Your search keyword '"Global Warming mortality"' showing total 21 results

1. How climate change is hitting Europe: three graphics reveal health impacts.

Author

Wong C

Subjects

Humans, Europe epidemiology, Global Warming mortality, Global Warming statistics & numerical data, Climate Change mortality, Climate Change statistics & numerical data, Public Health statistics & numerical data, Public Health trends

Published

2024

2. Climate change is also a health crisis - these 3 graphics explain why.

Author

Wong C

Subjects

Humans, Communicable Diseases epidemiology, Communicable Diseases mortality, Food Insecurity, Global Warming mortality, Global Warming statistics & numerical data, Congresses as Topic, Climate Change mortality, Climate Change statistics & numerical data, Global Health statistics & numerical data, Global Health trends, Data Visualization

Published

2023

3. Extreme escalation of heat failure rates in ectotherms with global warming.

Author

Jørgensen LB, Ørsted M, Malte H, Wang T, and Overgaard J

Subjects

Aging, Growth, Homeostasis, Animals, Global Warming mortality, Hot Temperature adverse effects, Body Temperature Regulation, Extreme Heat

Abstract

Temperature affects the rate of all biochemical processes in ectotherms 1,2 and is therefore critical for determining their current and future distribution under global climate change 3-5 . Here we show that the rate of biological processes maintaining growth, homeostasis and ageing in the permissive temperature range increases by 7% per degree Celsius (median activation energy E a  = 0.48 eV from 1,351 rates across 314 species). By contrast, the processes underlying heat failure rate within the stressful temperature range are extremely temperature sensitive, such that heat failure increases by more than 100% per degree Celsius across a broad range of taxa (median E a  = 6.13 eV from 123 rates across 112 species). The extreme thermal sensitivity of heat failure rates implies that the projected increase in the frequency and intensity of heatwaves can exacerbate heat mortality for many ectothermic species with severe and disproportionate consequences. Combining the extreme thermal sensitivities with projected increases in maximum temperatures globally 6 , we predict that moderate warming scenarios can increase heat failure rates by 774% (terrestrial) and 180% (aquatic) by 2100. This finding suggests that we are likely to underestimate the potential impact of even a modest global warming scenario., (© 2022. The Author(s), under exclusive licence to Springer Nature Limited.)

Published

2022

4. Removing carbon dioxide: first, do no harm.

Author

Buesseler K, Leinen M, and Ramakrishna K

Subjects

Animals, Guidelines as Topic, Humans, Carbon Dioxide analysis, Carbon Dioxide isolation & purification, Global Warming mortality, Global Warming prevention & control

Published

2022

5. Thermal conditions predict intraspecific variation in senescence rate in frogs and toads.

Author

Cayuela H, Lemaître JF, Muths E, McCaffery RM, Frétey T, Le Garff B, Schmidt BR, Grossenbacher K, Lenzi O, Hossack BR, Eby LA, Lambert BA, Elmberg J, Merilä J, Gippet JMW, Gaillard JM, and Pilliod DS

Subjects

Aging physiology, Animals, Biodiversity, Bufonidae metabolism, Climate Change mortality, Europe, Global Warming mortality, North America, Ranidae metabolism, Temperature, Aging metabolism, Anura metabolism

Abstract

Variation in temperature is known to influence mortality patterns in ectotherms. Even though a few experimental studies on model organisms have reported a positive relationship between temperature and actuarial senescence (i.e., the increase in mortality risk with age), how variation in climate influences the senescence rate across the range of a species is still poorly understood in free-ranging animals. We filled this knowledge gap by investigating the relationships linking senescence rate, adult lifespan, and climatic conditions using long-term capture-recapture data from multiple amphibian populations. We considered two pairs of related anuran species from the Ranidae ( Rana luteiventris and Rana temporaria ) and Bufonidae ( Anaxyrus boreas and Bufo bufo ) families, which diverged more than 100 Mya and are broadly distributed in North America and Europe. Senescence rates were positively associated with mean annual temperature in all species. In addition, lifespan was negatively correlated with mean annual temperature in all species except A. boreas In both R. luteiventris and A. boreas , mean annual precipitation and human environmental footprint both had negligible effects on senescence rates or lifespans. Overall, our findings demonstrate the critical influence of thermal conditions on mortality patterns across anuran species from temperate regions. In the current context of further global temperature increases predicted by Intergovernmental Panel on Climate Change scenarios, a widespread acceleration of aging in amphibians is expected to occur in the decades to come, which might threaten even more seriously the viability of populations and exacerbate global decline., Competing Interests: The authors declare no competing interest.

