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Our Earth is considered as a natural system which organizes and controls itself. However, the present scale of anthropogenic activity is unprecedented in the history of mankind compelling the intelligentia to ponder over the scientific causes of the problems, processes and sustainable and pragmatic solutions. The current rate of resource use and consumption pattern are depleting the planet’s finite resources and damaging life-supporting ecosystems. A large number of toxic substances are increasingly found in air, water, soil, and flora and fauna. We are in the midst of a period of increasing interconnected and complex global challenges that seek action across temporal and spatial scales, diverse sectors, and concerted efforts from global citizens. The environment on account of human’s action has been experiencing imbalances and ecological catastrophe. Environmental issues like global climate change, biodiversity loss, the rapid depletion of natural resources, degradation of global commons, stratospheric ozone depletion have been restricting the safe operating space and transgressing the planetary boundaries endangering the existence of human societies. The global environmental problems if not scientifically managed may end up in the civilizational collapse. Nevertheless, the underlying commonality among these environmental issues is interrelatedness, complexity, and difficulty in identifying and implementing solutions. The global environmental challenges can be managed by adopting sustainable green technologies which dovetails the principles of environmental sustainability with social and ecological sustainability. Green growth is construed as a new development paradigm that sustains economic growth while at the same time ensuring environmental sustainability.

Environmental management. --- Environmental stewardship --- Stewardship, Environmental --- Environmental sciences --- Management

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This book provides essential insights into methods and practices of ‘Climate-smart Agriculture,’ which is driven by the principles of climate resilience and smart resource use in agricultural production. Climate-smart agriculture is a key policy instrument for achieving poverty eradication and a hunger-free world, as well as mitigating the effects of climate change. This book discusses in detail climate-smart agricultural technologies and practices that can reduce the vulnerability of agricultural systems, improve the livelihoods of farmers and other stakeholders, and reduce the greenhouse gas emissions from crop production and livestock husbandry. The agriculture, forestry and other land use (AFOLU) sector produces roughly 10–12 gigatons of CO2-equivalent per year; therefore, sustainable practices for agriculture and related land use hold immense potential to mitigate climate change. The potential impacts of climate variability and climate change on agriculture are extensively documented and articulated, especially with regard to global and national environmental agendas that call for innovation, transformation and climate-resilient advances in agriculture. As the book demonstrates, climate-smart agriculture offers an excellent tool for boosting agricultural output to feed the growing global population; for reducing greenhouse gases emissions from agriculture and other land use; and for protecting agricultural production systems from the impending dangers of climate change.

Agriculture. --- Ecosystems. --- Climate change. --- Soil science. --- Soil conservation. --- Environmental management. --- Plant breeding. --- Climate Change. --- Soil Science & Conservation. --- Environmental Management. --- Plant Breeding/Biotechnology. --- Crops --- Agriculture --- Breeding --- Environmental stewardship --- Stewardship, Environmental --- Environmental sciences --- Management --- Conservation of soil --- Erosion control, Soil --- Soil erosion --- Soil erosion control --- Soils --- Agricultural conservation --- Soil management --- Pedology (Soil science) --- Earth sciences --- Changes, Climatic --- Changes in climate --- Climate change --- Climate change science --- Climate changes --- Climate variations --- Climatic change --- Climatic changes --- Climatic fluctuations --- Climatic variations --- Global climate changes --- Global climatic changes --- Climatology --- Climate change mitigation --- Teleconnections (Climatology) --- Biocenoses --- Biocoenoses --- Biogeoecology --- Biological communities --- Biomes --- Biotic community ecology --- Communities, Biotic --- Community ecology, Biotic --- Ecological communities --- Ecosystems --- Natural communities --- Ecology --- Population biology --- Farming --- Husbandry --- Industrial arts --- Life sciences --- Food supply --- Land use, Rural --- Control --- Prevention --- Conservation --- Environmental aspects --- Sustainable agriculture. --- Crops and climate. --- Agriculture and state. --- Agrarian question --- Agricultural policy --- State and agriculture --- Economic policy --- Land reform --- Agricultural climatology --- Agroclimatology --- Climate and crops --- Crop micrometeorology --- Plant biometeorology --- Agricultural ecology --- Bioclimatology --- Low-input agriculture --- Low-input sustainable agriculture --- Lower input agriculture --- Resource-efficient agriculture --- Sustainable farming --- Alternative agriculture --- Government policy --- Climatic factors

