Improving the accuracy of beef cattle methane inventories in Latin America and Caribbean countries

Guilhermo F.S. Congio; André Bannink; Olga L. Mayorga; João P.P. Rodrigues; Adeline Bougouin; Ermias Kebreab; Paulo C.F. Carvalho; Telma T. Berchielli; Maria E.Z. Mercadante; Sebastião C. Valadares-Filho; Ana L.C.C. Borges; Alexandre Berndt; Paulo H.M. Rodrigues; Juan C. Ku-Vera; Isabel C. Molina-Botero; Jacobo Arango; Ricardo A. Reis; Sandra L. Posada-Ochoa; Thierry R. Tomich; Octavio A. Castelán-Ortega; Marcos I. Marcondes; Carlos Gómez; Henrique M.N. Ribeiro-Filho; José I. Gere; Claudia Ariza-Nieto; Luis A. Giraldo; Horacio Gonda; María E. Cerón-Cucchi; Olegario Hernández; Patricia Ricci; Alexander N. Hristov

doi:10.1016/j.scitotenv.2022.159128

Improving the accuracy of beef cattle methane inventories in Latin America and Caribbean countries

Guilhermo F.S. Congio, André Bannink, Olga L. Mayorga, João P.P. Rodrigues, Adeline Bougouin, Ermias Kebreab, Paulo C.F. Carvalho, Telma T. Berchielli, Maria E.Z. Mercadante, Sebastião C. Valadares-Filho, Ana L.C.C. Borges, Alexandre Berndt, Paulo H.M. Rodrigues, Juan C. Ku-Vera, Isabel C. Molina-Botero, Jacobo Arango, Ricardo A. Reis, Sandra L. Posada-Ochoa, Thierry R. Tomich, Octavio A. Castelán-OrtegaMarcos I. Marcondes, Carlos Gómez, Henrique M.N. Ribeiro-Filho, José I. Gere, Claudia Ariza-Nieto, Luis A. Giraldo, Horacio Gonda, María E. Cerón-Cucchi, Olegario Hernández, Patricia Ricci, Alexander N. Hristov

Animal Science

Research output: Contribution to journal › Article › peer-review

13 Scopus citations

Abstract

On-farm methane (CH₄) emissions need to be estimated accurately so that the mitigation effect of recommended practices can be accounted for. In the present study prediction equations for enteric CH₄ have been developed in lieu of expensive animal measurement approaches. Our objectives were to: (1) compile a dataset from individual beef cattle data for the Latin America and Caribbean (LAC) region; (2) determine main predictors of CH₄ emission variables; (3) develop and cross-validate prediction models according to dietary forage content (DFC); and (4) compare the predictive ability of these newly-developed models with extant equations reported in literature, including those currently used for CH₄ inventories in LAC countries. After outlier's screening, 1100 beef cattle observations from 55 studies were kept in the final dataset (∼ 50 % of the original dataset). Mixed-effects models were fitted with a random effect of study. The whole dataset was split according to DFC into a subset for all-forage (DFC = 100 %), high-forage (94 % ≥ DFC ≥ 54 %), and low-forage (50 % ≥ DFC) diets. Feed intake and average daily gain (ADG) were the main predictors of CH₄ emission (g d⁻¹), whereas this was feeding level [dry matter intake (DMI) as % of body weight] for CH₄ yield (g kg⁻¹ DMI). The newly-developed models were more accurate than IPCC Tier 2 equations for all subsets. Simple and multiple regression models including ADG were accurate and a feasible option to predict CH₄ emission when data on feed intake are not available. Methane yield was not well predicted by any extant equation in contrast to the newly-developed models. The present study delivered new models that may be alternatives for the IPCC Tier 2 equations to improve CH₄ prediction for beef cattle in inventories of LAC countries based either on more or less readily available data.

Original language	English (US)
Article number	159128
Journal	Science of the Total Environment
Volume	856
DOIs	https://doi.org/10.1016/j.scitotenv.2022.159128
State	Published - Jan 15 2023

All Science Journal Classification (ASJC) codes

Environmental Engineering
Environmental Chemistry
Waste Management and Disposal
Pollution

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.scitotenv.2022.159128

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Congio, G. F. S., Bannink, A., Mayorga, O. L., Rodrigues, J. P. P., Bougouin, A., Kebreab, E., Carvalho, P. C. F., Berchielli, T. T., Mercadante, M. E. Z., Valadares-Filho, S. C., Borges, A. L. C. C., Berndt, A., Rodrigues, P. H. M., Ku-Vera, J. C., Molina-Botero, I. C., Arango, J., Reis, R. A., Posada-Ochoa, S. L., Tomich, T. R., ... Hristov, A. N. (2023). Improving the accuracy of beef cattle methane inventories in Latin America and Caribbean countries. Science of the Total Environment, 856, Article 159128. https://doi.org/10.1016/j.scitotenv.2022.159128