Published

2021

6. Introducing the 21st Century's New Four Horsemen of the Coronapocalypse.

Author

Cheong KH and Jones MC

Subjects

COVID-19, Coronavirus Infections transmission, Coronavirus Infections virology, Disasters prevention & control, Extinction, Biological, Forecasting, Global Warming mortality, Humans, Neural Networks, Computer, Pneumonia, Viral transmission, Pneumonia, Viral virology, SARS-CoV-2, Sea Level Rise mortality, Betacoronavirus, Coronavirus Infections epidemiology, Coronavirus Infections prevention & control, Internationality, Pandemics prevention & control, Pneumonia, Viral epidemiology, Pneumonia, Viral prevention & control, Population Density, Transportation, Urbanization trends

Abstract

As the world struggles through the COVID-19 pandemic, we should also be asking what systems-level measures will be needed to prevent this or even worse disasters from happening in the future. We argue that the pandemic is merely one of potentially myriad and pleiomorphic future global disasters generated by the same underlying dynamical system. We explain that there are four broad but easily identifiable systemic, pathologically networked conditions that are hurtling civilization toward potential self-destruction. As long as these conditions are not resolved, we should consider catastrophe as an inevitable emergent endpoint from the dynamics. All four conditions can be reversed with collective action to begin creating an enduring and thriving post- COVID-19 world. This will require maximal application of the precautionary principle., (© 2020 WILEY Periodicals, Inc.)

Published

2020

7. Mapping the increased minimum mortality temperatures in the context of global climate change.

Author

Yin Q, Wang J, Ren Z, Li J, and Guo Y

Subjects

Acclimatization, Environmental Exposure, Geography, Humans, Linear Models, Survival Analysis, Global Warming mortality, Temperature

Abstract

Minimum mortality temperature (MMT) is an important indicator to assess the temperature-mortality relationship. It reflects human adaptability to local climate. The existing MMT estimates were usually based on case studies in data rich regions, and limited evidence about MMT was available at a global scale. It is still unclear what the most significant driver of MMT is and how MMT will change under global climate change. Here, by analysing MMTs in 420 locations covering six continents (Antarctica was excluded) in the world, we found that although the MMT changes geographically, it is very close to the local most frequent temperature (MFT) in the same period. The association between MFT and MMT is not changed when we adjust for latitude and study year. Based on the MFT~MMT association, we estimate and map the global distribution of MMTs in the present (2010s) and the future (2050s) for the first time.

Published

2019

8. Win-wins for health and climate - new report.

Author

Fears R, Hobbhahn N, Ter Meulen V, and Haines A

Subjects

Acclimatization, Air Pollution statistics & numerical data, Environmental Policy, Floods statistics & numerical data, Food Supply statistics & numerical data, Fossil Fuels supply & distribution, Global Warming mortality, Global Warming statistics & numerical data, Humans, Infrared Rays, Air Pollution prevention & control, Global Warming prevention & control, Public Health statistics & numerical data, Renewable Energy statistics & numerical data, Research Report

Published

2019

9. Air-quality-related health impacts from climate change and from adaptation of cooling demand for buildings in the eastern United States: An interdisciplinary modeling study.

