Precision management influences productivity and nutrients availability in dryland cropping system

IF 2 3区 农林科学 Q2 AGRONOMY Agronomy Journal Pub Date : 2024-09-09 DOI:10.1002/agj2.21686
Maysoon M. Mikha, Kyle R. Mankin, Shahbaz B. Khan, David M. Barnard
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Abstract

Precision management (PM) aims to reduce inputs while increasing land productivity and economical return and enhancing cropping system resiliency to climate change. This study evaluated how climate (precipitation) and management influenced yields and soil nutrients in a dryland agricultural system. We compared an “aspirational” (ASP) system (no-till, 4-year rotation of winter wheat [Triticum aestivum L.], corn [Zea mays L.], proso millet [Panicum miliaceum L.], and fallow/flex) to a traditional “business-as-usual” (BAU) system (reduced tillage, 2-year rotation of winter wheat and fallow: W–F). Phases of each rotation were included yearly throughout the study period (2018–2022) with three replications. The ASP system incorporated PM by dividing each ASP field into three zones (high-, medium-, and low-PM) according to prior yield and topography. Nitrogen was applied at high, medium, or low application rates within those zones. Under favorable precipitation, wheat, corn, and millet yields responded to PM treatments, with yields increasing proportional to N addition. Years with low in-season precipitation had a significant reduction in wheat and corn yields (2020 and 2022) and complete millet yield failures (2020 and 2021). Low soil organic matter accumulation (0.1%–0.5%) and a reduction in soil macro- and micronutrient status suggested that soil nutrient additions are needed to prevent soil-nutrient degradation. The ASP treatment added a third crop every 4 years and did so without significantly decreasing wheat yield following fallow. The ASP management shows promise as an alternative to BAU in the Great Plains dryland production region.

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精确管理影响旱地耕作系统的生产力和养分供应
精确管理(PM)旨在减少投入,同时提高土地生产力和经济收益,并增强耕作系统对气候变化的适应能力。本研究评估了气候(降水)和管理如何影响旱地农业系统的产量和土壤养分。我们比较了 "理想"(ASP)系统(免耕,冬小麦[Triticum aestivum L.]、玉米[Zea mays L.]、粟[Panicum miliaceum L.]和休耕/弹性种植的 4 年轮作)和传统的 "一切照旧"(BAU)系统(减少耕作,冬小麦和休耕的 2 年轮作:W-F)。在整个研究期间(2018-2022 年),每个轮作阶段每年进行三次重复。ASP 系统根据先前的产量和地形将每块 ASP 田划分为三个区域(高、中、低 PM),从而将 PM 纳入其中。在这些区域内以高、中、低施氮率施氮。在有利的降水条件下,小麦、玉米和小米的产量对 PM 处理做出了反应,产量的增加与氮的添加成正比。在季节性降水较少的年份,小麦和玉米产量显著下降(2020 年和 2022 年),小米完全歉收(2020 年和 2021 年)。土壤有机质积累低(0.1%-0.5%)以及土壤宏量和微量元素状况下降表明,需要添加土壤养分以防止土壤养分退化。ASP 处理每 4 年增加一次第三茬作物,并且不会显著降低休耕后的小麦产量。在大平原旱地生产地区,ASP 管理法有望成为 BAU 的替代方法。
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来源期刊
Agronomy Journal
Agronomy Journal 农林科学-农艺学
CiteScore
4.70
自引率
9.50%
发文量
265
审稿时长
4.8 months
期刊介绍: After critical review and approval by the editorial board, AJ publishes articles reporting research findings in soil–plant relationships; crop science; soil science; biometry; crop, soil, pasture, and range management; crop, forage, and pasture production and utilization; turfgrass; agroclimatology; agronomic models; integrated pest management; integrated agricultural systems; and various aspects of entomology, weed science, animal science, plant pathology, and agricultural economics as applied to production agriculture. Notes are published about apparatus, observations, and experimental techniques. Observations usually are limited to studies and reports of unrepeatable phenomena or other unique circumstances. Review and interpretation papers are also published, subject to standard review. Contributions to the Forum section deal with current agronomic issues and questions in brief, thought-provoking form. Such papers are reviewed by the editor in consultation with the editorial board.
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