dc.contributor.author |
Russo, Valentina
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dc.contributor.author |
Strever, AE
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dc.contributor.author |
Ponstein, HJ
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dc.date.accessioned |
2021-05-25T17:44:58Z |
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dc.date.available |
2021-05-25T17:44:58Z |
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dc.date.issued |
2021-04 |
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dc.identifier.citation |
Russo, V., Strever, A. & Ponstein, H. 2021. Exploring sustainability potentials in vineyards through LCA? Evidence from farming practices in South Africa. <i>The International Journal of Life Cycle Assessment, 225.</i> http://hdl.handle.net/10204/12021 |
en_ZA |
dc.identifier.issn |
0948-3349 |
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dc.identifier.issn |
1614-7502 |
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dc.identifier.uri |
https://doi.org/10.1007/s11367-021-01911-3
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dc.identifier.uri |
http://hdl.handle.net/10204/12021
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dc.description.abstract |
Following the urgency to curb environmental impacts across all sectors globally, this is the frst life cycle assessment of diferent wine grape farming practices suitable for commercial conventional production in South Africa, aiming at better understanding the potentials to reduce adverse efects on the environment and on human health. Methods An attributional life cycle assessment was conducted on eight diferent scenarios that reduce the inputs of herbicides and insecticides compared against a business as usual (BAU) scenario. We assess several impact categories based on ReCiPe, namely global warming potential, terrestrial acidifcation, freshwater eutrophication, terrestrial toxicity, freshwater toxicity, marine toxicity, human carcinogenic toxicity and human non-carcinogenic toxicity, human health and ecosystems. A water footprint assessment based on the AWARE method accounts for potential impacts within the watershed. Results and discussion Results show that in our impact assessment, more sustainable farming practices do not always outperform the BAU scenario, which relies on synthetic fertiliser and agrochemicals. As a main trend, most of the impact categories were dominated by energy requirements of wine grape production in an irrigated vineyard, namely the usage of electricity for irrigation pumps and diesel for agricultural machinery. The most favourable scenario across the impact categories provided a low diesel usage, strongly reduced herbicides and the absence of insecticides as it applied cover crops and an integrated pest management. Pesticides and heavy metals contained in agrochemicals are the main contributors to emissions to soil that afected the toxicity categories and impose a risk on human health, which is particularly relevant for the manual labour-intensive South African wine sector. However, we suggest that impacts of agrochemicals on human health and the environment are undervalued in the assessment. The 70% reduction of toxic agrochemicals such as Glyphosate and Paraquat and the 100% reduction of Chlorpyriphos in vineyards hardly afected the model results for human and ecotoxicity. Our concerns are magnifed by the fact that manual labour plays a substantial role in South African vineyards, increasing the exposure of humans to these toxic chemicals at their workplace. Conclusions A more sustainable wine grape production is possible when shifting to integrated grape production practices that reduce the inputs of agrochemicals. Further, improved water and related electricity management through drip irrigation, defcit irrigation and photovoltaic-powered irrigation is recommendable, relieving stress on local water bodies, enhancing drought-preparedness planning and curbing CO2 emissions embodied in products. |
en_US |
dc.format |
Fulltext |
en_US |
dc.language.iso |
en |
en_US |
dc.relation.uri |
https://link.springer.com/article/10.1007/s11367-021-01911-3 |
en_US |
dc.source |
The International Journal of Life Cycle Assessment, 225 |
en_US |
dc.subject |
Life Cycle Assessment |
en_US |
dc.subject |
LCA |
en_US |
dc.subject |
Wine grapes |
en_US |
dc.subject |
Water footprint |
en_US |
dc.subject |
Carbon footprint |
en_US |
dc.subject |
Irrigation |
en_US |
dc.subject |
Scenario analysis |
en_US |
dc.title |
Exploring sustainability potentials in vineyards through LCA? Evidence from farming practices in South Africa |
