The Atlantic Sargassum invasion impedes beach access for nesting sea turtles

•Huge amounts of Sargassum accumulate at coastal sea turtle nesting habitats.•Sargassum altered space use on nesting beaches, displacing nesting crawls.•The proportion of observed nesting attempts that were successful did not change.•Nearshore Sargassum likely blocks nesting emergences, increasing e...

Full description

Saved in:
Bibliographic Details
Published in:Climate change ecology 2021-12, Vol.2, p.100034, Article 100034
Main Authors: Maurer, Andrew S., Stapleton, Seth P., Layman, Craig A., Burford Reiskind, Martha O.
Format: Article
Language:English
Subjects:
Algae bloom
Caribbean
Great Atlantic Sargassum Belt, Sargassum influx, coast
Hawksbill
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:•Huge amounts of Sargassum accumulate at coastal sea turtle nesting habitats.•Sargassum altered space use on nesting beaches, displacing nesting crawls.•The proportion of observed nesting attempts that were successful did not change.•Nearshore Sargassum likely blocks nesting emergences, increasing energy costs.•Algae blooms can have sublethal effects on space use, energetics, and reproduction. One characteristic of global change is an increase in the frequency and magnitude of algae blooms. Although a large body of work has documented severe ecological impacts, such as mortality due to toxins or hypoxia, less research has described sublethal effects that may still affect population dynamics. Here, we focus on blooming Sargassum macroalgae in the North Atlantic and describe effects on nesting sea turtles. Since 2011, large masses of the algae have been inundating Atlantic nesting habitats. We documented the accumulation of Sargassum at Long Island, Antigua, and quantified effects on a rookery of hawksbill sea turtles (Eretmochelys imbricata). Using monitoring data from 2010 to 2019, we analyzed population- and individual-level patterns in nesting. Our results suggest that sea turtles respond to Sargassum at nesting beaches by shifting space use away from heavily impacted areas. We also tested for an effect on nesting success, but found no change in the years and areas most impacted by Sargassum. The algae may not increase the energetic costs of nesting after a turtle has emerged onto the beach, but we speculate that costs are imposed in algae-filled waters as turtles initially seek to emerge. As the Sargassum “invasion” continues, sea turtles at impacted sites will need to exhibit plasticity when choosing nesting sites, and nest densities may increase in areas with less Sargassum present. Individuals may also be required to expend more energy per nesting season. More broadly, this work demonstrates that algae blooms can have sublethal effects on fauna that affect population dynamics.
ISSN:2666-9005
2666-9005
DOI:10.1016/j.ecochg.2021.100034