Infectious Diseases Infectious Diseases , Climate Change Effects infectious disease climate change Effects on

2012 ◽  
pp. 5358-5378
Author(s):  
Matthew Baylis ◽  
Claire Risley
Keyword(s):  
Climate Change ◽  
Infectious Disease ◽  
Infectious Diseases ◽  
Climate Change Effects

scholarly journals Effects of Infectious Diseases on Population Dynamics of Marine Organisms in Chesapeake Bay

2021 ◽  
Author(s):  
Jerelle A. Jesse ◽  
M. Victoria Agnew ◽  
Kohma Arai ◽  
C. Taylor Armstrong ◽  
Shannon M. Hood ◽  
...  
Keyword(s):  
Climate Change ◽  
Population Dynamics ◽  
Infectious Diseases ◽  
Chesapeake Bay ◽  
Eastern Oyster ◽  
Marine Organisms ◽  
Ecosystem Dynamics ◽  
Climate Change Effects ◽  
Pathogen Dynamics ◽  
Growth And Reproduction

AbstractDiseases are important drivers of population and ecosystem dynamics. This review synthesizes the effects of infectious diseases on the population dynamics of nine species of marine organisms in the Chesapeake Bay. Diseases generally caused increases in mortality and decreases in growth and reproduction. Effects of diseases on eastern oyster (Crassostrea virginica) appear to be low in the 2000s compared to effects in the 1980s–1990s. However, the effects of disease were not well monitored for most of the diseases in marine organisms of the Chesapeake Bay, and few studies considered effects on growth and reproduction. Climate change and other anthropogenic effects are expected to alter host-pathogen dynamics, with diseases of some species expected to worsen under predicted future conditions (e.g., increased temperature). Additional study of disease prevalence, drivers of disease, and effects on population dynamics could improve fisheries management and forecasting of climate change effects on marine organisms in the Chesapeake Bay.

Climate Change-Associated Conflict and Infectious Disease

2017 ◽  
pp. 68-88
Author(s):  
Devin C. Bowles
Keyword(s):  
Public Health ◽  
Climate Change ◽  
Infectious Disease ◽  
Infectious Diseases ◽  
Disease Surveillance ◽  
Health Personnel ◽  
Forced Migration ◽  
Scarce Resources ◽  
Food Scarcity ◽  
Surveillance Programs

One of the least appreciated mechanisms by which climate change will affect infectious diseases is via increased violent conflict. Climate change will diminish agricultural and pastoral resources and increase food scarcity in many areas, including already impoverished equatorial regions. Many in the defence and public health fields anticipate that climate change will increase conflict by fuelling competition over scarce resources. Already, some commentators argue that the conflicts in Darfur and Syria were partially caused or exacerbated by climate change. Conflict facilitates a range of conditions conducive to the spread of many infectious diseases, including malnutrition, forced migration, unhygienic living conditions and widespread sexual assault. Flight or killing of health personnel inhibits vaccination, vector control and disease surveillance programs. Emergence of new diseases may go undetected and discovery of outbreaks could be suppressed for strategic reasons. These conditions combine to increase the risk of pandemics.

scholarly journals ACCOUNTING AND CLIMATE CHANGE EFFECTS DISCLOSURES: EXAMINING ITS IMPACT IN CURTAILING EMERGING INFECTIOUS DISEASES.

2020 ◽  
pp. 106-110
Author(s):  
FEUT Monday Richmond ◽  
Amarachi Chiagoziem
Keyword(s):  
Climate Change ◽  
Infectious Diseases ◽  
Organizational Climate ◽  
Emerging Infectious Diseases ◽  
Environmental Accounting ◽  
Future Research ◽  
Research And Practice ◽  
Climate Change Effects ◽  
Accounting Disclosures ◽  
Change Impact

This study aimed at X-raying the role of accounting and climate change effects in the world. The study was purely empirical in nature and data and information were obtained from related literatures and articles. The study further purposed that the accounting profession can support organizational climate change impact disclosures. This study is an additional literature to the existing research and practice in environmental accounting disclosures and set the pace for future research and practice in this field of accounting. KEYWORDS: Accounting, Climate change, Infectious Diseases, Disclosures.

History of Infectious Diseases

2017 ◽  
pp. 1-23
Author(s):  
Maria Ines Zanoli Sato
Keyword(s):  
Public Health ◽  
Climate Change ◽  
Infectious Disease ◽  
Infectious Diseases ◽  
Human Development ◽  
Essential Role ◽  
Emerging Pathogens ◽  
Determining Factors ◽  
History Of

This chapter provides a review of infectious disease to date and the challenges they may present in the future. The main pandemics that have driven the history of humanity are described, from the first to be recorded in 3180 BC to more recent ones such as AIDIS, SARS and others associated with emerging pathogens. The essential role of emerging scientific specialisms (particularly microbiology, public health and sanitary engineering) to our understanding of the causes of these diseases (and how they may be better monitored, controlled and prevented) is presented. Globalization and climate change, determining factors for the ecology of infectious diseases and their emergence and re-emergence, are discussed and point to the urgent need for research to deal with these threats that continue to have a significant impact on human development and wellbeing.

scholarly journals Infectious disease, development, and climate change: a scenario analysis

