Open AccessDisease epidemic and a marine heat wave are associated with the continental-scale collapse of a pivotal predator (Pycnopodia helianthoides)
Author(s) -
C. Drew Harvell,
Diego MontecinoLatorre,
Jamie M. Caldwell,
Jenn M. Burt,
KL Bosley,
Aimee A. Keller,
Scott F. Heron,
Anne K. Salomon,
Lynn C. Lee,
Ondine Pontier,
Christy V. PattengillSemmens,
Joseph K. Gaydos
Publication year - 2019
Publication title -
science advances
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 5.928
H-Index - 146
ISSN - 2375-2548
DOI - 10.1126/sciadv.aau7042
Subject(s) - predator , range (aeronautics) , continental shelf , scale (ratio) , heat wave , biology , oceanography , environmental science , ecology , climatology , geography , geology , predation , climate change , cartography , engineering , aerospace engineering
Multihost infectious disease outbreaks have endangered wildlife, causing extinction of frogs and endemic birds, and widespread declines of bats, corals, and abalone. Since 2013, a sea star wasting disease has affected >20 sea star species from Mexico to Alaska. The common, predatory sunflower star (), shown to be highly susceptible to sea star wasting disease, has been extirpated across most of its range. Diver surveys conducted in shallow nearshore waters ( = 10,956; 2006-2017) from California to Alaska and deep offshore (55 to 1280 m) trawl surveys from California to Washington ( = 8968; 2004-2016) reveal 80 to 100% declines across a ~3000-km range. Furthermore, timing of peak declines in nearshore waters coincided with anomalously warm sea surface temperatures. The rapid, widespread decline of this pivotal subtidal predator threatens its persistence and may have large ecosystem-level consequences.
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