Coronavirus Information for the UC San Diego Community

Our leaders are working closely with federal and state officials to ensure your ongoing safety at the university. Stay up to date with the latest developments. Learn more.

Dermal denticle assemblages in coral reef sediments correlate with conventional shark surveys

TitleDermal denticle assemblages in coral reef sediments correlate with conventional shark surveys
Publication TypeJournal Article
Year of Publication2020
AuthorsDillon E.M, Lafferty K.D, McCauley D.J, Bradley D., Norris RD, Caselle JE, DiRenzo G.V, Gardner J.PA, O'Dea A.
Volume11
Pagination362-375
Date Published2020/03
Type of ArticleArticle
ISBN Number2041-210X
Accession NumberWOS:000517173300002
Keywordsabundance estimation; accumulation; carcharhinus-melanopterus; dermal denticle assemblages; Environmental Sciences & Ecology; fishes; fossil record; N-mixture model; n-mixture models; palaeoecology; Palmyra Atoll; patterns; populations; Shark; size; taphonomy; time
Abstract

It is challenging to assess long-term trends in mobile, long-lived and relatively rare species such as sharks. Despite ongoing declines in many coastal shark populations, conventional surveys might be too fleeting and too recent to describe population trends over decades to millennia. Placing recent shark declines into historical context should improve management efforts as well as our understanding of past ecosystem dynamics. A new palaeoecological approach for surveying shark abundance on coral reefs is to quantify dermal denticle assemblages preserved in sediments. This approach assumes that denticle accumulation rates correlate with shark abundances. Here, we test this assumption by comparing the denticle record in surface sediments to three conventional shark survey methods at Palmyra Atoll, Line Islands, central Pacific Ocean, where shark density is high and spatially heterogeneous. We generally found a significant positive correlation between denticle accumulation rates and shark abundances derived from underwater visual census, baited remote underwater video and hook and line surveys. Denticle accumulation rates reflected shark abundances, suggesting that denticle assemblages can preserve a signal of time-averaged shark abundance in low-energy coral reef environments. We offer suggestions for applying this tool to measure shark abundance over long time-scales in other contexts.

DOI10.1111/2041-210x.13346
Student Publication: 
No