The extensive use of natural resources threatens to exceed the carrying capacity of the Earth. The concept of a
circular economy offers an avenue to sustainable growth, good health and decent jobs, while saving the environment
and its natural resources. Further, the change from a linear economy (t...ake, make, dispose) to a circular economy (renew, remake, share) is expected to support significantly the attainment of the Sustainable Development Goals
(SDGs), particularly SDG 12 on responsible consumption and production.
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This report provides an overview of the main findings of the 2019–2020 harmonised AMR monitoring in the main food-producing animal populations monitored, in carcase/meat samples and in humans. Where available, monitoring data obtained from pigs, calves, broilers, laying hens and turkeys, as well a...s from carcase/meat samples and humans were combined and compared at the EU level, with particular emphasis on multidrug resistance, complete susceptibility and combined resistance patterns to critically important antimicrobials, as well as Salmonella and E. coli isolates possessing ESBL-/AmpC-/carbapenemase phenotypes.
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PlosOne December 10, 2014 https://doi.org/10.1371/journal.pone.0111913
Plastic pollution is ubiquitous throughout the marine environment, yet estimates of the global abundance and weight of floating plastics have lacked data, particularly from the Southern Hemisphere and remote regions. Here we re...port an estimate of the total number of plastic particles and their weight floating in the world's oceans from 24 expeditions (2007–2013) across all five sub-tropical gyres, costal Australia, Bay of Bengal and the Mediterranean Sea conducting surface net tows (N = 680) and visual survey transects of large plastic debris (N = 891). Using an oceanographic model of floating debris dispersal calibrated by our data, and correcting for wind-driven vertical mixing, we estimate a minimum of 5.25 trillion particles weighing 268,940 tons. When comparing between four size classes, two microplastic <4.75 mm and meso- and macroplastic >4.75 mm, a tremendous loss of microplastics is observed from the sea surface compared to expected rates of fragmentation, suggesting there are mechanisms at play that remove <4.75 mm plastic particles from the ocean surface.
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PNAS 119 (8) e2113947119 | https://doi.org/10.1073/pnas.2113947119
Environmental exposure to active pharmaceutical ingredients (APIs) can have negative effects on the health of ecosystems and humans. While numerous studies have monitored APIs in rivers, these employ different analytical methods, m...easure different APIs, and have ignored many of the countries of the world. This makes it difficult to quantify the scale of the problem from a global perspective. Furthermore, comparison of the existing data, generated for different studies/regions/continents, is challenging due to the vast differences between the analytical methodologies employed. Here, we present a global-scale study of API pollution in 258 of the world’s rivers, representing the environmental influence of 471.4 million people across 137 geographic regions. Samples were obtained from 1,052 locations in 104 countries (representing all continents and 36 countries not previously studied for API contamination) and analyzed for 61 APIs. Highest cumulative API concentrations were observed in sub-Saharan Africa, south Asia, and South America. The most contaminated sites were in low- to middle-income countries and were associated with areas with poor wastewater and waste management infrastructure and pharmaceutical manufacturing. The most frequently detected APIs were carbamazepine, metformin, and caffeine (a compound also arising from lifestyle use), which were detected at over half of the sites monitored. Concentrations of at least one API at 25.7% of the sampling sites were greater than concentrations considered safe for aquatic organisms, or which are of concern in terms of selection for antimicrobial resistance. Therefore, pharmaceutical pollution poses a global threat to environmental and human health, as well as to delivery of the United Nations Sustainable Development Goals.
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Studien der Sachverständigengruppe „Weltwirtschaft und Sozialethik“ Nr. 21
On the basis of a reflection on social ethics, the German Bishops’ Conference expert panel on "Global Economy and Social Ethics" has analyzed the role of economic growth in relation to environmental issues and sustain...able development. The chairman of the expert panel outlines the main results of this text.
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National-scale databases and reliability issue
Background report
Inferences through Machine Learning.Background Report.
