| Literature DB >> 28483141 |
Nicolas N Duprey1, Xingchen T Wang2, Philip D Thompson3, Jeffrey E Pleadwell4, Laurie J Raymundo5, Kiho Kim6, Daniel M Sigman2, David M Baker7.
Abstract
We investigated the potential of coral skeleton δ15N (CS-δ15N) records for tracking anthropogenic-N sources in coral reef ecosystems. We produced a 56yr-long CS-δ15N record (1958-2014) from a reef flat in Guam that has been exposed to varying 1) levels of sewage treatment 2) population density, and 3) land use. Increasing population density (from <30 to 300ind·km-2) and land use changes in the watershed resulted in a ~1‰ enrichment of the CS-δ15N record until a sewage treatment plant (STP) started operation in 1975. Then, CS-δ15N stabilized, despite continued population density and land use changes. Based on population and other considerations, a continued increase in the sewage footprint might have been expected over this time. The stability of CS-δ15N, either contradicts this expectation, or indicates that the impacts on the outer reef at the coring site were buffered by the mixing of reef water with the open ocean.Entities:
Keywords: Coral reefs; Eutrophication; Porites sp.; Sewage; Stable nitrogen isotopes
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Year: 2017 PMID: 28483141 DOI: 10.1016/j.marpolbul.2017.04.023
Source DB: PubMed Journal: Mar Pollut Bull ISSN: 0025-326X Impact factor: 5.553