Climate change is the biggest threat to the fertility of mammals across the globe through its potential effects on heat stress, nutrition security, extreme weather events, vulnerable shelter, and population migration. Climatic variables, such as temperature and humidity, are common environmental stressors as well as nutritional stress, which reduces fertility. Besides climate and nutritional stressors, another major factor responsible for reduced fertility discovered within the past decade is the exposure to potential hazardous substances such as chemical, radiation, physical, biological, and occupational hazards. This exposure includes anything from heavy metals and gases to pathogens and toxins and any substance that interferes with natural biological functions of the exposed workers, pregnant and breast-feeding workers, and young working population. There also must be research focused on developmental hazards that alter the structure and function of the developing embryo as well. The different climatic factors in the era of climate change need to be explored to discuss the impacts on fertility. Climate Change and Its Impact on Fertility highlights the issues and concerns that address the latest impact of climate change and mitigation strategies for enhancing early embryo survival and uterine potential. This book covers the effects of climate change on both the biological parents and the embryo by discussing the negative impacts, providing an overview of the variety of climate changes currently affecting fertility, and exploring possible solutions. This book is ideally intended for medical scientists and doctors, reproductive biologists, experimental toxicologists, mammalian cell biologists, clinicians, embryologists, health and safety agencies/regulatory authorities, public health officials, and policymakers along with practitioners, stakeholders, researchers, academicians, and students interested in climate change and its link to embryo growth, developmental risk, implantation failure, and fertility.
Type: BOOK - Published: 2021-01-22 - Publisher: IGI Global
Climate change is the biggest threat to the fertility of mammals across the globe through its potential effects on heat stress, nutrition security, extreme weather events, vulnerable shelter, and population migration. Climatic variables, such as temperature and humidity, are common environmental stressors as well as nutritional stress, which reduces fertility.
Authors: Management Association, Information Resources
Type: BOOK - Published: 2021-10-29 - Publisher: IGI Global
Climate change is an issue that has been generating a significant amount of discussion, research, and debate in recent years. Climate change continues to evolve at a rapid rate and continues to have a wide array of effects on everything from temperature to plant life. Beyond the negative environmental impacts,
Type: BOOK - Published: 2021-06-25 - Publisher: IGI Global
Climate change is a major problem, generating both risks and opportunities that will have a direct impact on the economy and the financial sector. In recent years, climate change has threatened both the survival of the financial system and economic development. The growing occurrence of extreme climate events combined with
Type: BOOK - Published: 2022-06-16 - Publisher: John Wiley & Sons
One of the major challenges facing the world today is the interaction between demographic changes and development. Rather than the usual view that the population itself is the main problem, Population and Development Issues argues that it is just one factor among many others, such as poverty, illiteracy, poor health,
Authors: V. Venkatramanan, Shachi Shah, Ram Prasad
Type: BOOK - Published: 2019-10-11 - Publisher: Springer Nature
Global climate change threatens human existence through its potential impact on agriculture and the environment. Agriculture is climate-sensitive, and climate variability and climate change have net negative impact on it. Additionally, the agricultural landscape is affected by monoculture and agro-biodiversity loss, soil fertility depletion and soil loss, competition from biofuel