Publications by authors named "D D Reeder"
Disease can act as a driving force in shaping genetic makeup across populations, even species, if the impacts influence a particularly sensitive part of their life cycles. White-nose disease is caused by a fungal pathogen infecting bats during hibernation. The mycosis has caused massive population declines of susceptible species in North America, particularly in the genus Myotis.
View Article and Find Full Text PDFWhite-nose syndrome (WNS) is a fungal wildlife disease of bats that has caused precipitous declines in certain Nearctic bat species. A key driver of mortality is premature exhaustion of fat reserves, primarily white adipose tissue (WAT), that bats rely on to meet their metabolic needs during winter. However, the pathophysiological and metabolic effects of WNS have remained ill-defined.
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- Many people worldwide want to find ways to stop future pandemics from happening.
- While there has been a lot of focus on preparing for and responding to pandemics, preventing diseases from spreading from animals to humans isn't talked about much.
- The text suggests we should pay more attention to how environmental changes can cause these spills and offers ideas on how to make policies that help prevent them.
Over the past two decades, research on bat-associated microbes such as viruses, bacteria and fungi has dramatically increased. Here, we synthesize themes from a conference symposium focused on advances in the research of bats and their microbes, including physiological, immunological, ecological and epidemiological research that has improved our understanding of bat infection dynamics at multiple biological scales. We first present metrics for measuring individual bat responses to infection and challenges associated with using these metrics.
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- Mechanical properties of Arctic sea ice can be determined by observing how different types of waves travel through the ice, like compressional and shear waves.
- In past studies during the 1980s, researchers used loud impulses from dropping objects to measure wave speeds, while more recent studies (ICEX20 and ARCEX23) utilized passive recording devices to capture natural wave resonances.
- The studies identified average ice thicknesses of 1.3 meters for ICEX20 and 1.6 meters for ARCEX23, which align with other independent measurements and suggest that remote monitoring of ice thickness is feasible.