Author

Abel DW, Holloway T, Harkey M, Meier P, Ahl D, Limaye VS, and Patz JA

Subjects

Adult, Aged, Aged, 80 and over, Air Conditioning economics, Cause of Death, Computer Simulation, Environmental Monitoring methods, Female, Health Status, Humans, Male, Middle Aged, Models, Theoretical, Numerical Analysis, Computer-Assisted, Risk Assessment, Risk Factors, Time Factors, United States, Air Conditioning adverse effects, Air Pollutants adverse effects, Air Pollution economics, Environmental Exposure adverse effects, Facility Design and Construction economics, Global Warming economics, Global Warming mortality, Particulate Matter adverse effects, Temperature

Abstract

Background: Climate change negatively impacts human health through heat stress and exposure to worsened air pollution, amongst other pathways. Indoor use of air conditioning can be an effective strategy to reduce heat exposure. However, increased air conditioning use increases emissions of air pollutants from power plants, in turn worsening air quality and human health impacts. We used an interdisciplinary linked model system to quantify the impacts of heat-driven adaptation through building cooling demand on air-quality-related health outcomes in a representative mid-century climate scenario., Methods and Findings: We used a modeling system that included downscaling historical and future climate data with the Weather Research and Forecasting (WRF) model, simulating building electricity demand using the Regional Building Energy Simulation System (RBESS), simulating power sector production and emissions using MyPower, simulating ambient air quality using the Community Multiscale Air Quality (CMAQ) model, and calculating the incidence of adverse health outcomes using the Environmental Benefits Mapping and Analysis Program (BenMAP). We performed simulations for a representative present-day climate scenario and 2 representative mid-century climate scenarios, with and without exacerbated power sector emissions from adaptation in building energy use. We find that by mid-century, climate change alone can increase fine particulate matter (PM2.5) concentrations by 58.6% (2.50 μg/m3) and ozone (O3) by 14.9% (8.06 parts per billion by volume [ppbv]) for the month of July. A larger change is found when comparing the present day to the combined impact of climate change and increased building energy use, where PM2.5 increases 61.1% (2.60 μg/m3) and O3 increases 15.9% (8.64 ppbv). Therefore, 3.8% of the total increase in PM2.5 and 6.7% of the total increase in O3 is attributable to adaptive behavior (extra air conditioning use). Health impacts assessment finds that for a mid-century climate change scenario (with adaptation), annual PM2.5-related adult mortality increases by 13,547 deaths (14 concentration-response functions with mean incidence range of 1,320 to 26,481, approximately US$126 billion cost) and annual O3-related adult mortality increases by 3,514 deaths (3 functions with mean incidence range of 2,175 to 4,920, approximately US$32.5 billion cost), calculated as a 3-month summer estimate based on July modeling. Air conditioning adaptation accounts for 654 (range of 87 to 1,245) of the PM2.5-related deaths (approximately US$6 billion cost, a 4.8% increase above climate change impacts alone) and 315 (range of 198 to 438) of the O3-related deaths (approximately US$3 billion cost, an 8.7% increase above climate change impacts alone). Limitations of this study include modeling only a single month, based on 1 model-year of future climate simulations. As a result, we do not project the future, but rather describe the potential damages from interactions arising between climate, energy use, and air quality., Conclusions: This study examines the contribution of future air-pollution-related health damages that are caused by the power sector through heat-driven air conditioning adaptation in buildings. Results show that without intervention, approximately 5%-9% of exacerbated air-pollution-related mortality will be due to increases in power sector emissions from heat-driven building electricity demand. This analysis highlights the need for cleaner energy sources, energy efficiency, and energy conservation to meet our growing dependence on building cooling systems and simultaneously mitigate climate change., Competing Interests: I have read the journal’s policy and the authors of this manuscript have the following competing interests: PM has an ownership interest in the MyPower model used to generate power plant emissions estimates for this study. The data from this study are publicly available. JAP served as a Guest Editor on PLOS Medicine's Special Issue on Climate Change and Health.

Published

2018

10. Projected Temperature-Related Years of Life Lost From Stroke Due To Global Warming in a Temperate Climate City, Asia: Disease Burden Caused by Future Climate Change.

