Open AccessDwarfism and gigantism drive human-mediated extinctions on islands
Author(s) -
Roberto Rozzi,
Mark V. Lomolino,
Alexandra van der Geer,
Daniele Silvestro,
S. Kathleen Lyons,
Pere Rosselló Bover,
Josep Antoni Alcover,
Ana BenítezLópez,
ChengHsiu Tsai,
Masaki Fujita,
Mugino O. Kubo,
Janine Ochoa,
Matthew Edward Scarborough,
Samuel T. Turvey,
Alexander Zizka,
Jonathan M. Chase
Publication year - 2023
Publication title -
science
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 12.556
H-Index - 1186
eISSN - 1095-9203
pISSN - 0036-8075
DOI - 10.1126/science.add8606
Subject(s) - extinction (optical mineralogy) , demise , extinction event , extant taxon , gigantism , ecology , biology , geography , paleontology , evolutionary biology , population , demography , biological dispersal , sociology , political science , law , endocrinology
Islands have long been recognized as distinctive evolutionary arenas leading to morphologically divergent species, such as dwarfs and giants. We assessed how body size evolution in island mammals may have exacerbated their vulnerability, as well as how human arrival has contributed to their past and ongoing extinctions, by integrating data on 1231 extant and 350 extinct species from islands and paleo islands worldwide spanning the past 23 million years. We found that the likelihood of extinction and of endangerment are highest in the most extreme island dwarfs and giants. Extinction risk of insular mammals was compounded by the arrival of modern humans, which accelerated extinction rates more than 10-fold, resulting in an almost complete demise of these iconic marvels of island evolution.
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