What are the major origins and drivers of different types of conflict? Sorting out the main
causes of conflict and war is difficult and often shaped by ideological believes. Even today,
historians and political scientists have discussions on... the primary causes of the First World
War. There are several types of conflict, ranging from international and civil wars to local
conflicts, riots and revolution. And there are many theories that explain these different types
of conflict, which mostly focus on economic conditions and a range of factors that can foster
grievances and greed, creating incentives to initiate or join a conflict
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Front. Public Health, 30 April 2021 | https://doi.org/10.3389/fpubh.2021.628744
Mortality due to enteric infections is projected to increase because of global warming; however, the different temperature sensitivities of major enteric pathogens have not yet been considered in projections on a global scale. We aimed to project global temperature-attributable enteric infection mor...tality under various future scenarios of sociodemographic development and climate change.
The Lancet Planetary Health Volume 5, ISSUE 7, e436-e445, July 01, 2021
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Published: November 24, 2020 https://doi.org/10.1371/journal.pbio.3000938
Climate change is expected to have complex effects on infectious diseases, causing some to increase, others to decrease, and many to shift their distributions. There have been several important advances in understanding the ...role of climate and climate change on wildlife and human infectious disease dynamics over the past several years. This essay examines 3 major areas of advancement, which include improvements to mechanistic disease models, investigations into the importance of climate variability to disease dynamics, and understanding the consequences of thermal mismatches between host and parasites. Applying the new information derived from these advances to climate–disease models and addressing the pressing knowledge gaps that we identify should improve the capacity to predict how climate change will affect disease risk for both wildlife and humans.
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Environment International Volume 86, January 2016, Pages 14-23
Climate change refers to long-term shifts in weather conditions and patterns of extreme weather events. It may lead to changes in health threat to human beings, multiplying existing health problems. This review examines the scientific e...vidences on the impact of climate change on human infectious diseases. It identifies research progress and gaps on how human society may respond to, adapt to, and prepare for the related changes. Based on a survey of related publications between 1990 and 2015, the terms used for literature selection reflect three aspects — the components of infectious diseases, climate variables, and selected infectious diseases. Humans' vulnerability to the potential health impacts by climate change is evident in literature. As an active agent, human beings may control the related health effects that may be effectively controlled through adopting proactive measures, including better understanding of the climate change patterns and of the compound disease-specific health effects, and effective allocation of technologies and resources to promote healthy lifestyles and public awareness. The following adaptation measures are recommended: 1) to go beyond empirical observations of the association between climate change and infectious diseases and develop more scientific explanations, 2) to improve the prediction of spatial–temporal process of climate change and the associated shifts in infectious diseases at various spatial and temporal scales, and 3) to establish locally effective early warning systems for the health effects of predicated climate change.
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PNAS | March 4, 2014 | vol. 111 | no. 9
Malaria is an important disease that has a global distribution and significant health burden. The spatial limits of its distribution and seasonal activity are sensitive to climate factors, as well as the local capacity to control the disease. Malaria is also ...one of the few health outcomes that has been modeled by more than one research group and can therefore facilitate the first model intercomparison for health impacts under a future with climate change. We used bias-corrected temperature and rainfall simulations from the Coupled Model Intercomparison Project Phase 5 climate models to compare the metrics of five statistical and dynamical malaria impact models for three future time periods (2030s, 2050s, and 2080s). We evaluated three malaria outcome metrics at global and regional levels: climate suitability, additional population at risk and additional person-months at risk across the model outputs. The malaria projections were based on five different global climate models, each run under four emission scenarios (Representative Concentration Pathways, RCPs) and a single population projection. We also investigated the modeling uncertainty associated with future projections of populations at risk for malaria owing to climate change. Our findings show an overall global net increase in climate suitability and a net increase in the population at risk, but with large uncertainties. The model outputs indicate a net increase in the annual person-months at risk when comparing from RCP2.6 to RCP8.5 from the 2050s to the 2080s. The malaria outcome metrics were highly sensitive to the choice of malaria impact model, especially over the epidemic fringes of the malaria distribution.