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title = "Improving the accuracy of beef cattle methane inventories in Latin America and Caribbean countries",

abstract = "On-farm methane (CH4) emissions need to be estimated accurately so that the mitigation effect of recommended practices can be accounted for. In the present study prediction equations for enteric CH4 have been developed in lieu of expensive animal measurement approaches. Our objectives were to: (1) compile a dataset from individual beef cattle data for the Latin America and Caribbean (LAC) region; (2) determine main predictors of CH4 emission variables; (3) develop and cross-validate prediction models according to dietary forage content (DFC); and (4) compare the predictive ability of these newly-developed models with extant equations reported in literature, including those currently used for CH4 inventories in LAC countries. After outlier's screening, 1100 beef cattle observations from 55 studies were kept in the final dataset (∼ 50 % of the original dataset). Mixed-effects models were fitted with a random effect of study. The whole dataset was split according to DFC into a subset for all-forage (DFC = 100 %), high-forage (94 % ≥ DFC ≥ 54 %), and low-forage (50 % ≥ DFC) diets. Feed intake and average daily gain (ADG) were the main predictors of CH4 emission (g d−1), whereas this was feeding level [dry matter intake (DMI) as % of body weight] for CH4 yield (g kg−1 DMI). The newly-developed models were more accurate than IPCC Tier 2 equations for all subsets. Simple and multiple regression models including ADG were accurate and a feasible option to predict CH4 emission when data on feed intake are not available. Methane yield was not well predicted by any extant equation in contrast to the newly-developed models. The present study delivered new models that may be alternatives for the IPCC Tier 2 equations to improve CH4 prediction for beef cattle in inventories of LAC countries based either on more or less readily available data.",

author = "Congio, {Guilhermo F.S.} and Andr{\'e} Bannink and Mayorga, {Olga L.} and Rodrigues, {Jo{\~a}o P.P.} and Adeline Bougouin and Ermias Kebreab and Carvalho, {Paulo C.F.} and Berchielli, {Telma T.} and Mercadante, {Maria E.Z.} and Valadares-Filho, {Sebasti{\~a}o C.} and Borges, {Ana L.C.C.} and Alexandre Berndt and Rodrigues, {Paulo H.M.} and Ku-Vera, {Juan C.} and Molina-Botero, {Isabel C.} and Jacobo Arango and Reis, {Ricardo A.} and Posada-Ochoa, {Sandra L.} and Tomich, {Thierry R.} and Castel{\'a}n-Ortega, {Octavio A.} and Marcondes, {Marcos I.} and Carlos G{\'o}mez and Ribeiro-Filho, {Henrique M.N.} and Gere, {Jos{\'e} I.} and Claudia Ariza-Nieto and Giraldo, {Luis A.} and Horacio Gonda and Cer{\'o}n-Cucchi, {Mar{\'i}a E.} and Olegario Hern{\'a}ndez and Patricia Ricci and Hristov, {Alexander N.}",

note = "Publisher Copyright: {\textcopyright} 2022 Elsevier B.V.",

year = "2023",

month = jan,

day = "15",

doi = "10.1016/j.scitotenv.2022.159128",

language = "English (US)",

volume = "856",

journal = "Science of the Total Environment",

issn = "0048-9697",

publisher = "Elsevier B.V.",

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Congio, GFS, Bannink, A, Mayorga, OL, Rodrigues, JPP, Bougouin, A, Kebreab, E, Carvalho, PCF, Berchielli, TT, Mercadante, MEZ, Valadares-Filho, SC, Borges, ALCC, Berndt, A, Rodrigues, PHM, Ku-Vera, JC, Molina-Botero, IC, Arango, J, Reis, RA, Posada-Ochoa, SL, Tomich, TR, Castelán-Ortega, OA, Marcondes, MI, Gómez, C, Ribeiro-Filho, HMN, Gere, JI, Ariza-Nieto, C, Giraldo, LA, Gonda, H, Cerón-Cucchi, ME, Hernández, O, Ricci, P & Hristov, AN 2023, 'Improving the accuracy of beef cattle methane inventories in Latin America and Caribbean countries', Science of the Total Environment, vol. 856, 159128. https://doi.org/10.1016/j.scitotenv.2022.159128

TY - JOUR

T1 - Improving the accuracy of beef cattle methane inventories in Latin America and Caribbean countries

AU - Congio, Guilhermo F.S.

AU - Bannink, André

AU - Mayorga, Olga L.

