Nitrogen pollution interacts with heat stress to increase coral bleaching across the seascape

Climate change is increasing the frequency and magnitude of temperature anomalies that cause coral bleaching, leading to widespread mortality of stony corals that can fundamentally alter reef structure and function. However, bleaching often is spatially variable for a given heat stress event, and dr...

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Veröffentlicht in:	Proceedings of the National Academy of Sciences - PNAS 2020-03, Vol.117 (10), p.5351-5357
Hauptverfasser:	Donovan, Mary K., Adam, Thomas C., Shantz, Andrew A., Speare, Kelly E., Munsterman, Katrina S., Rice, Mallory M., Schmitt, Russell J., Holbrook, Sally J., Burkepile, Deron E.
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Sprache:	eng
Schlagworte:	Animals Anomalies Anthozoa - growth & development Bayesian analysis Biological Sciences Chlorophyta - physiology Climate Change Colonies Coral bleaching Corals Environmental Pollution Heat Heat stress Heat tolerance Heat-Shock Response Heterogeneity Hot Temperature Islands Nitrogen Nitrogen - toxicity Nutrient pollution Pollution Polynesia Structure-function relationships Symbiosis Temperature
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container_title	Proceedings of the National Academy of Sciences - PNAS
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creator	Donovan, Mary K. Adam, Thomas C. Shantz, Andrew A. Speare, Kelly E. Munsterman, Katrina S. Rice, Mallory M. Schmitt, Russell J. Holbrook, Sally J. Burkepile, Deron E.
description	Climate change is increasing the frequency and magnitude of temperature anomalies that cause coral bleaching, leading to widespread mortality of stony corals that can fundamentally alter reef structure and function. However, bleaching often is spatially variable for a given heat stress event, and drivers of this heterogeneity are not well resolved. While small-scale experiments have shown that excess nitrogen can increase the susceptibility of a coral colony to bleaching, we lack evidence that heterogeneity in nitrogen pollution can shape spatial patterns of coral bleaching across a seascape. Using island-wide surveys of coral bleaching and nitrogen availability within a Bayesian hierarchical modeling framework, we tested the hypothesis that excess nitrogen interacts with temperature anomalies to alter coral bleaching for the two dominant genera of branching corals in Moorea, French Polynesia. For both coral genera, Pocillopora and Acropora, heat stress primarily drove bleaching prevalence (i.e., the proportion of colonies on a reef that bleached). In contrast, the severity of bleaching (i.e., the proportion of an individual colony that bleached) was positively associated with both heat stress and nitrogen availability for both genera. Importantly, nitrogen interacted with heat stress to increase bleaching severity up to twofold when nitrogen was high and heat stress was relatively low. Our finding that excess nitrogen can trigger severe bleaching even under relatively low heat stress implies that mitigating nutrient pollution may enhance the resilience of coral communities in the face of mounting stresses from global climate change.
doi_str_mv	10.1073/pnas.1915395117
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In contrast, the severity of bleaching (i.e., the proportion of an individual colony that bleached) was positively associated with both heat stress and nitrogen availability for both genera. Importantly, nitrogen interacted with heat stress to increase bleaching severity up to twofold when nitrogen was high and heat stress was relatively low. 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In contrast, the severity of bleaching (i.e., the proportion of an individual colony that bleached) was positively associated with both heat stress and nitrogen availability for both genera. Importantly, nitrogen interacted with heat stress to increase bleaching severity up to twofold when nitrogen was high and heat stress was relatively low. 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subjects	Animals Anomalies Anthozoa - growth & development Bayesian analysis Biological Sciences Chlorophyta - physiology Climate Change Colonies Coral bleaching Corals Environmental Pollution Heat Heat stress Heat tolerance Heat-Shock Response Heterogeneity Hot Temperature Islands Nitrogen Nitrogen - toxicity Nutrient pollution Pollution Polynesia Structure-function relationships Symbiosis Temperature
title	Nitrogen pollution interacts with heat stress to increase coral bleaching across the seascape
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