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Relevance of environmental impact categories for perennial biomass production
Author(s) -
Wagner Moritz,
Lewandowski Iris
Publication year - 2017
Publication title -
gcb bioenergy
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.378
H-Index - 63
eISSN - 1757-1707
pISSN - 1757-1693
DOI - 10.1111/gcbb.12372
Subject(s) - miscanthus , perennial plant , life cycle assessment , environmental science , environmental impact assessment , biomass (ecology) , energy crop , short rotation coppice , willow , greenhouse gas , bioenergy , short rotation forestry , fossil fuel , agronomy , agroforestry , biofuel , production (economics) , ecology , biology , economics , macroeconomics
Abstract The decarbonization of the economy will require large quantities of biomass for energy and biomaterials. This biomass should be produced in sufficient quantities and in a sustainable way. Perennial crops in particular are often cited in this context as having low environmental impacts. One example of such crops is miscanthus, a tall perennial rhizomatous C4 grass with high yield potential. There are many studies which have assessed the global warming potential ( GWP ) of miscanthus cultivation. This is an important impact category which can be used to quantify the environmental benefit of perennial crops. However, the GWP only describes one impact of many. Therefore, the hypothesis of this study was that a holistic assessment also needs to include other impact categories. A life cycle assessment ( LCA ) with a normalization step was conducted for perennial crops to identify relevant impact categories. This assessed the environmental impact of both miscanthus and willow cultivation and the subsequent combustion for heat production in eighteen categories using a system expansion approach. This approach enables the inclusion of fossil reference system hot spots and thus the evaluation of the net benefits and impacts of perennial crops. The normalized results clearly show the benefits of the substitution of fossil fuels by miscanthus or willow biomass in several impact categories (e.g. for miscanthus: climate change −303.47 kg CO 2 eq./ MW h th ; terrestrial acidification: −0.22 kg SO 2 eq./ MW h th ). Negative impacts however occur, for example, in the impact categories marine ecotoxicity and human toxicity (e.g. for miscanthus: +1.20 kg 1.4‐ DB eq./ MW h th and +68.00 kg 1.4‐ DB eq./ MW h th, respectively). The results of this study clearly demonstrate the necessity of including more impact categories than the GWP in order to be able to assess the net benefits and impacts of the cultivation and utilization of perennial plants holistically.

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