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Author: Mukesh Dev Bhattarai
Publisher:
ISBN:
Category : Agriculture
Languages : en
Pages : 212
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Book Description
Climate change may have detrimental effects on agriculture productivity (Challinor et al., 2009). At the same time, agriculture also plays a role in contributing to the causes of global warming (IPCC, 2009). The present research examined current agro-management practices of select agriculture management practices and products with a threefold objective, namely i) to understand the possible impact of climate change on crop yields, ii) to examine the carbon sequestration potential of select agricultural crops and management practices, and iii) to conduct a thorough life cycle assessment to estimate the carbon footprint of select agriculture crops and management practices, so as to help policy makers, planners and business managers in devising appropriate mitigation and adaptation policy frameworks and make sensible management decisions in the context of climate change. The research was conducted in a series of three studies. The first study investigated future corn and soybean yields in the Raccoon watershed in the US Corn Belt using projected climate data. This study used the Environment Policy Integrated Climate (EPIC) model to estimate the impact of climate change for 2015--2099 with data downscaled from eight atmosphere-ocean general circulation models (AOGCMs) with three emissions pathways reflecting low, medium and high greenhouse gas scenarios. Soil properties were gathered from the Soil Survey Geographic Database and data on crop rotation was derived from CropScape, a geospatial cropland data layer product of the US National Agricultural Statistics Service. The study also examined the possible impact of carbon fertilization on yields. The results show that carbon fertilization of soybean, a C3 plant, may contribute to an increase in yield of 3% to 22% while its contribution to the growth of corn, a C4 plant, will be much lower. The second study focused on land-based carbon sequestration possibilities. Land-based carbon sequestration constitutes a major low cost and immediately viable option in climate change mitigation. Using downscaled data from eight atmosphere-ocean general circulation models for a simulation period between 2015 and 2099, the study examined the carbon sequestration potential of alternative agricultural land uses in an intensively farmed Corn Belt watershed and the impact of climate change on crop yields including impact on switchgrass. The results of the study show that switching from conventional tillage and continuous corn to no-till corn-soybean can sequester the equivalent of 192.1 MtCO 2 eq of soil organic carbon per hectare with a sequestration rate of 2.26 MtCO2 eq ha-1 yr-1. The results also indicate that switchgrass can sequester the equivalent of 310.7 MtCO 2 eq of soil organic carbon per hectare with a sequestration rate of 3.65 MtCO2 eq ha-1 yr-1. The findings of this research suggest that climate change does not have a significant effect on switchgrass yields, unlike on corn and soybean yields, possibly due to the carbon fertilization effect. As mentioned, agriculture can contribute to climate change mitigation efforts by providing low-land-based options through changes in agricultural management practices. A thorough life cycle assessment is necessary to compare various opportunities provided by a variety of agricultural approaches. The last study is a cradle-to-farm gate life cycle assessment of the contributions of select agricultural practices to mitigate global warming. The study focused on land-based practices including crop rotations instead of just individual crops. In the assessment, the study also included examinations of below-the-ground soil to determine the organic carbon sequestration potential of such practices, which most of the time is ignored in life cycle assessments due to lack of data. Specifically, the study examined three farming practices in the intensively farmed Raccoon watershed: continuous corn rotation with conventional tillage, corn-soybean rotation with no-till, and switchgrass. The assessment was conducted based on land units (hectares), instead of utilizing the usual practice of reporting life cycle assessment in product units, such as kilograms. The results of the life cycle assessment reveal that among the three agricultural practices, switchgrass has the lowest carbon footprint overall, and continuous corn rotation has the highest. Switching from continuous corn to switchgrass would reduce the overall greenhouse gases the most, by 6.30 Mg CO2eq/ha/yr, or by 62% compared to the emissions generated by the continuous corn rotation. Similarly, planting switchgrass instead of a corn-soybean rotation would reduce the overall emissions of greenhouse gases by 1.84 Mg CO2eq/ha/yr, or by 32% compared to the corn-soybean rotation. Finally, switching from continuous corn to the corn-soybean rotation would reduce overall greenhouse gases emissions by 4.46 Mg CO2eq/ha/yr or by 44% of the emissions generated by continuous corn. These findings can inform policy discussions on the potential of agriculture's role in climate change mitigation. (Abstract shortened by ProQuest.)
