Decomposition of Sargassum detritus varies with exposure to different plastic types

Plastic pollution and ocean warming threaten crucial ecosystem processes, including detrital decomposition. We carried out a manipulative experiment using 20 outdoor raceways to test hypotheses about the influence of macroplastics (polyvinyl chloride (PVC), polyethylene terephthalate (PET), high-density polyethylene (HDPE), low-density polyethylene (LDPE), and biodegradable (BIO)) and ocean warming (as 3 °C above ambient sea surface temperatures) on the decomposition of Sargassum vestitum . All types of plastic significantly decreased rates of S. vestitum decomposition compared to controls. LDPE was associated with the greatest decrease in detrital decomposition (41%), followed closely by BIO (28%), whilst HDPE had the least influence (12%) during our 40-day experiment . Treatments with LDPE and PET retained more carbon (%) in S. vestitum than the control treatment. However, plastics neither affected nitrogen (%), nor C/N ratio of the decomposing detritus. Ocean warming significantly increased the decomposition of S. vestitum , but did not affect relative carbon or nitrogen, nor C/N of the remaining detritus, nor did temperature interact with plastic treatments. As detrital decomposition significantly contributes to marine biogeochemical cycling, food-web connectivity, and secondary production, our multiple stressor experiment demonstrates the value of management strategies that simultaneously address the impacts of ocean warming and plastic pollution in nearshore environments.