Abstract
The fossil record of Red Sea fringing reefs provides an opportunity to study the history of coral-reef survival and recovery in the context of extreme environmental change. The Middle Pleistocene, the Late Pleistocene, and modern reefs represent three periods of reef growth separated by glacial low stands during which conditions became difficult for symbiotic reef fauna. Coral diversity and paleoenvironments of eight Middle and Late Pleistocene fossil terraces are described and characterized here. Pleistocene reef zones closely resemble reef zones of the modern Red Sea. All but one species identified from Middle and Late Pleistocene outcrops are also found on modern Red Sea reefs despite the possible extinction of most coral over two-thirds of the Red Sea basin during glacial low stands. Refugia in the Gulf of Aqaba and southern Red Sea may have allowed for the persistence of coral communities across glaciation events. Stability of coral communities across these extreme climate events indicates that even small populations of survivors can repopulate large areas given appropriate water conditions and time.
Highlights
Coral reefs worldwide are threatened by habitat degradation due to coastal development, pollution run-off from land, destructive fishing practices, and rising ocean temperature and acidification resulting from anthropogenic climate change (Wilkinson, 2008; Poloczanska et al, 2013; Pandolfi, 2015)
One should be cautious about assuming that environmental preferences of organisms remain unchanged through time (Bottjer & Jablonski, 1988), Pleistocene reef environments show similar zonation trends to modern reefs (Mesolella, 1967; Jackson, 1992; Pandolfi, 1996; Pandolfi & Jackson, 2006; Alexandroff, Zuschin & Kroh, 2016)
Based on preservation the one Pavona minuta specimen identified in this study looks younger than Late Pleistocene, and may be Holocene-aged
Summary
Coral reefs worldwide are threatened by habitat degradation due to coastal development, pollution run-off from land, destructive fishing practices, and rising ocean temperature and acidification resulting from anthropogenic climate change (Wilkinson, 2008; Poloczanska et al, 2013; Pandolfi, 2015). With increasing concern about the future of coral-reef ecosystems has come increased efforts to predict their fate under varying climate predictions (see review by Donner, Heron & Skirving, 2009). Modern ecological studies of reefs seeking to predict future response are limited to analyses at the scale of decades, which may not be indicative of ecological trends at longer time scales (Denny et al, 2004; Pandolfi, 2011). The fossil record provides unique opportunities to study diversity on longer time scales, and under different environmental conditions (Jackson & Erwin, 2006; Pandolfi, 2011), which makes it a valuable resource for understanding how coral reefs respond to changing climate regimes.
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