A single-celled microbe is helping corals survive climate change, study finds
New research highlights the role of microorganisms in protecting corals from heat-stress
A Single-Celled Microbe is Helping Corals Survive Climate Change, Study Finds
New research highlights the role of microorganisms in protecting corals from heat-stress
Researchers discovered for the first time a single-celled microbe that can help corals survive ocean-warming events like bleaching. The new study, led by scientists at the University of Miami Rosenstiel School of Marine, Atmospheric, and Earth Science and the Institute of Evolutionary Biology (IBE: CSIC-UPF) in Barcelona, offers new information on the role microbes might play in helping corals withstand end-of-century warming projections.
They found that the abundance of certain protists within the coral microbiome — the diverse microorganisms that live within corals — can inform scientists as to whether a coral will survive heat stress. These findings have important implications for corals across the globe as they face more frequent ocean warming events especially those without zooxanthellae, the symbiotic algae that is expelled from a coral during warm water-induced bleaching.
“This is the first time that a non-algae microbe has been shown to influence the ability of corals to survive a heat-stress event,” said the study’s senior author Javier del Campo, an adjunct assistant professor at the Rosenstiel School and principal investigator of the IBE, a joint center of the Spanish National Research Council (CSIC) and University Pompeu Fabra (UPF). “As corals face more and more heat-stress events due to climate change, a better understanding of all the microbes that may influence survivability can inform conservation practitioners as to which corals they should prioritize for intervention.”
To conduct the study, the international team of researchers collected coral samples from across the Mediterranean to analyze their microbiome and conduct heat-stress experiments. They amplified and sequenced two types of rRNA to look at the bacteria and protists found in the microbiome of one species of soft coral, the violescent sea-whip (Paramuricea clavata), before subjecting them to a natural heat-stress in the lab to examine signs of mortality.
Paramuricea clavata is an important architect of the Mediterranean temperate reefs that is currently threatened by mass mortality events related to global warming.
They found that a group of parasitic single-celled protists — called Syndiniales —are more common in corals that survive heat-stress, while Corallicolids, a group of protist closely related to the parasite that causes malaria in humans is more common in corals that die from heat-stress.
Protists, or single-cell eukaryotes, are less studied than bacteria in most host organisms but may have a major influence on the health of their coral host, according to the researchers
“The microbiome is a vital component of coral host health and we should study all members of it from the bacteria to the protists,” said del Campo.
The study, titled “Differential apicomplexan presence predicts thermal stress mortality in the Mediterranean coral Paramuricea clavata" was recently published in the journal Environmental Microbiology.
The study’s authors include: Anthony Bonacolta and Javier del Campo from the Rosenstiel School and the Institute of Evolutionary Biology (IBE: CSIC-UPF); Jordi Miravall, Paula López-Sendino, Joaquim Garrabou, and Ramon Massana from the Institut de Ciències del Mar-CSIC in Barcelona, Spain; Daniel Gómez-Gras from the University of Hawai‘i at Mānoa; and Jean-Baptiste Ledoux from the Universidade do Porto in Portugal.
The study was supported by grant from the University of Miami, Agencia Estatal de Investigación (PID2020-118836GA-I00), Departament de Recerca i Universitats de la Generalitat de Catalunya (Project 2021 SGR 00420), Severo Ochoa Centre de Excellence (CEX2019-000928-S), Ministério da Educação e Ciência, Fundação para a Ciência e a Tecnologia (2021.00855) and European Union Futuremares (SEP-210597628).
About the University of Miami
The University of Miami is a private research university and academic health system with a distinct geographic capacity to connect institutions, individuals, and ideas across the hemisphere and around the world. The University’s vibrant and diverse academic community comprises 12 schools and colleges serving more than 17,000 undergraduate and graduate students in more than 180 majors and programs. Located within one of the most dynamic and multicultural cities in the world, the University is building new bridges across geographic, cultural, and intellectual borders, bringing a passion for scholarly excellence, a spirit of innovation, a respect for including and elevating diverse voices, and a commitment to tackling the challenges facing our world. Founded in the 1940’s, the Rosenstiel School of Marine, Atmospheric, and Earth Science has grown into one of the world’s premier marine and atmospheric research institutions. Offering dynamic interdisciplinary academics, the Rosenstiel School is dedicated to helping communities to better understand the planet, participating in the establishment of environmental policies, and aiding in the improvement of society and quality of life. www.earth.miami.edu.
JOURNAL
Environmental Microbiology
METHOD OF RESEARCH
Experimental study
SUBJECT OF RESEARCH
Cells
ARTICLE TITLE
Differential apicomplexan presence predicts thermal stress mortality in the Mediterranean coral Paramuricea clavata
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