Fine-tuning fertilizer applications in organic cool-season leafy green crops can increase soil quality and yields

IF 1.2 4区农林科学 Q2 AGRICULTURE, MULTIDISCIPLINARY

California Agriculture Pub Date : 2022-10-01 DOI:10.3733/ca.2022a0010

Richard F. Smith, M. Cahn, T. Hartz, D. Geisseler, Patricia Love

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Abstract

Organic cool-season vegetable growers on the Central Coast face challenges in applying nitrogen (N) to balance yields with new environmental regulations. It is hard to time fertilizer applications while calculating N mineralization of soil organic matter and organic fertilizers to plant-available N. Organic fertilizers with high phosphorus (P) to N ratios may elevate P levels and harm surface water quality. In this study, we evaluated (1) mineralization of soil organic matter and fertilizers, (2) effectiveness of residual soil nitrate-N tests and (3) long-term impacts of organic fertilizers on P levels and soil microbial activity. We found that mineralization of N from soil organic matter provided limited N to leafy green vegetables. Soil tests were more reliable in heavier than sandier soils. Application rates of 4-4-2 were calculated to meet N demands, resulting in an oversupply of P. However, only 9% to 17% of fertilizer P solubilized without elevating available soil P levels. While it's difficult for organic vegetable growers to use cover crops, organic fertilizers increased carbon levels, resulting in higher levels of soil microbial activity.

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在有机冷季叶绿作物中微调施肥可以提高土壤质量和产量

中央海岸的有机冷季蔬菜种植者在应用氮以平衡产量和新的环境法规方面面临挑战。在计算土壤有机质和有机肥料的氮矿化度时，很难确定施肥时间来种植有效氮。高磷氮比的有机肥料可能会提高磷水平，损害地表水质量。在本研究中，我们评估了（1）土壤有机质和肥料的矿化，（2）残留土壤硝态氮测试的有效性，以及（3）有机肥料对磷水平和土壤微生物活性的长期影响。我们发现，土壤有机质中的氮矿化为叶绿蔬菜提供了有限的氮。土壤测试在比沙质土壤更重的土壤中更可靠。计算4-4-2的施用量以满足氮需求，导致磷供应过剩。然而，只有9%至17%的肥料磷溶解，而没有提高土壤有效磷水平。虽然有机蔬菜种植者很难使用覆盖作物，但有机肥料增加了碳含量，导致土壤微生物活性水平更高。

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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