Author

Li G, Guo Q, Liu Y, Li Y, and Pan X

Subjects

China epidemiology, Cities, Climate Change mortality, Forecasting, Greenhouse Gases, Humans, Nonlinear Dynamics, Retrospective Studies, Seasons, Temperature, Global Warming mortality, Life Expectancy, Stroke mortality

Abstract

Background and Purpose: Global warming has attracted worldwide attention. Numerous studies have indicated that stroke is associated with temperature; however, few studies are available on the projections of the burden of stroke attributable to future climate change. We aimed to investigate the future trends of stroke years of life lost (YLL) associated with global warming., Methods: We collected death records to examine YLL in Tianjin, China, from 2006 to 2011. We fitted a standard time-series Poisson regression model after controlling for trends, day of the week, relative humidity, and air pollution. We estimated temperature-YLL associations with a distributed lag nonlinear model. These models were then applied to the local climate projections to estimate temperature-related YLL in the 2050s and 2070s. We projected temperature-related YLL from stroke in Tianjin under 19 global-scale climate models and 3 different greenhouse gas emission scenarios., Results: The results showed a slight decrease in YLL with percent decreases of 0.85%, 0.97%, and 1.02% in the 2050s and 0.94%, 1.02%, and 0.91% in the 2070s for the 3 scenarios, respectively. The increases in heat-related annual YLL and the decreases in cold-related YLL under the high emission scenario were the strongest. The monthly analysis showed that the most significant increase occurred in the summer months, particularly in August, with percent changes >150% in the 2050s and up to 300% in the 2070s., Conclusions: Future changes in climate are likely to lead to an increase in heat-related YLL, and this increase will not be offset by adaptation under both medium emission and high emission scenarios. Health protections from hot weather will become increasingly necessary, and measures to reduce cold effects will also remain important., (© 2018 American Heart Association, Inc.)

Published

2018

11. Extreme weather explicitly blamed on humans for the first time.

Subjects

Administrative Personnel, Cyclonic Storms statistics & numerical data, El Nino-Southern Oscillation, Environmental Policy, Global Warming mortality, Global Warming prevention & control, Heat Stroke mortality, Hot Temperature, India epidemiology, Thailand epidemiology, Wildfires statistics & numerical data, Global Warming statistics & numerical data, Human Activities, Models, Theoretical, Weather

Published

2017

12. Heatwaves to soar above the hot air of climate politics.

Subjects

Droughts mortality, Fear, Global Warming prevention & control, Humans, Population Density, Rain, United States, United States Environmental Protection Agency economics, United States Environmental Protection Agency legislation & jurisprudence, Environmental Policy legislation & jurisprudence, Global Warming legislation & jurisprudence, Global Warming mortality, Hot Temperature adverse effects, Politics

Published

2017

13. Short-term predicted extinction of Andean populations of the lizard Stenocercus guentheri (Iguanidae: Tropidurinae).

Author

Andrango MB, Sette C, and Torres-Carvajal O

Subjects

Animals, Body Temperature, Ecosystem, Female, Male, South America, Temperature, Thermotolerance, Acclimatization, Body Temperature Regulation, Extinction, Biological, Global Warming mortality, Lizards physiology

Abstract

We studied the thermal physiology of the Andean lizard Stenocercus guentheri in order to evaluate the possible effects of global warming on this species. We determined the preferred body temperature (T pref ), critical thermals (CTmin, CTmax), and hours of restriction and activity. T pref was 32.14±1.83°C; CTmin was 8.31°C in adults and 9.14°C in juveniles, whereas CTmax was 43.28°C in adults and 41.68°C in juveniles. To assess extinction risk, we used the model created by Sinervo et al. (2010) and predicted that 16.7% of populations will have a high risk of extinction by 2020, with an increase to 26.7% by 2050. These results suggest that this species, despite being able to maintain its T pref through behavioral thermoregulation and habitat selection, could be physiologically sensitive to climate warming; thus, the potential for local adaptation may be limited under a warmer climate. Further studies focusing on the ability of S. guentheri to evolve higher T pref and thermal tolerances are needed to understand the ability of this species to respond to climate change., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