AU - Rodrigues, João P.P.

AU - Bougouin, Adeline

AU - Kebreab, Ermias

AU - Carvalho, Paulo C.F.

AU - Berchielli, Telma T.

AU - Mercadante, Maria E.Z.

AU - Valadares-Filho, Sebastião C.

AU - Borges, Ana L.C.C.

AU - Berndt, Alexandre

AU - Rodrigues, Paulo H.M.

AU - Ku-Vera, Juan C.

AU - Molina-Botero, Isabel C.

AU - Arango, Jacobo

AU - Reis, Ricardo A.

AU - Posada-Ochoa, Sandra L.

AU - Tomich, Thierry R.

AU - Castelán-Ortega, Octavio A.

AU - Marcondes, Marcos I.

AU - Gómez, Carlos

AU - Ribeiro-Filho, Henrique M.N.

AU - Gere, José I.

AU - Ariza-Nieto, Claudia

AU - Giraldo, Luis A.

AU - Gonda, Horacio

AU - Cerón-Cucchi, María E.

AU - Hernández, Olegario

AU - Ricci, Patricia

AU - Hristov, Alexander N.

PY - 2023/1/15

Y1 - 2023/1/15

N2 - On-farm methane (CH4) emissions need to be estimated accurately so that the mitigation effect of recommended practices can be accounted for. In the present study prediction equations for enteric CH4 have been developed in lieu of expensive animal measurement approaches. Our objectives were to: (1) compile a dataset from individual beef cattle data for the Latin America and Caribbean (LAC) region; (2) determine main predictors of CH4 emission variables; (3) develop and cross-validate prediction models according to dietary forage content (DFC); and (4) compare the predictive ability of these newly-developed models with extant equations reported in literature, including those currently used for CH4 inventories in LAC countries. After outlier's screening, 1100 beef cattle observations from 55 studies were kept in the final dataset (∼ 50 % of the original dataset). Mixed-effects models were fitted with a random effect of study. The whole dataset was split according to DFC into a subset for all-forage (DFC = 100 %), high-forage (94 % ≥ DFC ≥ 54 %), and low-forage (50 % ≥ DFC) diets. Feed intake and average daily gain (ADG) were the main predictors of CH4 emission (g d−1), whereas this was feeding level [dry matter intake (DMI) as % of body weight] for CH4 yield (g kg−1 DMI). The newly-developed models were more accurate than IPCC Tier 2 equations for all subsets. Simple and multiple regression models including ADG were accurate and a feasible option to predict CH4 emission when data on feed intake are not available. Methane yield was not well predicted by any extant equation in contrast to the newly-developed models. The present study delivered new models that may be alternatives for the IPCC Tier 2 equations to improve CH4 prediction for beef cattle in inventories of LAC countries based either on more or less readily available data.

AB - On-farm methane (CH4) emissions need to be estimated accurately so that the mitigation effect of recommended practices can be accounted for. In the present study prediction equations for enteric CH4 have been developed in lieu of expensive animal measurement approaches. Our objectives were to: (1) compile a dataset from individual beef cattle data for the Latin America and Caribbean (LAC) region; (2) determine main predictors of CH4 emission variables; (3) develop and cross-validate prediction models according to dietary forage content (DFC); and (4) compare the predictive ability of these newly-developed models with extant equations reported in literature, including those currently used for CH4 inventories in LAC countries. After outlier's screening, 1100 beef cattle observations from 55 studies were kept in the final dataset (∼ 50 % of the original dataset). Mixed-effects models were fitted with a random effect of study. The whole dataset was split according to DFC into a subset for all-forage (DFC = 100 %), high-forage (94 % ≥ DFC ≥ 54 %), and low-forage (50 % ≥ DFC) diets. Feed intake and average daily gain (ADG) were the main predictors of CH4 emission (g d−1), whereas this was feeding level [dry matter intake (DMI) as % of body weight] for CH4 yield (g kg−1 DMI). The newly-developed models were more accurate than IPCC Tier 2 equations for all subsets. Simple and multiple regression models including ADG were accurate and a feasible option to predict CH4 emission when data on feed intake are not available. Methane yield was not well predicted by any extant equation in contrast to the newly-developed models. The present study delivered new models that may be alternatives for the IPCC Tier 2 equations to improve CH4 prediction for beef cattle in inventories of LAC countries based either on more or less readily available data.

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SN - 0048-9697

VL - 856

JO - Science of the Total Environment

JF - Science of the Total Environment

M1 - 159128

ER -

Improving the accuracy of beef cattle methane inventories in Latin America and Caribbean countries

Abstract

All Science Journal Classification (ASJC) codes

UN SDGs

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