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The existential environmental crisis prompted the United Nations to formulate the Millennium Development Goals at the turn of the 21st century in order to embark on an era of sustainable development. The progress and deficiencies in achieving the Millennium Development Goals provided impetus to the intelligentsia and policymakers to map out the pertinent goals for a sustainable growth trajectory for humanity and the planet. The United Nations’ 2030 Agenda for Sustainable Development, which was adopted in September 2015, took the shape of 17 Sustainable Development Goals (SDGs) and 169 targets. In effect, the 17 Sustainable Development Goals focus on protecting the earth's life support systems for intra- and inter-generational equity and for development that is rooted in sustainability science. Attaining these goals is an uphill task; nevertheless, scientific knowledge, trans and interdisciplinary inquiries, concerted global action and capacity building would provide an enabling environment for achieving the SDGs. This book explores the synergies and trade-offs between climate change management and other SDGs. It highlights the policy imperatives as well as the interrelations between combating climate change and its impacts (SDG 13) and food and nutritional security (SDG 2), water security (SDG 6), soil security (SDG 15), energy security (SDG 7), poverty eradication (SDG 1), gender equality (SDG 5), resilient infrastructure (SDG 9), and sustainable and resilient cities (SDG 11).

Agriculture. --- Sustainable development. --- Climate change. --- Nature conservation. --- Plant breeding. --- Sustainable Development. --- Climate Change. --- Nature Conservation. --- Plant Breeding/Biotechnology. --- Crops --- Agriculture --- Breeding --- Conservation of nature --- Nature --- Nature protection --- Protection of nature --- Conservation of natural resources --- Applied ecology --- Conservation biology --- Endangered ecosystems --- Natural areas --- Changes, Climatic --- Changes in climate --- Climate change --- Climate change science --- Climate changes --- Climate variations --- Climatic change --- Climatic changes --- Climatic fluctuations --- Climatic variations --- Global climate changes --- Global climatic changes --- Climatology --- Climate change mitigation --- Teleconnections (Climatology) --- Development, Sustainable --- Ecologically sustainable development --- Economic development, Sustainable --- Economic sustainability --- ESD (Ecologically sustainable development) --- Smart growth --- Sustainable development --- Sustainable economic development --- Economic development --- Farming --- Husbandry --- Industrial arts --- Life sciences --- Food supply --- Land use, Rural --- Conservation --- Environmental aspects --- Climatic changes. --- Global environmental change

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Our Earth is considered as a natural system which organizes and controls itself. However, the present scale of anthropogenic activity is unprecedented in the history of mankind compelling the intelligentia to ponder over the scientific causes of the problems, processes and sustainable and pragmatic solutions. The current rate of resource use and consumption pattern are depleting the planet’s finite resources and damaging life-supporting ecosystems. A large number of toxic substances are increasingly found in air, water, soil, and flora and fauna. We are in the midst of a period of increasing interconnected and complex global challenges that seek action across temporal and spatial scales, diverse sectors, and concerted efforts from global citizens. The environment on account of human’s action has been experiencing imbalances and ecological catastrophe. Environmental issues like global climate change, biodiversity loss, the rapid depletion of natural resources, degradation of global commons, stratospheric ozone depletion have been restricting the safe operating space and transgressing the planetary boundaries endangering the existence of human societies. The global environmental problems if not scientifically managed may end up in the civilizational collapse. Nevertheless, the underlying commonality among these environmental issues is interrelatedness, complexity, and difficulty in identifying and implementing solutions. The global environmental challenges can be managed by adopting sustainable green technologies which dovetails the principles of environmental sustainability with social and ecological sustainability. Green growth is construed as a new development paradigm that sustains economic growth while at the same time ensuring environmental sustainability.

Meteorology. Climatology --- Social medicine --- Environmental protection. Environmental technology --- Production management --- monitoring --- duurzaamheid --- milieuhygiëne --- milieubeleid --- milieuzorg --- duurzame ontwikkeling --- klimaatverandering --- milieuanalyse

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This book provides essential insights into methods and practices of ‘Climate-smart Agriculture,’ which is driven by the principles of climate resilience and smart resource use in agricultural production. Climate-smart agriculture is a key policy instrument for achieving poverty eradication and a hunger-free world, as well as mitigating the effects of climate change. This book discusses in detail climate-smart agricultural technologies and practices that can reduce the vulnerability of agricultural systems, improve the livelihoods of farmers and other stakeholders, and reduce the greenhouse gas emissions from crop production and livestock husbandry. The agriculture, forestry and other land use (AFOLU) sector produces roughly 10–12 gigatons of CO2-equivalent per year; therefore, sustainable practices for agriculture and related land use hold immense potential to mitigate climate change. The potential impacts of climate variability and climate change on agriculture are extensively documented and articulated, especially with regard to global and national environmental agendas that call for innovation, transformation and climate-resilient advances in agriculture. As the book demonstrates, climate-smart agriculture offers an excellent tool for boosting agricultural output to feed the growing global population; for reducing greenhouse gases emissions from agriculture and other land use; and for protecting agricultural production systems from the impending dangers of climate change.

Meteorology. Climatology --- General ecology and biosociology --- Botany --- Environmental protection. Environmental technology --- Pedology --- Agriculture. Animal husbandry. Hunting. Fishery --- bodemkunde --- bevolking --- landbouw --- milieubeleid --- ecosystemen --- klimaatverandering