14. How cities can beat the heat.

Author

Hoag H

Subjects

Atmosphere analysis, Chicago, City Planning methods, Environment Design, Gardening supply & distribution, Global Warming mortality, Heat Stroke mortality, Humans, Los Angeles, Ontario, Population Density, Cities statistics & numerical data, Facility Design and Construction methods, Global Warming statistics & numerical data, Heat Stroke prevention & control, Hot Temperature adverse effects

Published

2015

15. Cuba confronts climate change.

Author

Alonso G and Clark I

Subjects

Communicable Disease Control economics, Cuba epidemiology, Disaster Planning economics, Disaster Planning methods, Ecosystem, Global Warming economics, Global Warming mortality, Health Planning economics, Health Planning methods, Humans, Socioeconomic Factors, Communicable Disease Control methods, Disaster Planning organization & administration, Global Warming prevention & control, Health Planning organization & administration, Public Health, Public Policy economics

Abstract

Among environmental problems, climate change presents the greatest challenges to developing countries, especially island nations. Changes in climate and the resulting effects on human health call for examination of the interactions between environmental and social factors. Important in Cuba's case are soil conditions, food availability, disease burden, ecological changes, extreme weather events, water quality and rising sea levels, all in conjunction with a range of social, cultural, economic and demographic conditions.

Published

2015

16. Editorial: The Great Procrastination.

Author

Lemery J, Williams C, and Farmer P

Subjects

Global Health ethics, Global Warming mortality, Humans, Social Justice, Climate Change mortality, Human Rights

Published

2014

17. Adapting to a warmer world: No going back.

Author

Heffernan O

Subjects

Alaska, Bangladesh epidemiology, Cyclonic Storms, Disaster Planning statistics & numerical data, Disasters prevention & control, Environmental Policy legislation & jurisprudence, Floods mortality, Floods statistics & numerical data, Global Warming mortality, Global Warming prevention & control, Hot Temperature adverse effects, Human Migration trends, Humans, Mozambique epidemiology, New York City, United Kingdom, Victoria, Water Supply statistics & numerical data, Disaster Planning trends, Disasters statistics & numerical data, Environmental Policy trends, Global Warming statistics & numerical data

Published

2012

18. Global climate change and children's health: threats and strategies for prevention.

Author

Sheffield PE and Landrigan PJ

Subjects

Child, Preschool, Communicable Diseases epidemiology, Environmental Policy, Global Warming mortality, Global Warming prevention & control, Health Status Indicators, Hot Temperature adverse effects, Humans, Infant, Infant, Newborn, Morbidity trends, Weather, Global Warming statistics & numerical data, Health Status

Abstract

Background: Global climate change will have multiple effects on human health. Vulnerable populations-children, the elderly, and the poor-will be disproportionately affected., Objective: We reviewed projected impacts of climate change on children's health, the pathways involved in these effects, and prevention strategies., Data Sources: We assessed primary studies, review articles, and organizational reports., Data Synthesis: Climate change is increasing the global burden of disease and in the year 2000 was responsible for > 150,000 deaths worldwide. Of this disease burden, 88% fell upon children. Documented health effects include changing ranges of vector-borne diseases such as malaria and dengue; increased diarrheal and respiratory disease; increased morbidity and mortality from extreme weather; changed exposures to toxic chemicals; worsened poverty; food and physical insecurity; and threats to human habitation. Heat-related health effects for which research is emerging include diminished school performance, increased rates of pregnancy complications, and renal effects. Stark variation in these outcomes is evident by geographic region and socioeconomic status, and these impacts will exacerbate health disparities. Prevention strategies to reduce health impacts of climate change include reduction of greenhouse gas emissions and adaptation through multiple public health interventions., Conclusions: Further quantification of the effects of climate change on children's health is needed globally and also at regional and local levels through enhanced monitoring of children's environmental health and by tracking selected indicators. Climate change preparedness strategies need to be incorporated into public health programs.

