Matching Items (2)
128306-Thumbnail Image.png

Climate Change and Infectious Diseases in the Arctic: Establishment of a Circumpolar Working Group

Description

The Arctic, even more so than other parts of the world, has warmed substantially over the past few decades. Temperature and humidity influence the rate of development, survival and reproduction of pathogens and thus the incidence and prevalence of many infectious diseases. Higher temperatures may also allow infected host species

The Arctic, even more so than other parts of the world, has warmed substantially over the past few decades. Temperature and humidity influence the rate of development, survival and reproduction of pathogens and thus the incidence and prevalence of many infectious diseases. Higher temperatures may also allow infected host species to survive winters in larger numbers, increase the population size and expand their habitat range. The impact of these changes on human disease in the Arctic has not been fully evaluated. There is concern that climate change may shift the geographic and temporal distribution of a range of infectious diseases. Many infectious diseases are climate sensitive, where their emergence in a region is dependent on climate-related ecological changes. Most are zoonotic diseases, and can be spread between humans and animals by arthropod vectors, water, soil, wild or domestic animals. Potentially climate-sensitive zoonotic pathogens of circumpolar concern include Brucella spp., Toxoplasma gondii, Trichinella spp., Clostridium botulinum, Francisella tularensis, Borrelia burgdorferi, Bacillus anthracis, Echinococcus spp., Leptospira spp., Giardia spp., Cryptosporida spp., Coxiella burnetti, rabies virus, West Nile virus, Hantaviruses, and tick-borne encephalitis viruses.
ContributorsParkinson, Alan J. (Author) / Evengard, Birgitta (Author) / Semenza, Jan C. (Author) / Ogden, Nicholas (Author) / Borresen, Malene L. (Author) / Berner, Jim (Author) / Brubaker, Michael (Author) / Sjostedt, Anders (Author) / Evander, Magnus (Author) / Hondula, David M. (Author) / Menne, Bettina (Author) / Pshenichnaya, Natalia (Author) / Gounder, Prabhu (Author) / Larose, Tricia (Author) / Revich, Boris (Author) / Hueffer, Karsten (Author) / Albihn, Ann (Author) / College of Public Service and Community Solutions (Contributor)
Created2014-09-30
187427-Thumbnail Image.png

Heat Mitigation Planning and Governance in Increasingly Vulnerable Cities A Case Study of Vienna, Austria

Description
The continued rise of temperatures and extreme heat events globally is contributing to increases in mortality and morbidity in every region of the world. Urban areas are experiencing the combined effects of anthropogenic climate change and the urban heat island effect, exacerbating the risks associated with heat for urban residents.

The continued rise of temperatures and extreme heat events globally is contributing to increases in mortality and morbidity in every region of the world. Urban areas are experiencing the combined effects of anthropogenic climate change and the urban heat island effect, exacerbating the risks associated with heat for urban residents. In response, cities must make every effort to adapt, pursuing engagement in high-quality planning processes and implementing robust sets of strategies to mitigate and manage the heat. Cities are shaped by networks of plans, however, the process of systematically evaluating these plans has focused on individual plans or plan types when assessing their quality. This study combines qualitative plan quality evaluation and semi-structured interviews to assess how Vienna’s network of plans addresses heat. Two clear divides emerge when analyzing the plan network; direction-setting principles are included more often than others, and mitigation strategies are more prevalent than management strategies. These results, which are consistent across the broader plan quality evaluation literature, illuminate a clear path for Vienna to continuously improve their planning process and effectively respond to heat.
ContributorsLeyba, Bryan (Author) / Meerow, Sara (Thesis advisor) / Damyanovic, Doris (Committee member) / Hondula, David (Committee member) / Arizona State University (Publisher)
Created2023