Life Cycle Assessment of Biomass Production from Lignocellulosic Perennial Grasses under Changing Soil Nitrogen and Water Content in the Mediterranean Area

Life Cycle Assessment of Biomass Production from Lignocellulosic Perennial Grasses under Changing Soil Nitrogen and Water Content in the Mediterranean Area

Low iLUC risk feedstocks, such as lignocellulosic no-food crops, have been indicated as sustainable crops for the transition to a bio-based economy. Given the high output to input ratio and the environmental benefits that can be obtained from renewable heat production replacing fossil fuels, the pre...

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Main Authors: Danilo Scordia, Giuseppina Marina D’Agosta, Mariadaniela Mantineo, Giorgio Testa, Salvatore Luciano Cosentino
Format: Article
Language:English
Published: MDPI AG 2021-05-01
Series:Agronomy
Subjects:
miscanthus
giant reed
LCA
CO<sub>2</sub>-sequestration
environmental impact
Online Access:https://www.mdpi.com/2073-4395/11/5/988
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spelling doaj-965308fdd6b44852b8ada1fe791af7162021-06-01T00:10:07ZengMDPI AGAgronomy2073-43952021-05-011198898810.3390/agronomy11050988Life Cycle Assessment of Biomass Production from Lignocellulosic Perennial Grasses under Changing Soil Nitrogen and Water Content in the Mediterranean AreaDanilo Scordia0Giuseppina Marina D’Agosta1Mariadaniela Mantineo2Giorgio Testa3Salvatore Luciano Cosentino4Dipartimento di Agricoltura, Alimentazione e Ambiente (Di3A), University of Catania, via Valdisavoia 5, 95123 Catania, ItalyDipartimento di Agricoltura, Alimentazione e Ambiente (Di3A), University of Catania, via Valdisavoia 5, 95123 Catania, ItalyDipartimento di Agricoltura, Alimentazione e Ambiente (Di3A), University of Catania, via Valdisavoia 5, 95123 Catania, ItalyDipartimento di Agricoltura, Alimentazione e Ambiente (Di3A), University of Catania, via Valdisavoia 5, 95123 Catania, ItalyDipartimento di Agricoltura, Alimentazione e Ambiente (Di3A), University of Catania, via Valdisavoia 5, 95123 Catania, ItalyLow iLUC risk feedstocks, such as lignocellulosic no-food crops, have been indicated as sustainable crops for the transition to a bio-based economy. Given the high output to input ratio and the environmental benefits that can be obtained from renewable heat production replacing fossil fuels, the present study addressed the biomass yield, CO<sub>2</sub>-sequestration, and life cycle assessment of giant reed (<i>Arundo donax</i> L.) and miscanthus (<i>Miscanthus</i> × <i>giganteus</i> Greef et Deuter) growing under different soil water availability and nitrogen fertilization for three consecutive growing seasons in a semiarid Mediterranean environment. Giant reed outperformed miscanthus, showed a higher CO<sub>2</sub>-sequestration and a lower overall environmental impact. In case of both crops, the irrigation effect was significant, while the one of nitrogen fertilization was not apparent. While giant reed responded positively to reduced irrigation, compared to its highest level, as the plantation became older, miscanthus needed high water volume to get most out its potential yield. Nonetheless, the growing season had also a significant effect on both crops, mainly when low yields were achieved following the establishment year. Unlike the environmental benefits in the impact categories “non-renewable energy use” and “global warming potential”, environmental burdens concerning ozone depletion, acidification, and eutrophication were observed, indicating that further improvements of the evaluation of impact assessment associated with bioenergy production might be necessary.https://www.mdpi.com/2073-4395/11/5/988miscanthusgiant reedLCACO<sub>2</sub>-sequestrationenvironmental impact
collection DOAJ
language English
format Article
sources DOAJ
author Danilo Scordia
Giuseppina Marina D’Agosta
Mariadaniela Mantineo
Giorgio Testa
Salvatore Luciano Cosentino
spellingShingle Danilo Scordia
Giuseppina Marina D’Agosta
Mariadaniela Mantineo
Giorgio Testa
Salvatore Luciano Cosentino
Life Cycle Assessment of Biomass Production from Lignocellulosic Perennial Grasses under Changing Soil Nitrogen and Water Content in the Mediterranean Area
Agronomy
miscanthus
giant reed
LCA
CO<sub>2</sub>-sequestration
environmental impact
author_facet Danilo Scordia
Giuseppina Marina D’Agosta
Mariadaniela Mantineo
Giorgio Testa
Salvatore Luciano Cosentino
author_sort Danilo Scordia
title Life Cycle Assessment of Biomass Production from Lignocellulosic Perennial Grasses under Changing Soil Nitrogen and Water Content in the Mediterranean Area
title_short Life Cycle Assessment of Biomass Production from Lignocellulosic Perennial Grasses under Changing Soil Nitrogen and Water Content in the Mediterranean Area
title_full Life Cycle Assessment of Biomass Production from Lignocellulosic Perennial Grasses under Changing Soil Nitrogen and Water Content in the Mediterranean Area
title_fullStr Life Cycle Assessment of Biomass Production from Lignocellulosic Perennial Grasses under Changing Soil Nitrogen and Water Content in the Mediterranean Area
title_full_unstemmed Life Cycle Assessment of Biomass Production from Lignocellulosic Perennial Grasses under Changing Soil Nitrogen and Water Content in the Mediterranean Area
title_sort life cycle assessment of biomass production from lignocellulosic perennial grasses under changing soil nitrogen and water content in the mediterranean area
publisher MDPI AG
series Agronomy
issn 2073-4395
publishDate 2021-05-01
description Low iLUC risk feedstocks, such as lignocellulosic no-food crops, have been indicated as sustainable crops for the transition to a bio-based economy. Given the high output to input ratio and the environmental benefits that can be obtained from renewable heat production replacing fossil fuels, the present study addressed the biomass yield, CO<sub>2</sub>-sequestration, and life cycle assessment of giant reed (<i>Arundo donax</i> L.) and miscanthus (<i>Miscanthus</i> × <i>giganteus</i> Greef et Deuter) growing under different soil water availability and nitrogen fertilization for three consecutive growing seasons in a semiarid Mediterranean environment. Giant reed outperformed miscanthus, showed a higher CO<sub>2</sub>-sequestration and a lower overall environmental impact. In case of both crops, the irrigation effect was significant, while the one of nitrogen fertilization was not apparent. While giant reed responded positively to reduced irrigation, compared to its highest level, as the plantation became older, miscanthus needed high water volume to get most out its potential yield. Nonetheless, the growing season had also a significant effect on both crops, mainly when low yields were achieved following the establishment year. Unlike the environmental benefits in the impact categories “non-renewable energy use” and “global warming potential”, environmental burdens concerning ozone depletion, acidification, and eutrophication were observed, indicating that further improvements of the evaluation of impact assessment associated with bioenergy production might be necessary.
topic miscanthus
giant reed
LCA
CO<sub>2</sub>-sequestration
environmental impact
url https://www.mdpi.com/2073-4395/11/5/988
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