular emphasis on interdisciplinary studies at the agriculture/ food interface. Published for SCI by John Wiley & Sons Ltd. SCI (Society of Chemical Industry) is a unique international forum where science meets business on independent, impartial ground. Anyone can join and current Members include consumers, business people, environmentalists, industrialists, farmers, and researchers. The Society offers a chance to share information between sectors as diverse as food and agriculture, pharmaceuticals, biotechnology, materials, chemicals, environmental science and safety. As well as organising educational events, SCI awards a number of prestigious honours and scholarships each year, publishes peer-reviewed journals, and provides Members with news from their sectors in the respected magazine, Chemistry & Industry . Originally established in London in 1881 and in New York in 1894, SCI is a registered charity with Members in over 70 countries.