Multiyear productivity and nitrate-nitrogen loss from corn and prairie bioenergy cropping systems

IF 2 3区 农林科学 Q2 AGRONOMY Agronomy Journal Pub Date : 2024-10-17 DOI:10.1002/agj2.21713
Matt Liebman, Matthew J. Helmers
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Abstract

Though corn (Zea mays L.) and soybean [Glycine max (L.) Merr.] are widely grown and readily accepted into commodity markets and biofuel facilities, heavy reliance on seeds of those two crops for bioenergy production has been linked to environmental degradation, including nutrient discharge to water, and to constraints on food production. Alternative biofuel feedstock systems might better address this “food–energy–environment trilemma.” Using data from a 9-ha field experiment in Iowa, we evaluated yields from a 14-year period for four bioenergy feedstock systems: stover harvested from corn grown with and without an unharvested rye cover crop, and prairie vegetation grown with and without fertilizer. We also assessed sub-surface drainage flows and NO3-N concentrations and discharges in leachate from those cropping systems. The continuous corn systems produced mean grain yields of 11.0–11.5 Mg ha−1 year−1, while also yielding about 4 Mg ha−1 year−1 of stover. Mean harvested biomass from the fertilized prairie was 83% greater than from the unfertilized prairie and was superior to stover production in the two corn treatments in 11 out of 14 years. Nitrate-N losses in drainage water from the corn systems averaged 12–14 kg NO3-N ha−1 year−1, whereas both the fertilized and unfertilized prairie systems almost eliminated NO3-N loss. Cover cropping with rye reduced NO3-N loss in only one out of 13 years and had variable effects on corn yield. Adoption of prairie-based biofuel systems might be driven by placing perennial feedstocks on environmentally sensitive sub-field areas and by government policies that favor perennial feedstocks over annual crops like corn.

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玉米和草原生物能源种植系统的多年生产率和硝态氮损失
虽然玉米(Zea mays L.)和大豆(Glycine max (L.) Merr.)被广泛种植,并很容易被商品市场和生物燃料设施所接受,但严重依赖这两种作物的种子进行生物能源生产却与环境退化(包括向水中排放营养物质)和粮食生产受限有关。替代性生物燃料原料系统可能会更好地解决这一 "粮食-能源-环境三难问题"。利用爱荷华州一个 9 公顷田间试验的数据,我们评估了四种生物能源原料系统 14 年的产量:玉米秸秆收割后与未收割黑麦覆盖作物一起种植和未收割黑麦覆盖作物一起种植,以及草原植被种植后与施肥后一起种植。我们还评估了这些种植系统的地表下排水流量以及渗滤液中的 NO3-N 浓度和排放量。连作玉米种植系统的平均谷物产量为 11.0-11.5 兆克/公顷-年-1,秸秆产量约为 4 兆克/公顷-年-1。施肥草原的平均收获生物量比未施肥草原高 83%,在 14 年中的 11 年里,施肥草原的秸秆产量高于两种玉米处理的秸秆产量。玉米系统排水中的硝态氮损失平均为每年 12-14 千克 NO3-N(公顷-1),而施肥和未施肥草原系统几乎消除了 NO3-N 的损失。黑麦覆盖种植在 13 年中只有一年减少了 NO3-N 的流失,而且对玉米产量的影响也不尽相同。将多年生原料置于环境敏感的次田区域,以及政府政策倾向于采用多年生原料而非玉米等一年生作物,可能会推动采用以草原为基础的生物燃料系统。
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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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Issue Information Weed management in organic dryland wheat production in the Pacific Northwest Soil health benefits of compost persist two decades after single application to winter wheat Deriving general principles of agroecosystem multifunctionality with the Diverse Rotations Improve Valuable Ecosystem Services (DRIVES) network Multiyear productivity and nitrate-nitrogen loss from corn and prairie bioenergy cropping systems
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