利用综合能源和农业市场解决方案探索美国玉米纤维素生物燃料方案。

E J Cooter, R Dodder, J Bash, A Elobeid, L Ran, V Benson, D Yang
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摘要

美国的生物燃料原料生产是一个新出现的环境养分管理问题,采用多尺度和多媒体系统建模方法,明确解决利益相关者的利益分歧,将有利于对这一问题的探索。在本分析中,能源和农业市场模型与基于过程的混合农业生产模型相结合,探讨了利用玉米谷物和秸秆原料增加生物燃料生产可能造成的环境后果。以 12 千米的网格分辨率模拟了美国大陆 20 种农作物的产量和耕地重新分配预测。我们的研究结果跨越多个空间扩展域,并将密西西比河上游流域(UMRB)的研究结果与之前的研究结果进行了比较。我们的分析强调了农业和作物科学在提供物理上可信的估算和产量增加的物理过程驱动因素方面继续发挥的关键作用,并表明虽然密西西比河上游流域在我们的假设情景下是农业变化最大的目标,但其反应并不一定反映了广泛利益相关者的利益。
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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Exploring a United States Maize Cellulose Biofuel Scenario Using an Integrated Energy and Agricultural Markets Solution Approach.

Biofuel feedstock production in the United States (US) is an emergent environmental nutrient management issue, whose exploration can benefit from a multi-scale and multimedia systems modeling approach that explicitly addresses diverging stakeholder interests. In the present analysis, energy and agricultural markets models and a hybrid process-based agricultural production model are integrated to explore the potential environmental consequences of increased biofuel production from maize grain and stover feedstocks. Yield and cropland reallocation projections are simulated for 20 agricultural crops at a 12km grid resolution across the continental United States. Our results are presented across multiple, spatially expanding domains, and our results for the Upper Mississippi River Basin (UMRB) are compared to previous studies. Our analysis highlights the critical continuing role of agricultural and crop science to provide physically plausible estimates and physical process drivers of yield increases, and suggests that while the UMRB is the target of the greatest agricultural changes under our scenarios, its response does not necessarily reflect the interests of a broad stakeholder community.

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