| Publikationstyp: | Konferenz: Sonstiges |
| Art der Begutachtung: | Peer review (Abstract) |
| Titel: | Assessment of cleantech options to mitigate the environmental impact of South African dairy and maize farming |
| Autor/-in: | Keller, Regula Eymann, Lea Wettstein, Sarah Steinegger, Tobias von Blottnitz, Harro Scharfy, Deborah Stucki, Matthias |
| Angaben zur Konferenz: | Life Cycle Management (LCM) 2017, Luxembourg, 3.-6. September 2017 |
| Erscheinungsdatum: | 6-Sep-2017 |
| Sprache: | Englisch |
| Schlagwörter: | Dairy; SAFARI; LCA; Maize; Cleantech; Variable speed driver; Enteric methane emissions; Photovoltaics; South Africa |
| Fachgebiet (DDC): | 333: Bodenwirtschaft und Ressourcen 630: Landwirtschaft |
| Zusammenfassung: | Introduction: Agriculture accounts for about 10 % of national greenhouse gas emissions in South Africa in 2010. Food value chains, both primary production and downstream processing, have been identified as one of the priority areas to reduce environmental impacts of food production. The implementation of clean technologies, which are customised to South African food value chains and help to mitigate these impacts, are therefore crucial. Goal and Scope: In order to make science-based decisions about the implementation of clean technologies, the project “Applying Life Cycle Assessment for the mitigation of environmental impacts of South African agri-food products” aimed at quantifying environmental mitigation potentials when applying clean technologies. The environmental impact of technologies currently applied at South African dairy and arable farms was analysed for environmental hotspots. Based on this data, the effect of applying the following mitigation options were analysed: (1) Milk production: Adding the methane inhibitor 3-nitrooxypropanol (3NOP) to the feed of lactating Holstein cows. (2) Maize production I: The use of variable frequency drive in centre-pivot irrigation of maize. (3) Maize production II: Provision of electricity for pumping irrigation water directly by solar panels. The following nine environmental impact categories were analysed: global warming potential (GWP), cumulative energy demand (non-renewable: fossil and nuclear), eutrophication (freshwater and marine), human toxicity (cancer and non-cancer effects), freshwater ecotoxicity and land use. Results: Firstly, adding 3NOP to the feed of cows decreases the GWP of milk at farm by 18 %, without changing the impact in other categories. Secondly, integrating a variable frequency drive for the irrigation of maize decreases the impact of maize in six of the considered impact categories by 11 % to 18 %, while in three categories, there is no substantial change. Finally, powering maize irrigation with photovoltaic solar panels, a decrease from 11 % to 54 % can be expected in five categories, whereas no negative effects arise in the other categories. Interpretation and Conclusion: The administration of 3NOP to cows only decreases the environmental impact in one impact category (GWP). The expected reductions take into account the direct emissions of cows but not potential additional emissions from the manure. Further long-term tests are recommended before a wide implementation should be considered. The integration of the variable speed drive is simple and does not only have environmental benefits, but additionally leads to economic advantages and is therefore a promising option. There are clear environmental advantages of irrigation powered by solar panels. The implementation of this clean technology is feasible, since the installation of the panels is simple and low-priced and because the panels require only little maintenance. In addition, only a very small percentage of the irrigated area (0.09 %) is needed for the installation of the panels. Thus, all three cleantech options are promising and can generally be recommended, but for the adding of 3 NOP to the feed of cows, additional aspects need to be resolved before implementation. |
| Weitere Angaben: | Oral presentation |
| URI: | https://digitalcollection.zhaw.ch/handle/11475/10846 |
| Volltext Version: | Publizierte Version |
| Lizenz (gemäss Verlagsvertrag): | Keine Angabe |
| Departement: | Life Sciences und Facility Management |
| Organisationseinheit: | Institut für Umwelt und Natürliche Ressourcen (IUNR) |
| Publiziert im Rahmen des ZHAW-Projekts: | Applying Life Cycle Assessment for the mitigation of environmental impacts South African agrifood products |
| Enthalten in den Sammlungen: | Publikationen Life Sciences und Facility Management |
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Keller, R., Eymann, L., Wettstein, S., Steinegger, T., von Blottnitz, H., Scharfy, D., & Stucki, M. (2017, September 6). Assessment of cleantech options to mitigate the environmental impact of South African dairy and maize farming. Life Cycle Management (LCM) 2017, Luxembourg, 3.-6. September 2017.
Keller, R. et al. (2017) ‘Assessment of cleantech options to mitigate the environmental impact of South African dairy and maize farming’, in Life Cycle Management (LCM) 2017, Luxembourg, 3.-6. September 2017.
R. Keller et al., “Assessment of cleantech options to mitigate the environmental impact of South African dairy and maize farming,” in Life Cycle Management (LCM) 2017, Luxembourg, 3.-6. September 2017, Sep. 2017.
KELLER, Regula, Lea EYMANN, Sarah WETTSTEIN, Tobias STEINEGGER, Harro VON BLOTTNITZ, Deborah SCHARFY und Matthias STUCKI, 2017. Assessment of cleantech options to mitigate the environmental impact of South African dairy and maize farming. In: Life Cycle Management (LCM) 2017, Luxembourg, 3.-6. September 2017. Conference presentation. 6 September 2017
Keller, Regula, Lea Eymann, Sarah Wettstein, Tobias Steinegger, Harro von Blottnitz, Deborah Scharfy, and Matthias Stucki. 2017. “Assessment of Cleantech Options to Mitigate the Environmental Impact of South African Dairy and Maize Farming.” Conference presentation. In Life Cycle Management (LCM) 2017, Luxembourg, 3.-6. September 2017.
Keller, Regula, et al. “Assessment of Cleantech Options to Mitigate the Environmental Impact of South African Dairy and Maize Farming.” Life Cycle Management (LCM) 2017, Luxembourg, 3.-6. September 2017, 2017.
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