Author: Mukesh Dev Bhattarai
Publisher:
ISBN:
Category : Agriculture
Languages : en
Pages : 212
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Book Description
Climate change may have detrimental effects on agriculture productivity (Challinor et al., 2009). At the same time, agriculture also plays a role in contributing to the causes of global warming (IPCC, 2009). The present research examined current agro-management practices of select agriculture management practices and products with a threefold objective, namely i) to understand the possible impact of climate change on crop yields, ii) to examine the carbon sequestration potential of select agricultural crops and management practices, and iii) to conduct a thorough life cycle assessment to estimate the carbon footprint of select agriculture crops and management practices, so as to help policy makers, planners and business managers in devising appropriate mitigation and adaptation policy frameworks and make sensible management decisions in the context of climate change. The research was conducted in a series of three studies. The first study investigated future corn and soybean yields in the Raccoon watershed in the US Corn Belt using projected climate data. This study used the Environment Policy Integrated Climate (EPIC) model to estimate the impact of climate change for 2015--2099 with data downscaled from eight atmosphere-ocean general circulation models (AOGCMs) with three emissions pathways reflecting low, medium and high greenhouse gas scenarios. Soil properties were gathered from the Soil Survey Geographic Database and data on crop rotation was derived from CropScape, a geospatial cropland data layer product of the US National Agricultural Statistics Service. The study also examined the possible impact of carbon fertilization on yields. The results show that carbon fertilization of soybean, a C3 plant, may contribute to an increase in yield of 3% to 22% while its contribution to the growth of corn, a C4 plant, will be much lower. The second study focused on land-based carbon sequestration possibilities. Land-based carbon sequestration constitutes a major low cost and immediately viable option in climate change mitigation. Using downscaled data from eight atmosphere-ocean general circulation models for a simulation period between 2015 and 2099, the study examined the carbon sequestration potential of alternative agricultural land uses in an intensively farmed Corn Belt watershed and the impact of climate change on crop yields including impact on switchgrass. The results of the study show that switching from conventional tillage and continuous corn to no-till corn-soybean can sequester the equivalent of 192.1 MtCO 2 eq of soil organic carbon per hectare with a sequestration rate of 2.26 MtCO2 eq ha-1 yr-1. The results also indicate that switchgrass can sequester the equivalent of 310.7 MtCO 2 eq of soil organic carbon per hectare with a sequestration rate of 3.65 MtCO2 eq ha-1 yr-1. The findings of this research suggest that climate change does not have a significant effect on switchgrass yields, unlike on corn and soybean yields, possibly due to the carbon fertilization effect. As mentioned, agriculture can contribute to climate change mitigation efforts by providing low-land-based options through changes in agricultural management practices. A thorough life cycle assessment is necessary to compare various opportunities provided by a variety of agricultural approaches. The last study is a cradle-to-farm gate life cycle assessment of the contributions of select agricultural practices to mitigate global warming. The study focused on land-based practices including crop rotations instead of just individual crops. In the assessment, the study also included examinations of below-the-ground soil to determine the organic carbon sequestration potential of such practices, which most of the time is ignored in life cycle assessments due to lack of data. Specifically, the study examined three farming practices in the intensively farmed Raccoon watershed: continuous corn rotation with conventional tillage, corn-soybean rotation with no-till, and switchgrass. The assessment was conducted based on land units (hectares), instead of utilizing the usual practice of reporting life cycle assessment in product units, such as kilograms. The results of the life cycle assessment reveal that among the three agricultural practices, switchgrass has the lowest carbon footprint overall, and continuous corn rotation has the highest. Switching from continuous corn to switchgrass would reduce the overall greenhouse gases the most, by 6.30 Mg CO2eq/ha/yr, or by 62% compared to the emissions generated by the continuous corn rotation. Similarly, planting switchgrass instead of a corn-soybean rotation would reduce the overall emissions of greenhouse gases by 1.84 Mg CO2eq/ha/yr, or by 32% compared to the corn-soybean rotation. Finally, switching from continuous corn to the corn-soybean rotation would reduce overall greenhouse gases emissions by 4.46 Mg CO2eq/ha/yr or by 44% of the emissions generated by continuous corn. These findings can inform policy discussions on the potential of agriculture's role in climate change mitigation. (Abstract shortened by ProQuest.)
