SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2057826634> ?p ?o ?g. }

Showing items 1 to 100 of ±171 with 100 items per page.

W2057826634 endingPage "908" @default.
W2057826634 startingPage "897" @default.
W2057826634 abstract "Abstract There is a widespread consensus that the earth is experiencing a mass extinction event and at the forefront are amphibians, the most threatened of all vertebrate taxa. A recent assessment found that nearly one‐third (32%, 1,856 species) of the world's amphibian species are threatened. Amphibians have existed on the earth for over 300 million years, yet in just the last two decades there have been an alarming number of extinctions, nearly 168 species are believed to have gone extinct and at least 2,469 (43%) more have populations that are declining. Infectious diseases have been recognized as one major cause of worldwide amphibian population declines. This could be the result of the appearance of novel pathogens, or it could be that exposure to environmental stressors is increasing the susceptibility of amphibians to opportunistic pathogens. Here I review the potential effects of stressors on disease susceptibility in amphibians and relate this to disease emergence in human and other wildlife populations. I will present a series of case studies that illustrate the role of stress in disease outbreaks that have resulted in amphibian declines. First, I will examine how elevated sea‐surface temperatures in the tropical Pacific since the mid‐1970s have affected climate over much of the world and could be setting the stage for pathogen‐mediated amphibian declines in many regions. Finally, I will discuss how the apparently rapid increase in the prevalence of amphibian limb deformities is linked to the synergistic effects of trematode infection and exposure to chemical contaminants." @default.
W2057826634 created "2016-06-24" @default.
W2057826634 creator A5013373254 @default.
W2057826634 date "2010-03-24" @default.
W2057826634 modified "2023-10-11" @default.
W2057826634 title "Global stressors and the global decline of amphibians: tipping the stress immunocompetency axis" @default.
W2057826634 cites W135063727 @default.
W2057826634 cites W1480703060 @default.
W2057826634 cites W1652546159 @default.
W2057826634 cites W1655609833 @default.
W2057826634 cites W1938526285 @default.
W2057826634 cites W1949594561 @default.
W2057826634 cites W1967464963 @default.
W2057826634 cites W1968046826 @default.
W2057826634 cites W1976494978 @default.
W2057826634 cites W1977963995 @default.
W2057826634 cites W1980138800 @default.
W2057826634 cites W1981089685 @default.
W2057826634 cites W1981976677 @default.
W2057826634 cites W1981998365 @default.
W2057826634 cites W1984689852 @default.
W2057826634 cites W1984976103 @default.
W2057826634 cites W1985986069 @default.
W2057826634 cites W1986955709 @default.
W2057826634 cites W1990549687 @default.
W2057826634 cites W1995540767 @default.
W2057826634 cites W1996608975 @default.
W2057826634 cites W1996944782 @default.
W2057826634 cites W1998631479 @default.
W2057826634 cites W2007724403 @default.
W2057826634 cites W2008309656 @default.
W2057826634 cites W2008569646 @default.
W2057826634 cites W2014225118 @default.
W2057826634 cites W2014403207 @default.
W2057826634 cites W2020680740 @default.
W2057826634 cites W2022823822 @default.
W2057826634 cites W2024415344 @default.
W2057826634 cites W2027580501 @default.
W2057826634 cites W2039382823 @default.
W2057826634 cites W2040210635 @default.
W2057826634 cites W2042201918 @default.
W2057826634 cites W2044553211 @default.
W2057826634 cites W2045616848 @default.
W2057826634 cites W2048957164 @default.
W2057826634 cites W2056780860 @default.
W2057826634 cites W2062063157 @default.
W2057826634 cites W2062265027 @default.
W2057826634 cites W2063189291 @default.
W2057826634 cites W2066610484 @default.
W2057826634 cites W2069629996 @default.
W2057826634 cites W2071491706 @default.
W2057826634 cites W2072244190 @default.
W2057826634 cites W2074311495 @default.
W2057826634 cites W2074530473 @default.
W2057826634 cites W2078444065 @default.
W2057826634 cites W2079906596 @default.
W2057826634 cites W2097647145 @default.
W2057826634 cites W2097847544 @default.
W2057826634 cites W2101048906 @default.
W2057826634 cites W2102200338 @default.
W2057826634 cites W2102267702 @default.
W2057826634 cites W2109320505 @default.
W2057826634 cites W2109950926 @default.
W2057826634 cites W2110016958 @default.
W2057826634 cites W2111287983 @default.
W2057826634 cites W2113701590 @default.
W2057826634 cites W2115499819 @default.
W2057826634 cites W2116788587 @default.
W2057826634 cites W2120401792 @default.
W2057826634 cites W2122714144 @default.
W2057826634 cites W2123919695 @default.
W2057826634 cites W2127218107 @default.
W2057826634 cites W2127223602 @default.
W2057826634 cites W2130348890 @default.
W2057826634 cites W2130380405 @default.
W2057826634 cites W2136477173 @default.
W2057826634 cites W2138439934 @default.
W2057826634 cites W2143692724 @default.
W2057826634 cites W2150891147 @default.
W2057826634 cites W2162530050 @default.
W2057826634 cites W2162641775 @default.
W2057826634 cites W2167857222 @default.
W2057826634 cites W2169033585 @default.
W2057826634 cites W2170890111 @default.
W2057826634 cites W2173189052 @default.
W2057826634 cites W2177881268 @default.
W2057826634 cites W2326780935 @default.
W2057826634 cites W2767385477 @default.
W2057826634 cites W4233931460 @default.
W2057826634 cites W4240359426 @default.
W2057826634 cites W4241990566 @default.
W2057826634 doi "https://doi.org/10.1007/s11284-010-0702-6" @default.
W2057826634 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7088592" @default.
W2057826634 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32214651" @default.
W2057826634 hasPublicationYear "2010" @default.
W2057826634 type Work @default.
W2057826634 sameAs 2057826634 @default.
W2057826634 citedByCount "49" @default.