Download Free Increasing Resilience To Climate Change In The Agricultural Sector Of The Middle East Book in PDF and EPUB Free Download. You can read online Increasing Resilience To Climate Change In The Agricultural Sector Of The Middle East and write the review.

This publication aims to increase understanding the challenges and opportunities posed by climate change in the agricultural sector to increase climate resilience. It aims to assit in discussions taking place within governments, including the Ministries of Agriculture and Environment, on how to move forward in building resilience to climate change
This book, as a part of a series of CERES publications, provides a multi-regional and cross-sectoral analysis of food and water security, especially in the era of climate risks, biodiversity loss, pressure on scarce resources, especially land and water, increasing global population, and changing dietary preferences. It includes both conceptual research and empirically-based studies, which provides context-specific analyses and recommendations based on a variety of case studies from Africa, Middle East, and Asia regarding the fostering of long-term resilience of food and water security. The core approach of the volume consists of: assessing the structural drivers affecting the vulnerability of food and water security, under the persistence of current trends; identifying the best solutions and practices to enhance the climate resilience for food and water security; and fostering climate adaptation and biodiversity protection for food and water security.
The resilience of food systems and security to emerging challenges and threats, especially in the context of environmental and climate risks and global pandemics such as the Covid-19 crisis, is currently gaining growing importance in research, policy, and practice. Based on this, the core focus of this book, as a part of a series of CERES publications, consists of identifiying and exploring the best ways to overcome such challenges and shocks and to build resilience in the Global South. More precisely, the book analyzes current dynamics and trends related to the climate resilience of food security and assess the relevance of emerging approaches such as climate-smart agriculture, new roles of agriculture extension, smart farming, and climate adaptation of farming systems.The book includes both conceptual and empirical research reporting lessons learned from many geographical, environmental, social, and policy settings while focusing on Africa, Middle East, and Asia. It also provides research and policy-oriented inputs and recommendations to guide change processes at multiple scales.
"The joint workshop on Building resilience for adaptation to climate change in the agriculture sector was organized by FAO and OECD, and was held from 23 to 24 April 2012, at FAO headquarters in Rome."--P. 5.
In the Arab countries, climate change is a risk to poverty reduction and economic growth, threatening to unravel many of the development gains that have been achieved. The Arab Region is already suffering adverse consequences from climate variability and change. This book provides information on climate change and its impact in the Arab Region, as well as technical guidance on climate adaptation options for policy makers. The areas addressed include the economic impacts of climate change (as measured by the reduction in household income and GDP); the impacts of climate change on the water, health, and tourism sectors; livelihoods and well-being in rural and urban areas; biodiversity; disaster risk management; as well as gender and other social relations. The report is written through a participatory and collaborative process, led by the World Bank in partnership with the League of Arab States, incorporating both regional and international experts on the topics.
This volume discusses the need to adopt Climate-Resilient Agriculture (CRA) practices to address the increasing global impact that climate change has on agricultural productivity and agriculture-dependent communities. This approach applies technological, policy and economic measures to achieve sustainable agricultural growth in the sectors of grain, fruit, vegetable, fiber, feed, livestock, fisheries and forestry, with the ultimate goal of adapting and building resilience to climate change. The book also uses GIS, crop modeling and remote sensing techniques for future climate resilience applications in agriculture, and covers pest control measures that avoid the use of pesticides to boost crop and livestock productivity for improved food security. The book will be of interest to researchers and students in environmental science, climate science, sustainability and agriculture, as well as policy makers and environmental organizations.
The importance of a resilient agriculture sector in providing food security, livelihoods, and household income was highlighted in many countries by the recent pandemic, as was the capacity of the sector to cushion the negative impacts of the subsequent economic slowdown. This has been the case in Egypt, where agriculture has been resilient to the health crisis in comparison with the service and industry sectors (Breisinger et al. 2020). However, the sector’s resiliency is gradually being corroded by climate change, with lasting, harmful effects for agriculture and food systems.
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.
Climate change negatively affects Egypt’s agriculture sector. This brief summarizes the results of a modeling exercise to examine a range of climate change adaptation approaches to counteract agricultural productivity declines. Rather than simulating a single technology, a ‘suite of technologies’ approach was used. For several food crops, none of the technology suites, individually or in combination, are shown to counteract the adverse impacts of climate change. For these crops, which include maize, oilseeds, pulses, and sugar, even stacking of technologies will not return productivity to pre-climate change levels. However, for fruits and vegetables, potatoes, rice, and wheat, crops less adversely affected by climate change, increased investments in climate changeresponsive crop traits, soil fertility improvement, water management, crop protection, or a combination of these technologies can counteract the adverse impacts of climate change on agricultural productivity. From a policy perspective, strong cooperation with the rest of the world on climate change adaptation will ultimately benefit Egyptian consumers. Doing so will reduce disruption of global food markets, which is of particular importance for countries, like Egypt, that are well integrated into those markets. In particular, Egypt’s economy and all Egyptian consumers benefit from the importation of lower-value, high water-consuming cereals under the hotter and drier conditions that can be expected in Egypt in the future due to climate change.