Agricultural systems

Stephen M. Ogle; Pete Smith; Francesco N. Tubiello; Shawn Archibeque; Miguel Taboada; Donovan Campbell; Cynthia Nevison

doi:10.1016/B978-0-12-814952-2.00009-5

Agricultural systems

Stephen M. Ogle, Pete Smith, Francesco N. Tubiello, Shawn Archibeque, Miguel Taboada, Donovan Campbell, Cynthia Nevison

Aberdeen Centre For Environmental Sustainability

Research output: Chapter in Book/Report/Conference proceeding › Chapter

Abstract

Agricultural systems are a major emitter of greenhouse gases (GHG) that will likely continue into the future as the global population and associated food demand continue to rise. While there is potential to reduce GHG emissions with policy and management decisions and societal choices toward diets with lower carbon footprints, regional inventories of agricultural GHG emissions are needed to monitor and assess the outcomes of GHG mitigation programs. Bottom-up methods are typically used to compile regional GHG emission inventories from one of the following approaches: (a) empirical analyses of experimental data, (b) process-based modeling approaches, or (c) measurement-based approaches relying on monitoring networks. Several options are available for improving regional GHG inventories in the near future including (a) advancing data collection on agricultural statistics including management practices, (b) application of higher tier methods where there are adequate data for process-based models or measurement-based methods, (c) developing and expanding monitoring networks that can inform the methods, and (d) incorporation of top-down methodologies into the inventory framework.

Original language	English
Title of host publication	Balancing Greenhouse Gas Budgets
Subtitle of host publication	Accounting for Natural and Anthropogenic Flows of CO2 and other Trace Gases
Publisher	Elsevier
Chapter	11
Pages	375-402
Number of pages	28
ISBN (Electronic)	9780128149522
ISBN (Print)	9780128149539
DOIs	https://doi.org/10.1016/B978-0-12-814952-2.00009-5
Publication status	Published - 1 Jan 2022

Bibliographical note

Publisher Copyright:
© 2022 Elsevier Inc. All rights reserved.

Keywords

Agriculture
Atmospheric inversions
Empirical methods
Enteric fermentation
Measurement-based approaches
Process-based models
Soil nitrous oxide
Soil organic carbon
Supply chain

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10.1016/B978-0-12-814952-2.00009-5

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title = "Agricultural systems",

abstract = "Agricultural systems are a major emitter of greenhouse gases (GHG) that will likely continue into the future as the global population and associated food demand continue to rise. While there is potential to reduce GHG emissions with policy and management decisions and societal choices toward diets with lower carbon footprints, regional inventories of agricultural GHG emissions are needed to monitor and assess the outcomes of GHG mitigation programs. Bottom-up methods are typically used to compile regional GHG emission inventories from one of the following approaches: (a) empirical analyses of experimental data, (b) process-based modeling approaches, or (c) measurement-based approaches relying on monitoring networks. Several options are available for improving regional GHG inventories in the near future including (a) advancing data collection on agricultural statistics including management practices, (b) application of higher tier methods where there are adequate data for process-based models or measurement-based methods, (c) developing and expanding monitoring networks that can inform the methods, and (d) incorporation of top-down methodologies into the inventory framework.",

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AU - Smith, Pete

AU - Tubiello, Francesco N.

AU - Archibeque, Shawn

AU - Taboada, Miguel

AU - Campbell, Donovan

AU - Nevison, Cynthia

PY - 2022/1/1

Y1 - 2022/1/1

N2 - Agricultural systems are a major emitter of greenhouse gases (GHG) that will likely continue into the future as the global population and associated food demand continue to rise. While there is potential to reduce GHG emissions with policy and management decisions and societal choices toward diets with lower carbon footprints, regional inventories of agricultural GHG emissions are needed to monitor and assess the outcomes of GHG mitigation programs. Bottom-up methods are typically used to compile regional GHG emission inventories from one of the following approaches: (a) empirical analyses of experimental data, (b) process-based modeling approaches, or (c) measurement-based approaches relying on monitoring networks. Several options are available for improving regional GHG inventories in the near future including (a) advancing data collection on agricultural statistics including management practices, (b) application of higher tier methods where there are adequate data for process-based models or measurement-based methods, (c) developing and expanding monitoring networks that can inform the methods, and (d) incorporation of top-down methodologies into the inventory framework.

AB - Agricultural systems are a major emitter of greenhouse gases (GHG) that will likely continue into the future as the global population and associated food demand continue to rise. While there is potential to reduce GHG emissions with policy and management decisions and societal choices toward diets with lower carbon footprints, regional inventories of agricultural GHG emissions are needed to monitor and assess the outcomes of GHG mitigation programs. Bottom-up methods are typically used to compile regional GHG emission inventories from one of the following approaches: (a) empirical analyses of experimental data, (b) process-based modeling approaches, or (c) measurement-based approaches relying on monitoring networks. Several options are available for improving regional GHG inventories in the near future including (a) advancing data collection on agricultural statistics including management practices, (b) application of higher tier methods where there are adequate data for process-based models or measurement-based methods, (c) developing and expanding monitoring networks that can inform the methods, and (d) incorporation of top-down methodologies into the inventory framework.

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KW - Atmospheric inversions

KW - Empirical methods

KW - Enteric fermentation

KW - Measurement-based approaches

KW - Process-based models

KW - Soil nitrous oxide

KW - Soil organic carbon

KW - Supply chain

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SN - 9780128149539

SP - 375

EP - 402

BT - Balancing Greenhouse Gas Budgets

PB - Elsevier

ER -

Agricultural systems

Abstract

Bibliographical note

Keywords

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