Author: Seyyed Hassan Pishar-Komleh
Publisher:
ISBN: 9781801462150
Category :
Languages : en
Pages :
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Book Description
This collection features five peer-reviewed literature reviews on life cycle assessment (LCA) of crops. The first chapter discusses the application of LCA to agricultural systems and highlights key issues associated with its implementation, including delimitation of systems boundaries, defining the functional unit, handling coproduction, and the choosing of impact assessment methods. The second chapter explores the concepts of LCA and the coffee value chain. The chapter discusses how carbon footprint performances can be used to upgrade coffee value chains. The third chapter assesses the environmental impact of oil palm production during cultivation and as a result of land use change for new plantations. The chapter describes the principles and modelling steps of LCA, as well as the challenges ahead regarding further development and application. The fourth chapter reviews the core principles of LCA methodology, the state of the art of LCA for fruits and associated key challenges. The first complete LCA case study for export mango is also discussed. The final chapter assesses the environmental impact of banana production and highlights the importance of LCA in influencing the adoption of practices that can reduce or offset the carbon footprint of the banana value chain. What is an Instant Insight? An Instant Insight gives you immediate access to key research on a topic, allowing you to get right to the heart of a subject in an instant and empowering you to contribute to sustainable agriculture.
Author: Julio Berbel
Publisher: Springer
ISBN: 3319769294
Category : Business & Economics
Languages : en
Pages : 321
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Book Description
This book outlines the latest trends in the use of multicriteria analysis in agriculture by highlighting recent applications for modeling agricultural decision-making. It introduces specific case studies using multicriteria analysis as a method for selecting multiattribute discrete alternatives or solving multiobjective planning problems. The book is intended for a broad readership, including agricultural and environmental economists, engineers and all scientists whose work involves the management of agricultural resources and decision-making in agriculture. The methods and applications presented in this book cover decision-making processes in agricultural and environmental contexts. The methodologies described consider multiple criteria simultaneously in a wide range of complex decision-making contexts by taking into account multiple, conflicting criteria. Given the wide range of case studies covered, the book offers a comprehensive guide to decision-making in the agricultural context and beyond.
Author: Roland Clift
Publisher: Springer
ISBN: 3319205714
Category : Science
Languages : en
Pages : 373
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Book Description
How can we design more sustainable industrial and urban systems that reduce environmental impacts while supporting a high quality of life for everyone? What progress has been made towards reducing resource use and waste, and what are the prospects for more resilient, material-efficient economies? What are the environmental and social impacts of global supply chains and how can they be measured and improved? Such questions are at the heart of the emerging discipline of industrial ecology, covered in Taking Stock of Industrial Ecology. Leading authors, researchers and practitioners review how far industrial ecology has developed and current issues and concerns, with illustrations of what the industrial ecology paradigm has achieved in public policy, corporate strategy and industrial practice. It provides an introduction for students coming to industrial ecology and for professionals who wish to understand what industrial ecology can offer, a reference for researchers and practitioners and a source of case studies for teachers.
Author: Subramanian Senthilkannan Muthu
Publisher: Springer
ISBN: 9811332363
Category : Science
Languages : en
Pages : 76
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Book Description
This book highlights the Social Life Cycle Assessment (SLCA) of the agri-sector for rice, sugarcane, and cassava in Thailand and the food sector. It also presents a range of models, indices, impact categories, etc. for SLCA that are currently being developed for industrial applications. Though SLCA was introduced in 2010, it is still relatively new compared to environmental life cycle assessment (ELCA).