2007 ◽  
Vol 12 (5) ◽  
pp. 687-706 ◽  
Author(s):  
RICHARD S.J. TOL ◽  
KRISTIE L. EBI ◽  
GARY W. YOHE
Keyword(s):  
Climate Change ◽  
Infectious Disease ◽  
Infant Mortality ◽  
Infectious Diseases ◽  
Sub Saharan Africa ◽  
Absolute Poverty ◽  
Control Programs ◽  
Short Run ◽  
Sub Saharan

We study the effects of development and climate change on infectious diseases in Sub-Saharan Africa. Infant mortality and infectious disease are closely related, but there are better data for the former. In an international cross-section, per capita income, literacy, and absolute poverty significantly affect infant mortality. We use scenarios of these three determinants and of climate change to project the future incidence of malaria, assuming it to change proportionally to infant mortality. Malaria deaths will first increase, because of population growth and climate change, but then fall, because of development. This pattern is robust to the choice of scenario, parameters, and starting conditions; and it holds for diarrhoea, schistosomiasis, and dengue fever as well. However, the timing and level of the mortality peak is very sensitive to assumptions. Climate change is important in the medium term, but dominated in the long term by development. As climate can only be changed with a substantial delay, development is the preferred strategy to reduce infectious diseases even if they are exacerbated by climate change. Development can, in particular, support the needed strengthening of disease control programs in the short run and thereby increase the capacity to cope with projected increases in infectious diseases over the medium to long term. This conclusion must, however, be viewed with caution, because development, even of the sort envisioned in the underlying socio-economic scenarios, is by no means certain.

scholarly journals Learning from COVID-19: Infectious Disease Vulnerability Promotes Pro-Environmental Behaviors

2021 ◽  
Vol 18 (16) ◽  
pp. 8687
Author(s):  
Da Jiang ◽  
Mingxuan Li ◽  
Hanyang Wu ◽  
Shuang Liu
Keyword(s):  
Climate Change ◽  
Infectious Disease ◽  
Infectious Diseases ◽  
Environmental Concern ◽  
Environmental Behaviors ◽  
Individual Level ◽  
Societal Level ◽  
Using Data ◽  
The Individual ◽  
The Relationship

Environmental problems, such as climate change, pollution, and environmental degradation, are important contributors to the spread of infectious diseases, such as COVID-19 and SARS. For instance, a greater concentration of ambient NO2 was associated with faster transmission of the SARS-CoV-2 virus, which causes COVID-19. However, it remains unclear whether outbreaks of infectious diseases arouse individuals’ concern on the need to protect the environment and therefore promote more pro-environmental behaviors. To this end, we examined the relationship between infectious disease vulnerability and pro-environmental behaviors using data from a cross-societal survey (N = 53 societies) and an experiment (N = 214 individuals). At both the societal and the individual levels, infectious disease vulnerability increased pro-environmental behaviors. At the societal level, this relationship was mediated by citizens’ level of environmental concern. At the individual level, the relationship was mediated by empathy. The findings show that infectious disease vulnerability is conducive to pro-environmental behaviors.

scholarly journals Influence of Climatic Factors on Human Hantavirus Infections in Latin America and the Caribbean: A Systematic Review

Pathogens ◽  
2021 ◽  
Vol 11 (1) ◽  
pp. 15
Author(s):  
Kirk Osmond Douglas ◽  
Karl Payne ◽  
Gilberto Sabino-Santos ◽  
John Agard
Keyword(s):  
Climate Change ◽  
Infectious Disease ◽  
Systematic Review ◽  
Latin America ◽  
Infectious Diseases ◽  
Disease Transmission ◽  
Climatic Factors ◽  
Habitat Type ◽  
Inclusion Criteria ◽  
The Caribbean

Background: With the current climate change crisis and its influence on infectious disease transmission there is an increased desire to understand its impact on infectious diseases globally. Hantaviruses are found worldwide, causing infectious diseases such as haemorrhagic fever with renal syndrome (HFRS) and hantavirus cardiopulmonary syndrome (HCPS)/hantavirus pulmonary syndrome (HPS) in tropical regions such as Latin America and the Caribbean (LAC). These regions are inherently vulnerable to climate change impacts, infectious disease outbreaks and natural disasters. Hantaviruses are zoonotic viruses present in multiple rodent hosts resident in Neotropical ecosystems within LAC and are involved in hantavirus transmission. Methods: We conducted a systematic review to assess the association of climatic factors with human hantavirus infections in the LAC region. Literature searches were conducted on MEDLINE and Web of Science databases for published studies according to Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) criteria. The inclusion criteria included at least eight human hantavirus cases, at least one climatic factor and study from > 1 LAC geographical location. Results: In total, 383 papers were identified within the search criteria, but 13 studies met the inclusion criteria ranging from Brazil, Chile, Argentina, Bolivia and Panama in Latin America and a single study from Barbados in the Caribbean. Multiple mathematical models were utilized in the selected studies with varying power to generate robust risk and case estimates of human hantavirus infections linked to climatic factors. Strong evidence of hantavirus disease association with precipitation and habitat type factors were observed, but mixed evidence was observed for temperature and humidity. Conclusions: The interaction of climate and hantavirus diseases in LAC is likely complex due to the unknown identity of all vertebrate host reservoirs, circulation of multiple hantavirus strains, agricultural practices, climatic changes and challenged public health systems. There is an increasing need for more detailed systematic research on the influence of climate and other co-related social, abiotic, and biotic factors on infectious diseases in LAC to understand the complexity of vector-borne disease transmission in the Neotropics.

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