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Dengue is a mosquito-borne viral disease that occurs mainly in the tropics and subtropics but has a high potential to spread to new areas. Dengue infections are climate sensitive, so it is important to better understand how changing climate factors affect the potential for geographic spread and futu...re dengue epidemics. Vectorial capacity (VC) describes a vector's propensity to transmit dengue taking into account human, virus, and vector interactions. VC is highly temperature dependent, but most dengue models only take mean temperature values into account. Recent evidence shows that diurnal temperature range (DTR) plays an important role in influencing the behavior of the primary dengue vector Aedes aegypti. In this study, we used relative VC to estimate dengue epidemic potential (DEP) based on the temperature and DTR dependence of the parameters of A. aegypti. We found a strong temperature dependence of DEP; it peaked at a mean temperature of 29.3°C when DTR was 0°C and at 20°C when DTR was 20°C. Increasing average temperatures up to 29°C led to an increased DEP, but temperatures above 29°C reduced DEP. In tropical areas where the mean temperatures are close to 29°C, a small DTR increased DEP while a large DTR reduced it. In cold to temperate or extremely hot climates where the mean temperatures are far from 29°C, increasing DTR was associated with increasing DEP. Incorporating these findings using historical and predicted temperature and DTR over a two hundred year period (1901-2099), we found an increasing trend of global DEP in temperate regions. Small increases in DEP were observed over the last 100 years and large increases are expected by the end of this century in temperate Northern Hemisphere regions using climate change projections. These findings illustrate the importance of including DTR when mapping DEP based on VC.
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La finalidad de estas orientaciones es aumentar la capacidad de los establecimientos de salud para proteger y mejorar la salud de las comunidades destinatarias ante un clima inestable y cambiante;
y habilitarlos para que sean ambientalmente sostenibles, optimizando el uso de los recursos y reducien...do al mínimo el vertido de desechos en el medio ambiente. Los establecimientos de salud resilientes al clima y ambientalmente sostenibles favorecen una atención de alta calidad
así como la accesibilidad de los servicios, y al ayudar a reducir los costos también garantizan una mejor asequibilidad. Por consiguiente, son un componente importante de la cobertura sanitaria universal (CSU).
El presente documento tiene por objeto:
Orientar a los profesionales que trabajan en el ámbito de la atención de salud a fin de que comprendan los riesgos sanitarios adicionales que entraña el cambio climático y se preparen eficazmente para afrontarlos.
Fortalecer la capacidad para llevar a cabo una vigilancia eficaz de las enfermedades relacionadas con el clima; y vigilar, prever y gestionar los riesgos para la salud asociados al cambio climático y adaptarse a ellos.
Guiar al personal de los establecimientos de salud para que trabaje con los sectores determinantes de la salud (en particular los de agua y saneamiento, energía, transporte, alimentación, planificación urbana y medio ambiente) a fin de que se prepare para afrontar los riesgos sanitarios adicionales que entraña el cambio climático mediante un enfoque de resiliencia, y promueva prácticas ambientalmente sostenibles en la prestación de los servicios.
Proporcionar al personal de los centros salud instrumentos que le ayuden a evaluar la resiliencia de los establecimientos ante las amenazas del cambio climático y su sostenibilidad ambiental a partir del uso adecuado de los recursos (en particular el agua y la energía y las adquisiciones sostenibles) y el vertido de desechos peligrosos (biológicos, químicos y radiológicos) en el medio circundante.
Promover medidas encaminadas al fortalecimiento constante y creciente de los establecimientos de salud y a garantizar que sigan siendo eficientes y responsivos para mejorar la salud y
contribuyan a reducir las inequidades y la vulnerabilidad en los entornos en que están implantados.