Author: Bruno Notarnicola
Publisher: Springer
ISBN: 3319119400
Category : Technology & Engineering
Languages : en
Pages : 408
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Book Description
The book presents an overview of the International practices and state-of-the-art of LCA studies in the agri-food sector, both in terms of adopted methodologies and application to particular products; the final purpose is to characterise and put order within the methodological issues connected to some important agri-food products (wine, olive oil, cereals and derived products, meat and fruit) and also defining practical guidelines for the implementation of LCAs in this particular sector. The first chapter entails an overview of the application of LCA to the food sector, the role of the different actors of the food supply chain and the methodological issues at a general level. The other chapters, each with a particular reference to the main foods of the five sectors under study, have a common structure which entails the review of LCA case studies of such agri-food products, the methodological issues, the ways with which they have been faced and the suggestion of practical guidelines.
Author: Food and Agriculture Organization (FAO)
Publisher: Food & Agriculture Organization of the UN (FAO)
ISBN: 9789251077207
Category : Social Science
Languages : en
Pages : 0
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Book Description
"Climate-smart agriculture, forestry and fisheries (CSA), contributes to the achievement of sustainable development goals. It integrates the three dimensions of sustainable development (economic, social and environmental) by jointly addressing food security and climate challenges. It is composed of three main pillars: sustainably increasing agricultural productivity and incomes; adapting and building resilience to climate change; reducing and/or removing greenhouse gases emissions, where possible. The purpose of the sourcebook is to further elaborate the concept of CSA and demonstrate its potential, as well as limitations. It aims to help decision makers at a number of levels (including political administrators and natural resource managers) to understand the different options that are available for planning, policies and investments and the practices that are suitable for making different agricultural sectors, landscapes and food systems more climate-smart. This sourcebook is a reference tool for planners, practitioners and policy makers working in agriculture, forestry and fisheries at national and subnational levels." -- Back cover.
Author: Mateo-Sagasta, Javier
Publisher: Rome, Italy: FAO Colombo, Sri Lanka: International Water Management Institute (IWMI). CGIAR Research Program on Water, Land and Ecosystems (WLE).
ISBN:
Category : Technology & Engineering
Languages : en
Pages : 35
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Book Description
Author: Michael Z. Hauschild
Publisher: Springer
ISBN: 9401797447
Category : Technology & Engineering
Languages : en
Pages : 345
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Book Description
This book offers a detailed presentation of the principles and practice of life cycle impact assessment. As a volume of the LCA compendium, the book is structured according to the LCIA framework developed by the International Organisation for Standardisation (ISO)passing through the phases of definition or selection of impact categories, category indicators and characterisation models (Classification): calculation of category indicator results (Characterisation); calculating the magnitude of category indicator results relative to reference information (Normalisation); and converting indicator results of different impact categories by using numerical factors based on value-choices (Weighting). Chapter one offers a historical overview of the development of life cycle impact assessment and presents the boundary conditions and the general principles and constraints of characterisation modelling in LCA. The second chapter outlines the considerations underlying the selection of impact categories and the classification or assignment of inventory flows into these categories. Chapters three through thirteen exploreall the impact categories that are commonly included in LCIA, discussing the characteristics of each followed by a review of midpoint and endpoint characterisation methods, metrics, uncertainties and new developments, and a discussion of research needs. Chapter-length treatment is accorded to Climate Change; Stratospheric Ozone Depletion; Human Toxicity; Particulate Matter Formation; Photochemical Ozone Formation; Ecotoxicity; Acidification; Eutrophication; Land Use; Water Use; and Abiotic Resource Use. The final two chapters map out the optional LCIA steps of Normalisation and Weighting.
Author: Claudine Basset-Mens
Publisher: Quae
ISBN: 2759234673
Category : Technology & Engineering
Languages : en
Pages : 213
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Book Description
Life Cycle Assessment (LCA) is the internationally recognized method to assess the environmental impacts of products and services. This operational guide provides best practice recommendations for LCA practitioners to carry out LCA studies on agri-food systems in developing and emerging contexts.
