Abstract
Pervasive and sustained coral diseases contribute to the systemic degradation of reef ecosystems, however, to date an understanding of the physicochemical controls on a coral disease event is still largely lacking. Water circulation and residence times and submarine groundwater discharge all determine the degree to which reef organisms are exposed to the variable chemistry of overlying waters; understanding these physical controls is thus necessary to interpret spatial patterns in coral health. The recent discovery of coral Black Band Disease at Mākua Reef on Kauaʻi, Hawaiʻi prompted an investigation into the physicochemical drivers and geomorphic controls of reef water circulation, and the temporally variable nutrient fluxes derived from submarine groundwater discharge. Results reveal localized stagnant water parcels at Mākua Reef where groundwater-derived high nutrient loading and low salinities act in concert as stressors to coralline health – and where Black Band Disease was uniquely identified. The observed high nutrient levels during low tide conditions are likely associated with nearby upstream cesspools and drain fields. Information obtained using such a multidisciplinary approach has direct value for successful management of coastal aquifers and the health and sustainability of adjacent nearshore coral reef ecosystems.
Highlights
Coral reefs are one of the most vulnerable marine ecosystems (Gattuso et al, 2014). They occupy less than 0.1% of the ocean floor yet play multiple important roles, housing high levels of biological diversity as well as contributing key ecosystem services such as coastal protection, fisheries habitats, and environments for tourism (Weijerman et al, 2018)
From 30 July through 4 August 2016 oceanographic and submarine groundwater discharge (SGD) measurements were collected within Makua Reef and along the shoreline
The suite of circulation observations included an array of fixed-point (Eulerian) instruments, as well as repetitive, highspatial density, custom-made drifter (Lagrangian) deployments
Summary
Coral reefs are one of the most vulnerable marine ecosystems (Gattuso et al, 2014). They occupy less than 0.1% of the ocean floor yet play multiple important roles, housing high levels of biological diversity as well as contributing key ecosystem services such as coastal protection, fisheries habitats, and environments for tourism (Weijerman et al, 2018). On the Hawaiian Islands these services include provisioning (food, livelihoods, medicine), supporting (primary production, nutrient cycling), regulating (shoreline protection, water quality), and cultural (religion, tourism) services (Gattuso et al, 2014). Addressing the drivers of change for coral reef health is intrinsically valuable but of great societal importance.
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