en_US |
dc.type |
Article |
en_US |
dc.description.pages |
17 |
en_US |
dc.description.note |
Copyright: 2021 The Author(s). |
en_US |
dc.description.cluster |
Smart Places |
en_US |
dc.description.impactarea |
Waste Benefication |
en_US |
dc.identifier.apacitation |
Russo, V., Strever, A., & Ponstein, H. (2021). Exploring sustainability potentials in vineyards through LCA? Evidence from farming practices in South Africa. <i>The International Journal of Life Cycle Assessment, 225</i>, http://hdl.handle.net/10204/12021 |
en_ZA |
dc.identifier.chicagocitation |
Russo, Valentina, AE Strever, and HJ Ponstein "Exploring sustainability potentials in vineyards through LCA? Evidence from farming practices in South Africa." <i>The International Journal of Life Cycle Assessment, 225</i> (2021) http://hdl.handle.net/10204/12021 |
en_ZA |
dc.identifier.vancouvercitation |
Russo V, Strever A, Ponstein H. Exploring sustainability potentials in vineyards through LCA? Evidence from farming practices in South Africa. The International Journal of Life Cycle Assessment, 225. 2021; http://hdl.handle.net/10204/12021. |
en_ZA |
dc.identifier.ris |
TY - Article
AU - Russo, Valentina
AU - Strever, AE
AU - Ponstein, HJ
AB - Following the urgency to curb environmental impacts across all sectors globally, this is the frst life cycle assessment of diferent wine grape farming practices suitable for commercial conventional production in South Africa, aiming at better understanding the potentials to reduce adverse efects on the environment and on human health. Methods An attributional life cycle assessment was conducted on eight diferent scenarios that reduce the inputs of herbicides and insecticides compared against a business as usual (BAU) scenario. We assess several impact categories based on ReCiPe, namely global warming potential, terrestrial acidifcation, freshwater eutrophication, terrestrial toxicity, freshwater toxicity, marine toxicity, human carcinogenic toxicity and human non-carcinogenic toxicity, human health and ecosystems. A water footprint assessment based on the AWARE method accounts for potential impacts within the watershed. Results and discussion Results show that in our impact assessment, more sustainable farming practices do not always outperform the BAU scenario, which relies on synthetic fertiliser and agrochemicals. As a main trend, most of the impact categories were dominated by energy requirements of wine grape production in an irrigated vineyard, namely the usage of electricity for irrigation pumps and diesel for agricultural machinery. The most favourable scenario across the impact categories provided a low diesel usage, strongly reduced herbicides and the absence of insecticides as it applied cover crops and an integrated pest management. Pesticides and heavy metals contained in agrochemicals are the main contributors to emissions to soil that afected the toxicity categories and impose a risk on human health, which is particularly relevant for the manual labour-intensive South African wine sector. However, we suggest that impacts of agrochemicals on human health and the environment are undervalued in the assessment. The 70% reduction of toxic agrochemicals such as Glyphosate and Paraquat and the 100% reduction of Chlorpyriphos in vineyards hardly afected the model results for human and ecotoxicity. Our concerns are magnifed by the fact that manual labour plays a substantial role in South African vineyards, increasing the exposure of humans to these toxic chemicals at their workplace. Conclusions A more sustainable wine grape production is possible when shifting to integrated grape production practices that reduce the inputs of agrochemicals. Further, improved water and related electricity management through drip irrigation, defcit irrigation and photovoltaic-powered irrigation is recommendable, relieving stress on local water bodies, enhancing drought-preparedness planning and curbing CO2 emissions embodied in products.
DA - 2021-04
DB - ResearchSpace
DP - CSIR
J1 - The International Journal of Life Cycle Assessment, 225
KW - Life Cycle Assessment
KW - LCA
KW - Wine grapes
KW - Water footprint
KW - Carbon footprint
KW - Irrigation
KW - Scenario analysis
LK - https://researchspace.csir.co.za
PY - 2021
SM - 0948-3349
SM - 1614-7502
T1 - Exploring sustainability potentials in vineyards through LCA? Evidence from farming practices in South Africa
TI - Exploring sustainability potentials in vineyards through LCA? Evidence from farming practices in South Africa
UR - http://hdl.handle.net/10204/12021
ER - |
en_ZA |
dc.identifier.worklist |
24531 |
en_US |