Assessing the Greenhouse Gas Mitigation effect of removing bovine trypanosomiasis in Eastern Africa

Assessing the Greenhouse Gas Mitigation effect of removing bovine trypanosomiasis in Eastern Africa

Increasing the production of meat and milk within sub-Saharan Africa should provide significant food security benefits. However, greenhouse gas (GHG) emissions represent a challenge, as cattle production in the region typically has high emissions intensity (EI), i.e., high rates of GHG emissions per unit of output. The high EI is caused by the relatively low production efficiencies in the region, which are in turn partly due to endemic cattle diseases. In theory, improved disease control should increase the efficiency and decrease the emissions intensity of livestock production; however quantitative analysis of the potential GHG mitigation effects of improved disease control in Africa is lacking. This paper seeks to respond to this by using a hybrid modelling approach to quantify the production and emissions effects of removing trypanosomiasis from East African cattle production systems. The emissions are quantified for each cattle production system using an excel version of GLEAM, the Food and Agriculture Organization's Global Livestock Environmental Assessment Model. The results indicate that removing trypanosomiasis leads to a reduction in the emissions intensity per unit of protein produced of between 0% and 8%, driven mainly by the increases in milk yields and cow fertility rates. Despite the limitations, it is argued that the approach provides considerable scope for modelling the GHG impacts of disease interventions.

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Main Authors: MacLeod, Michael, Eory, Vera, Wint, William, Shaw, Alexandra, Gerber, Pierre J., Cecchi, Giuliano, Mattioli, Raffaele, Sykes, Alasdair, Robinson, Timothy
Format: Article/Letter to editor biblioteca
Language:English
Subjects:Cattle health, Climate change, GLEAM, Livestock modelling, Sustainable intensification,
Online Access:https://research.wur.nl/en/publications/assessing-the-greenhouse-gas-mitigation-effect-of-removing-bovine
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spelling dig-wur-nl-wurpubs-5383042025-01-17 MacLeod, Michael Eory, Vera Wint, William Shaw, Alexandra Gerber, Pierre J. Cecchi, Giuliano Mattioli, Raffaele Sykes, Alasdair Robinson, Timothy Article/Letter to editor Sustainability 10 (2018) 5 ISSN: 2071-1050 Assessing the Greenhouse Gas Mitigation effect of removing bovine trypanosomiasis in Eastern Africa 2018 Increasing the production of meat and milk within sub-Saharan Africa should provide significant food security benefits. However, greenhouse gas (GHG) emissions represent a challenge, as cattle production in the region typically has high emissions intensity (EI), i.e., high rates of GHG emissions per unit of output. The high EI is caused by the relatively low production efficiencies in the region, which are in turn partly due to endemic cattle diseases. In theory, improved disease control should increase the efficiency and decrease the emissions intensity of livestock production; however quantitative analysis of the potential GHG mitigation effects of improved disease control in Africa is lacking. This paper seeks to respond to this by using a hybrid modelling approach to quantify the production and emissions effects of removing trypanosomiasis from East African cattle production systems. The emissions are quantified for each cattle production system using an excel version of GLEAM, the Food and Agriculture Organization's Global Livestock Environmental Assessment Model. The results indicate that removing trypanosomiasis leads to a reduction in the emissions intensity per unit of protein produced of between 0% and 8%, driven mainly by the increases in milk yields and cow fertility rates. Despite the limitations, it is argued that the approach provides considerable scope for modelling the GHG impacts of disease interventions. en application/pdf https://research.wur.nl/en/publications/assessing-the-greenhouse-gas-mitigation-effect-of-removing-bovine 10.3390/su10051633 https://edepot.wur.nl/453065 Cattle health Climate change GLEAM Livestock modelling Sustainable intensification 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 Cattle health
Climate change
GLEAM
Livestock modelling
Sustainable intensification
Cattle health
Climate change
GLEAM
Livestock modelling
Sustainable intensification
spellingShingle Cattle health
Climate change
GLEAM
Livestock modelling
Sustainable intensification
Cattle health
Climate change
GLEAM
Livestock modelling
Sustainable intensification
MacLeod, Michael
Eory, Vera
Wint, William
Shaw, Alexandra
Gerber, Pierre J.
Cecchi, Giuliano
Mattioli, Raffaele
Sykes, Alasdair
Robinson, Timothy
Assessing the Greenhouse Gas Mitigation effect of removing bovine trypanosomiasis in Eastern Africa
description Increasing the production of meat and milk within sub-Saharan Africa should provide significant food security benefits. However, greenhouse gas (GHG) emissions represent a challenge, as cattle production in the region typically has high emissions intensity (EI), i.e., high rates of GHG emissions per unit of output. The high EI is caused by the relatively low production efficiencies in the region, which are in turn partly due to endemic cattle diseases. In theory, improved disease control should increase the efficiency and decrease the emissions intensity of livestock production; however quantitative analysis of the potential GHG mitigation effects of improved disease control in Africa is lacking. This paper seeks to respond to this by using a hybrid modelling approach to quantify the production and emissions effects of removing trypanosomiasis from East African cattle production systems. The emissions are quantified for each cattle production system using an excel version of GLEAM, the Food and Agriculture Organization's Global Livestock Environmental Assessment Model. The results indicate that removing trypanosomiasis leads to a reduction in the emissions intensity per unit of protein produced of between 0% and 8%, driven mainly by the increases in milk yields and cow fertility rates. Despite the limitations, it is argued that the approach provides considerable scope for modelling the GHG impacts of disease interventions.
format Article/Letter to editor
topic_facet Cattle health
Climate change
GLEAM
Livestock modelling
Sustainable intensification
author MacLeod, Michael
Eory, Vera
Wint, William
Shaw, Alexandra
Gerber, Pierre J.
Cecchi, Giuliano
Mattioli, Raffaele
Sykes, Alasdair
Robinson, Timothy
author_facet MacLeod, Michael
Eory, Vera
Wint, William
Shaw, Alexandra
Gerber, Pierre J.
Cecchi, Giuliano
Mattioli, Raffaele
Sykes, Alasdair
Robinson, Timothy
author_sort MacLeod, Michael
title Assessing the Greenhouse Gas Mitigation effect of removing bovine trypanosomiasis in Eastern Africa
title_short Assessing the Greenhouse Gas Mitigation effect of removing bovine trypanosomiasis in Eastern Africa
title_full Assessing the Greenhouse Gas Mitigation effect of removing bovine trypanosomiasis in Eastern Africa
title_fullStr Assessing the Greenhouse Gas Mitigation effect of removing bovine trypanosomiasis in Eastern Africa
title_full_unstemmed Assessing the Greenhouse Gas Mitigation effect of removing bovine trypanosomiasis in Eastern Africa
title_sort assessing the greenhouse gas mitigation effect of removing bovine trypanosomiasis in eastern africa
url https://research.wur.nl/en/publications/assessing-the-greenhouse-gas-mitigation-effect-of-removing-bovine
work_keys_str_mv AT macleodmichael assessingthegreenhousegasmitigationeffectofremovingbovinetrypanosomiasisineasternafrica
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