Short communication : Identifying key parameters for modelling the impacts of livestock health conditions on greenhouse gas emissions

Short communication : Identifying key parameters for modelling the impacts of livestock health conditions on greenhouse gas emissions

Improved animal health can reduce greenhouse gas (GHG) emissions intensity in livestock systems while increasing productivity. Integrated modelling of disease impacts on farm-scale emissions is important in identifying effective health strategies to reduce emissions. However, it requires that modellers understand the pathways linking animal health to emissions and how these might be incorporated into models. A key barrier to meeting this need has been the lack of a framework to facilitate effective exchange of knowledge and data between animal health experts and emissions modellers. Here, these two communities engaged in workshops, online exchanges and a survey to i) identify a comprehensive list of disease-related model parameters and ii) test its application to evaluating models. Fifty-six parameters were identified and proved effective in assessing the potential of farm-scale models to characterise livestock disease impacts on GHG emissions. Easy wins for the emissions models surveyed include characterising disease impacts related to feeding.

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Main Authors: Kipling, R.P., Bannink, A., Bartley, D.J., Blanco-Penedo, I., Faverdin, P., Graux, A.I., Hutchings, N.J., Kyriazakis, I., Macleod, M., Østergaard, S., Robinson, T.P., Vitali, A., Ahmadi, B.V., Özkan, Seyda
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Agricultural modelling, Climate change, Dairy production, Greenhouse gas emissions, Livestock health,
Online Access:https://research.wur.nl/en/publications/short-communication-identifying-key-parameters-for-modelling-the-
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spelling dig-wur-nl-wurpubs-5798492025-01-14 Kipling, R.P. Bannink, A. Bartley, D.J. Blanco-Penedo, I. Faverdin, P. Graux, A.I. Hutchings, N.J. Kyriazakis, I. Macleod, M. Østergaard, S. Robinson, T.P. Vitali, A. Ahmadi, B.V. Özkan, Seyda Article/Letter to editor Animal 15 (2021) 1 ISSN: 1751-7311 Short communication : Identifying key parameters for modelling the impacts of livestock health conditions on greenhouse gas emissions 2021 Improved animal health can reduce greenhouse gas (GHG) emissions intensity in livestock systems while increasing productivity. Integrated modelling of disease impacts on farm-scale emissions is important in identifying effective health strategies to reduce emissions. However, it requires that modellers understand the pathways linking animal health to emissions and how these might be incorporated into models. A key barrier to meeting this need has been the lack of a framework to facilitate effective exchange of knowledge and data between animal health experts and emissions modellers. Here, these two communities engaged in workshops, online exchanges and a survey to i) identify a comprehensive list of disease-related model parameters and ii) test its application to evaluating models. Fifty-six parameters were identified and proved effective in assessing the potential of farm-scale models to characterise livestock disease impacts on GHG emissions. Easy wins for the emissions models surveyed include characterising disease impacts related to feeding. en application/pdf https://research.wur.nl/en/publications/short-communication-identifying-key-parameters-for-modelling-the- 10.1016/j.animal.2020.100023 https://edepot.wur.nl/542700 Agricultural modelling Climate change Dairy production Greenhouse gas emissions Livestock health https://creativecommons.org/licenses/by/4.0/ https://creativecommons.org/licenses/by/4.0/ Wageningen University & Research
institution WUR NL
collection DSpace
country Países bajos
countrycode NL
component Bibliográfico
access En linea
databasecode dig-wur-nl
tag biblioteca
region Europa del Oeste
libraryname WUR Library Netherlands
language English
topic Agricultural modelling
Climate change
Dairy production
Greenhouse gas emissions
Livestock health
Agricultural modelling
Climate change
Dairy production
Greenhouse gas emissions
Livestock health
spellingShingle Agricultural modelling
Climate change
Dairy production
Greenhouse gas emissions
Livestock health
Agricultural modelling
Climate change
Dairy production
Greenhouse gas emissions
Livestock health
Kipling, R.P.
Bannink, A.
Bartley, D.J.
Blanco-Penedo, I.
Faverdin, P.
Graux, A.I.
Hutchings, N.J.
Kyriazakis, I.
Macleod, M.
Østergaard, S.
Robinson, T.P.
Vitali, A.
Ahmadi, B.V.
Özkan, Seyda
Short communication : Identifying key parameters for modelling the impacts of livestock health conditions on greenhouse gas emissions
description Improved animal health can reduce greenhouse gas (GHG) emissions intensity in livestock systems while increasing productivity. Integrated modelling of disease impacts on farm-scale emissions is important in identifying effective health strategies to reduce emissions. However, it requires that modellers understand the pathways linking animal health to emissions and how these might be incorporated into models. A key barrier to meeting this need has been the lack of a framework to facilitate effective exchange of knowledge and data between animal health experts and emissions modellers. Here, these two communities engaged in workshops, online exchanges and a survey to i) identify a comprehensive list of disease-related model parameters and ii) test its application to evaluating models. Fifty-six parameters were identified and proved effective in assessing the potential of farm-scale models to characterise livestock disease impacts on GHG emissions. Easy wins for the emissions models surveyed include characterising disease impacts related to feeding.
format Article/Letter to editor
topic_facet Agricultural modelling
Climate change
Dairy production
Greenhouse gas emissions
Livestock health
author Kipling, R.P.
Bannink, A.
Bartley, D.J.
Blanco-Penedo, I.
Faverdin, P.
Graux, A.I.
Hutchings, N.J.
Kyriazakis, I.
Macleod, M.
Østergaard, S.
Robinson, T.P.
Vitali, A.
Ahmadi, B.V.
Özkan, Seyda
author_facet Kipling, R.P.
Bannink, A.
Bartley, D.J.
Blanco-Penedo, I.
Faverdin, P.
Graux, A.I.
Hutchings, N.J.
Kyriazakis, I.
Macleod, M.
Østergaard, S.
Robinson, T.P.
Vitali, A.
Ahmadi, B.V.
Özkan, Seyda
author_sort Kipling, R.P.
title Short communication : Identifying key parameters for modelling the impacts of livestock health conditions on greenhouse gas emissions
title_short Short communication : Identifying key parameters for modelling the impacts of livestock health conditions on greenhouse gas emissions
title_full Short communication : Identifying key parameters for modelling the impacts of livestock health conditions on greenhouse gas emissions
title_fullStr Short communication : Identifying key parameters for modelling the impacts of livestock health conditions on greenhouse gas emissions
title_full_unstemmed Short communication : Identifying key parameters for modelling the impacts of livestock health conditions on greenhouse gas emissions
title_sort short communication : identifying key parameters for modelling the impacts of livestock health conditions on greenhouse gas emissions
url https://research.wur.nl/en/publications/short-communication-identifying-key-parameters-for-modelling-the-
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