High temperatures and low soil moisture synergistically reduce switchgrass yields from marginal field sites and inhibit fermentation

IF 5.9 3区 工程技术 Q1 AGRONOMY Global Change Biology Bioenergy Pub Date : 2024-01-12 DOI:10.1111/gcbb.13119
Sarvada Chipkar, Kevin Kahmark, Sven Bohm, Mir Zaman Hussain, Leela Joshi, Karleigh M. Krieg, Jacob Aguado, Jasmine Cassidy, Pablo Lozano, Kevin Garland, Andrea Senyk, Derek J. Debrauske, Elizabeth Whelan, Morgan Davies, Paul Urban, G. Philip Robertson, Trey K. Sato, Stephen K. Hamilton, Kurt D. Thelen, Rebecca G. Ong
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Abstract

‘Marginal lands’ are low productivity sites abandoned from agriculture for reasons such as low or high soil water content, challenging topography, or nutrient deficiency. To avoid competition with crop production, cellulosic bioenergy crops have been proposed for cultivation on marginal lands, however on these sites they may be more strongly affected by environmental stresses such as low soil water content. In this study we used rainout shelters to induce low soil moisture on marginal lands and determine the effect of soil water stress on switchgrass growth and the subsequent production of bioethanol. Five marginal land sites that span a latitudinal gradient in Michigan and Wisconsin were planted to switchgrass in 2013 and during the 2018–2021 growing seasons were exposed to reduced precipitation under rainout shelters in comparison to ambient precipitation. The effect of reduced precipitation was related to the environmental conditions at each site and biofuel production metrics (switchgrass biomass yields and composition and ethanol production). During the first year (2018), the rainout shelters were designed with 60% rain exclusion, which did not affect biomass yields compared to ambient conditions at any of the field sites, but decreased switchgrass fermentability at the Wisconsin Central–Hancock site. In subsequent years, the shelters were redesigned to fully exclude rainfall, which led to reduced biomass yields and inhibited fermentation for three sites. When switchgrass was grown in soils with large reductions in moisture and increases in temperature, the potential for biofuel production was significantly reduced, exposing some of the challenges associated with producing biofuels from lignocellulosic biomass grown under drought conditions.

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高温和土壤湿度低会协同降低边缘田地的开关草产量并抑制发酵
边际土地 "是指由于土壤含水量低或高、地形复杂或养分缺乏等原因而被农业废弃的低生产力土地。为了避免与农作物生产竞争,纤维素生物能源作物被建议在边缘土地上种植,但在这些土地上,纤维素生物能源作物可能会受到土壤含水量低等环境压力的更大影响。在这项研究中,我们利用避雨棚诱导贫瘠土地上的低土壤水分,并确定土壤水分胁迫对开关草生长及随后生物乙醇生产的影响。密歇根州和威斯康星州纬度梯度的五个边缘土地于 2013 年种植了开关草,在 2018-2021 年的生长季节,与环境降水量相比,在避雨棚下的降水量有所减少。降水减少的影响与每个地点的环境条件和生物燃料生产指标(开关草生物质产量和组成以及乙醇产量)有关。在第一年(2018 年),防雨罩的设计具有 60% 的防雨能力,与任何实地地点的环境条件相比,这都不会影响生物质产量,但会降低威斯康星州中部-汉考克地点的开关草发酵性。在随后的几年中,对遮雨棚进行了重新设计,将降雨完全排除在外,这导致三个地点的生物质产量下降,并抑制了发酵。当开关草生长在水分大幅减少、温度大幅升高的土壤中时,生物燃料的生产潜力大大降低,这暴露了在干旱条件下利用木质纤维素生物质生产生物燃料所面临的一些挑战。
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来源期刊
Global Change Biology Bioenergy
Global Change Biology Bioenergy AGRONOMY-ENERGY & FUELS
CiteScore
10.30
自引率
7.10%
发文量
96
审稿时长
1.5 months
期刊介绍: GCB Bioenergy is an international journal publishing original research papers, review articles and commentaries that promote understanding of the interface between biological and environmental sciences and the production of fuels directly from plants, algae and waste. The scope of the journal extends to areas outside of biology to policy forum, socioeconomic analyses, technoeconomic analyses and systems analysis. Papers do not need a global change component for consideration for publication, it is viewed as implicit that most bioenergy will be beneficial in avoiding at least a part of the fossil fuel energy that would otherwise be used. Key areas covered by the journal: Bioenergy feedstock and bio-oil production: energy crops and algae their management,, genomics, genetic improvements, planting, harvesting, storage, transportation, integrated logistics, production modeling, composition and its modification, pests, diseases and weeds of feedstocks. Manuscripts concerning alternative energy based on biological mimicry are also encouraged (e.g. artificial photosynthesis). Biological Residues/Co-products: from agricultural production, forestry and plantations (stover, sugar, bio-plastics, etc.), algae processing industries, and municipal sources (MSW). Bioenergy and the Environment: ecosystem services, carbon mitigation, land use change, life cycle assessment, energy and greenhouse gas balances, water use, water quality, assessment of sustainability, and biodiversity issues. Bioenergy Socioeconomics: examining the economic viability or social acceptability of crops, crops systems and their processing, including genetically modified organisms [GMOs], health impacts of bioenergy systems. Bioenergy Policy: legislative developments affecting biofuels and bioenergy. Bioenergy Systems Analysis: examining biological developments in a whole systems context.
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