A comprehensive lifecycle assessment of plastic mulching for maize

IF 1 Q4 ENGINEERING, ENVIRONMENTAL
Zahraa Al-Dawood, Bushra Tatan, Ruba El Mootassem, M. Mortula
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引用次数: 0

Abstract

While plastic mulch (PM) can increase crop yield and reduce weed growth, there are negative environmental impacts associated with the production, use, and disposal of PM films. There is currently a gap in the literature on the negative impacts of PM throughout its entire lifecycles, with most studies limited to investigating the global warming potential (GWP) of the practice during field operations. The objective of this study is to conduct a comprehensive life cycle assessment (LCA) for low density polyethylene PM for maize to investigate the environmental impacts of all stages of mulching. The LCA was conducted using SimaPro with data obtained from relevant literature and from the Ecoinvent database. The system boundaries include the production, transportation, installation, operation, removal, and disposal of the PM. The results reveal that the field operation of the PM has the highest impact in GWP. A sensitivity analysis was conducted to assess the effect of parameter variability for the field operations stage, and the GWP impact was observed to be sensitive to changes in carbon dioxide and net ecosystem carbon budget. The production of PM has the highest impact in abiotic depletion, but this impact can be reduced through energy recovery. Incineration yields the least harmful impacts, but the results of the study may vary depending on the exact disposal method. More data on the disposal of PM is needed to assess its impacts reliably and reduce uncertainties in the results. The impact of PM can be mitigated through proper waste management and mitigation measures, including regulations on disposal.
对玉米塑料覆盖物生命周期的全面评估
虽然塑料地膜(PM)可以提高作物产量并减少杂草生长,但其生产、使用和处置也会对环境造成负面影响。目前,关于塑料薄膜在其整个生命周期中的负面影响的文献尚属空白,大多数研究仅限于调查这种做法在田间作业时的全球升温潜能值(GWP)。本研究的目的是对玉米用低密度聚乙烯可湿性粉剂进行全面的生命周期评估(LCA),以调查地膜覆盖所有阶段对环境的影响。生命周期评估使用 SimaPro 进行,数据来自相关文献和 Ecoinvent 数据库。系统边界包括聚苯乙烯可湿性粉剂的生产、运输、安装、运行、清除和处置。结果显示,可吸入颗粒物的现场操作对全球升温潜能值的影响最大。为评估现场操作阶段参数变化的影响,进行了敏感性分析,观察到 GWP 影响对二氧化碳和生态系统净碳预算的变化非常敏感。可吸入颗粒物的生产对非生物损耗的影响最大,但可通过能量回收减少这种影响。焚烧产生的有害影响最小,但研究结果可能因具体的处置方法而异。要可靠地评估可吸入颗粒物的影响并减少结果的不确定性,还需要更多有关可吸入颗粒物处置的数据。可吸入颗粒物的影响可以通过适当的废物管理和缓解措施(包括处置法规)来减轻。
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来源期刊
CiteScore
1.60
自引率
0.00%
发文量
20
审稿时长
12 months
期刊介绍: Journal of Environmental Engineering and Science is an international, peer-reviewed publication providing a forum for the dissemination of environmental research, encouraging interdisciplinary research collaboration to address environmental problems. It addresses all aspects of environmental engineering and applied environmental science, with the exception of noise, radiation and light.
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