Abstract
Coral reef ecosystems of the South Pacific are extremely vulnerable to plastic pollution from oceanic gyres and land-based sources. To describe the extent and impact of plastic pollution, the distribution of both macro- (>5 mm) and microplastic (plastic < 5 mm) of the fringing reef of an isolated South Pacific island, Mo’orea, French Polynesia was quantified. Macroplastic was found on every beach on the island that was surveyed. The distribution of this plastic was categorized by site type and by the presence of Turbinaria ornata, a common macroalgae on Mo’orea. Microplastics were discovered in the water column of the fringing reef of the island, at a concentration of 0.74 pieces m−2. Additionally, this study reports for the first time the ingestion of microplastic by the corallimorpha Discosoma nummiforme. Microplastics were made available to corallimorph polyps in a laboratory setting over the course of 108 h. Positively and negatively buoyant microplastics were ingested, and a microplastic particle that was not experimentally introduced was also discovered in the stomach cavity of one organism. This study indicates that plastic pollution has the potential to negatively impact coral reef ecosystems of the South Pacific, and warrants further study to explore the broader potential impacts of plastic pollution on coral reef ecosystems.
Highlights
Anthropogenic debris is accumulating at a rapid rate in coastal and oceanic ecosystems worldwide (Critchell & Lambrechts, 2016)
This work aimed to (1) understand the extent of the current macroplastic pollution problem on the South Pacific island of Mo’orea, French Polynesia (2) determine the concentration of microplastic particles in the water column of the fringing reef of Mo’orea and (3) evaluate if plastic particles are ingested by the corallimorph Discosoma nummiforme
A recent review article on coastal pollution categorized over 60% of coastal pollution as from sources of ‘‘shoreline and recreational activities’’ that are prevalent on public beaches (Vennila, Jayasiri & Pandey, 2014)
Summary
Anthropogenic debris is accumulating at a rapid rate in coastal and oceanic ecosystems worldwide (Critchell & Lambrechts, 2016). The most significant contributor to these growing marine litter deposits is plastic (Islam & Tanaka, 2004), a material widely used by humans (Eriksen et al, 2013). Floating plastic is detrimental to both ecosystem nutrient cycling and marine wildlife, as it can absorb and secrete chemicals (Moore et al, 2001; Islam & Tanaka, 2004). Larger plastic pieces (macroplastic > 5 mm) are degraded by UV light and wave action into microplastics (
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