Can nitrogen in fall-planted legume cover crops be credited to maize?

IF 2.2 4区农林科学 Q2 ECOLOGY

Journal of Soil and Water Conservation Pub Date : 2024-03-01 DOI:10.2489/jswc.2024.00048

S. Cabello-Leiva, M.T. Berti, D.W. Franzen, L. Cihacek, T. Peters, D. Samarappuli

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引用次数: 0

Abstract

Conventional tillage after wheat ( Triticum aestivum L.) results in poor winter soil coverage, negatively affecting long-term soil health. Cover crops and no-tillage provide soil coverage, reducing soil erosion, and nitrate (NO3-N) leaching potential. The objective of this study was to evaluate maize ( Zea mays L.) grain yield response and grain quality due to cover crops preceding maize. The experiment was organized as a randomized complete block design (RCBD) with a split-plot arrangement. The experiments were conducted under transitional no-till at Prosper and Hickson, North Dakota, from 2017 to 2019. Forage pea ( Pisum sativum L.), faba bean ( Vicia faba Roth), and winter camelina ( Camelina sativa [L.] Crantz) were established into spring wheat stubble in August of 2017 and 2018. A check treatment with no cover crop was included. Cover crop fall biomass production and nitrogen (N) accumulation in plant tissue averaged across locations were 1.59 Mg ha−1 and 67.7 kg ha−1, respectively. Winter camelina survived the winters and accumulated biomass in the spring, resulting in significantly higher biomass (3.3 Mg ha−1) than the previous fall biomass. Winter camelina decreased spring water content in Prosper and Hickson in 2018, affecting maize seedling growth because of early competition. Soil NO3-N was not different among treatments. Maize was planted into the residue of fall-planted cover crops. Nitrogen rates of 0, 40, 80, and 160 kg N ha−1 were applied immediately after planting as urea. Maize grain yield increased with higher N rates and was significantly higher when grown in plots that had faba bean (9.7 Mg ha−1), forage pea (10.1 Mg ha−1), and the no-cover crop check (9.8 Mg ha−1), than those that had winter camelina (8.6 Mg ha−1). Leguminous cover crops resulted in a slight increase in maize grain yield compared with plots without cover crops. However, this increase did not reach statistical significance. To understand this response and the potential benefits of cover crops in maize cultivation, further research is needed, with varying seasonal weather conditions.

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秋季种植的豆科覆盖作物中的氮是否可以掺入玉米中？

小麦（Triticum aestivum L.）收获后的传统耕作会导致冬季土壤覆盖率低，对土壤的长期健康产生不利影响。覆盖作物和免耕可提供土壤覆盖，减少土壤侵蚀和硝酸盐（NO3-N）沥滤潜力。本研究的目的是评估玉米（Zea mays L.）谷物产量和谷物质量对玉米前覆盖作物的响应。试验采用随机完全区组设计（RCBD），分块排列。实验于 2017 年至 2019 年在北达科他州普罗斯珀和希克森的过渡免耕条件下进行。2017 年和 2018 年 8 月，在春小麦茬中种植了饲用豌豆（Pisum sativum L.）、蚕豆（Vicia faba Roth）和冬荠菜（Camelina sativa [L.] Crantz）。其中还包括不种植覆盖作物的对照处理。各地平均的覆盖作物秋季生物量产量和植物组织中氮（N）积累量分别为 1.59 兆克/公顷-1 和 67.7 千克/公顷-1。冬季荠菜经受住了冬季的考验，并在春季积累了生物量，其生物量（3.3 兆克/公顷-1）明显高于之前的秋季生物量。2018 年，冬荠菜降低了普罗斯珀和希克森的春季含水量，由于早期竞争，影响了玉米幼苗的生长。各处理之间的土壤 NO3-N 没有差异。玉米种植在秋季种植的覆盖作物的残留物中。播种后立即施用 0、40、80 和 160 kg N ha-1 的尿素。玉米籽粒产量随氮肥施用量的增加而增加，在种植蚕豆（9.7 兆克/公顷-1）、饲用豌豆（10.1 兆克/公顷-1）和无覆盖作物对照（9.8 兆克/公顷-1）的地块中，玉米籽粒产量明显高于种植冬荠菜（8.6 兆克/公顷-1）的地块。与没有覆盖作物的地块相比，豆科覆盖作物使玉米籽粒产量略有增加。不过，这种增加并没有达到统计学意义。要了解这一反应以及覆盖作物在玉米种植中的潜在效益，还需要在不同季节的天气条件下开展进一步的研究。

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 Soil and Water Conservation 农林科学-生态学

CiteScore

4.10

自引率

2.60%

发文量

审稿时长

3.3 months

期刊介绍： The Journal of Soil and Water Conservation (JSWC) is a multidisciplinary journal of natural resource conservation research, practice, policy, and perspectives. The journal has two sections: the A Section containing various departments and features, and the Research Section containing peer-reviewed research papers.