Some marine species can help protect others from climate change by shielding them from heat, according to a new study by a Texas A&M University at Galveston professor.
Laura Jurgens, assistant professor of marine biology, and colleagues from the University of Vermont and the University of California at Davis detail the findings in the current issue of Ecology.
The team studied how tiny crabs and isopods—which are marine versions of pill bugs—that live on rocky shores react to warming of their natural rocky shore habitats. They found that the mussel beds these animals live in protect them from temperature swings and keep them from drying out and dying on hot, sunny days.
“These mussel beds provide a sort of ‘ecological air conditioning system’ within their canopies, just like forests,” Jurgens said. “The results show how conserving habitats formed by plants and animals can help buy time for heat-sensitive species, helping them weather the near-term effects of climate change. But it also means that habitat destruction can make other species more vulnerable to climate warming.”
The research was conducted in marine areas near Bodega Bay in northern California.
Jurgens said without the protection of mussel beds, some marine species cannot survive under present-day conditions.
“But they can tolerate even a worse-case climate scenario for perhaps as long as the year 2099 as the mussel bed environment remains intact,” she said. “This research shows that it’s more important than ever to protect vulnerable habitats like mussel beds, which are threatened by trampling and destructive recreational harvests of mussels in many coastal areas of the U.S.”
Laura J. Jurgens et al, Facilitation alters climate change risk on rocky shores, Ecology (2021). DOI: 10.1002/ecy.3596
Texas A&M University
Marine life can cling together to buy time in the face of climate warming (2021, December 16)
retrieved 16 December 2021
This document is subject to copyright. Apart from any fair dealing for the purpose of private study or research, no
part may be reproduced without the written permission. The content is provided for information purposes only.