Published

2011

19. Sponge mass mortalities in a warming Mediterranean Sea: are cyanobacteria-harboring species worse off?

Author

Cebrian E, Uriz MJ, Garrabou J, and Ballesteros E

Subjects

Animals, Mediterranean Sea, Photosynthesis, Porifera metabolism, Seawater chemistry, Cyanobacteria, Global Warming mortality, Porifera microbiology, Symbiosis, Temperature

Abstract

Mass mortality events are increasing dramatically in all coastal marine environments. Determining the underlying causes of mass mortality events has proven difficult in the past because of the lack of prior quantitative data on populations and environmental variables. Four-year surveys of two shallow-water sponge species, Ircinia fasciculata and Sarcotragus spinosulum, were carried out in the western Mediterranean Sea. These surveys provided evidence of two severe sponge die-offs (total mortality ranging from 80 to 95% of specimens) occurring in the summers of 2008 and 2009. These events primarily affected I. fasciculata, which hosts both phototrophic and heterotrophic microsymbionts, while they did not affect S. spinosulum, which harbors only heterotrophic bacteria. We observed a significant positive correlation between the percentage of injured I. fasciculata specimens and exposure time to elevated temperature conditions in all populations, suggesting a key role of temperature in triggering mortality events. A comparative ultrastructural study of injured and healthy I. fasciculata specimens showed that cyanobacteria disappeared from injured specimens, which suggests that cyanobacterial decay could be involved in I. fasciculata mortality. A laboratory experiment confirmed that the cyanobacteria harbored by I. fasciculata displayed a significant reduction in photosynthetic efficiency in the highest temperature treatment. The sponge disease reported here led to a severe decrease in the abundance of the surveyed populations. It represents one of the most dramatic mass mortality events to date in the Mediterranean Sea.

Published

2011

20. End-of-days danger.

Author

Krauss LM

Subjects

Carbon Dioxide, Global Warming mortality, Humans, Hydrogen-Ion Concentration, Politics, Climate Change mortality, Disasters

Published

2010

21. Ambient temperature and mortality: an international study in four capital cities of East Asia.

Author

Chung JY, Honda Y, Hong YC, Pan XC, Guo YL, and Kim H

Subjects

Cardiovascular Diseases mortality, Asia, Eastern, Humans, Linear Models, Respiratory Tract Diseases mortality, Urban Population, Cities epidemiology, Global Warming mortality, Hot Temperature adverse effects

Abstract

Extreme ambient temperature has been associated with increased daily mortality across the world. We describe the ambient temperature-mortality association for four capital cities in East Asia, Seoul, Beijing, Tokyo, and Taipei, and identify a threshold temperature for each city and the percent increase in mortality. We adapted generalized linear modeling with natural cubic splines (GLM+NS) to examine the association between daily mean apparent temperature (AT) and total mortality, as well as mortality due to respiratory (RD) and cardiovascular (CVD) causes in a threshold model. We conducted a time-series analysis adjusting for day of the week and long-term time trend. The study period differed by city. The threshold temperature for all seasons was estimated to be 30.1-33.5 degrees C, 31.3-32.3 degrees C, 29.4-30.8 degrees C, and 25.2 degrees -31.5 degrees C for Seoul, Beijing, Tokyo, and Taipei, respectively, on the same day. For the mean daily AT increase of 1 degrees C above the thresholds in Seoul, Tokyo, and Taipei, estimated percentage increases in daily total mortality were 2.7 (95% confidence interval (CI)=2.2-3.1), 1.7 (95% CI=1.5-2.0), and 4.3 (95% CI=2.9-5.7), respectively. Beijing provided no total mortality counts. Estimated percentage increases were 2.7-10.5 for RD mortality, 1.1-9.3 for CVD mortality in 4 cities. This study identified increased mortality due to exposure to elevated AT. The importance of effects of AT and city-specific threshold temperatures suggests that analyses of the impact of climate change should take regional differences into consideration.

Published

2009