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RÉSUMÉ D’ORIENTATION
L’objectif des présentes orientations est de renforcer la capacité des établissements de santé à protéger et à améliorer la santé des communautés desservies face à un climat instable et changeant ; et de donner aux établissements de santé les moyens d’assur...er leur durabilité environnementale, grâce à une meilleure utilisation des ressources et à une diminution du rejet de déchets dans l’environnement. En étant résilients au changement climatique et écologiquement viables, les établissements de santé peuvent offrir des soins de qualité et des services plus accessibles, et en contribuant à réduire les coûts des établissements, ils garantissent également la prestation de soins plus abordables. Ils représentent par conséquent un élément important de la couverture sanitaire universelle (CSU).
Le présent document a pour objectif de :
guider les professionnels travaillant dans des structures de soins de santé de manière à ce qu’ils comprennent les risques sanitaires supplémentaires liés au changement climatique et qu’ils s’y préparent efficacement ;
renforcer la capacité à exercer une surveillance efficace des maladies liées au climat ; et à suivre, anticiper, gérer les risques sanitaires associés au changement climatique et à s’y adapter ;
inciter les responsables des établissements de santé à collaborer avec les secteurs déterminants pour la santé (notamment l’eau et l’assainissement, l’énergie, les transports, l’alimentation, l’urbanisme, l’environnement) afin de se préparer aux risques sanitaires supplémentaires posés par le changement climatique grâce à l’adoption d’une approche de résilience, et à promouvoir des pratiques écologiquement durables dans la prestation des services ;
fournir des outils pour aider les responsables des établissements de santé à évaluer leur résilience face aux menaces liées au changement climatique et leur durabilité environnementale, sur la base de l’utilisation appropriée des ressources (en particulier l’eau et l’énergie et les achats durables), et du rejet de matières dangereuses (biologiques, chimiques, radiologiques) dans leur environnement ;
promouvoir des mesures visant à garantir que les établissements de santé soient constamment et de plus en plus solides et continuent d’être efficaces et réactifs pour améliorer la santé et contribuer à réduire les inégalités et la vulnérabilité dans leur contexte local.
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Int. J. Environ. Res. Public Health 2020, 17(23), 8849; https://doi.org/10.3390/ijerph17238849
The aim of building climate resilient and environmentally sustainable health care facilities is: (a) to enhance their capacity to protect and improve the health of their target communities in an unstable... and changing climate; and (b) to empower them to optimize the use of resources and minimize the release of pollutants and waste into the environment. Such health care facilities contribute to high quality of care and accessibility of services and, by helping reduce facility costs, also ensure better affordability. They are an important component of universal health coverage.
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Int. J. Environ. Res. Public Health 2018, 15(12), 2626; https://doi.org/10.3390/ijerph15122626
Climate change is increasing risks to human health and to the health systems that seek to protect the safety and well-being of populations. Health authorities require information about current associatio...ns between health outcomes and weather or climate, vulnerable populations, projections of future risks and adaptation opportunities in order to reduce exposures, empower individuals to take needed protective actions and build climate-resilient health systems. An increasing number of health authorities from local to national levels seek this information by conducting climate change and health vulnerability and adaptation assessments. While assessments can provide valuable information to plan for climate change impacts, the results of many studies are not helping to build the global evidence-base of knowledge in this area. They are also often not integrated into adaptation decision making, sometimes because the health sector is not involved in climate change policy making processes at the national level. Significant barriers related to data accessibility, a limited number of climate and health models, uncertainty in climate projections, and a lack of funding and expertise, particularly in developing countries, challenge health authority efforts to conduct rigorous assessments and apply the findings. This paper examines the evolution of climate change and health vulnerability and adaptation assessments, including guidance developed for such projects, the number of assessments that have been conducted globally and implementation of the findings to support health adaptation action. Greater capacity building that facilitates assessments from local to national scales will support collaborative efforts to protect health from current climate hazards and future climate change. Health sector officials will benefit from additional resources and partnership opportunities to ensure that evidence about climate change impacts on health is effectively translated into needed actions to build health resilience.
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