eDNA monitoring detects new outbreak wave of corallivorous seastar (Acanthaster cf. solaris) at Lizard Island, Great Barrier Reef

Crown-of-thorns seastar (CoTS, Acanthaster cf. solaris ) outbreaks remain a significant cause of coral loss on the Great Barrier Reef (GBR) and across the West-Pacific Ocean. Previous outbreaks on the GBR have only been discovered once fully established, which constrains opportunities for effective...

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Bibliographic Details
Published inCoral reefs Vol. 43; no. 4; pp. 857 - 866
Main Authors Uthicke, Sven, Doyle, Jason R., Gomez Cabrera, Maria, Patel, Frances, McLatchie, Madi J., Doll, Peter C., Chandler, Josie F., Pratchett, Morgan S.
Format Journal Article
LanguageEnglish
Published Berlin/Heidelberg Springer Berlin Heidelberg 01.08.2024
Springer Nature B.V
Subjects
Acanthaster
Barrier reefs
Biomedical and Life Sciences
Coral reefs
Density
Environmental DNA
Estimates
Freshwater & Marine Ecology
Life Sciences
Lizards
Marine invertebrates
Monitoring
Monitoring methods
Nucleotide sequence
Oceanography
Outbreaks
Surveys
Lizard Island
Great Barrier Reef
eDNA
Coral reef crisis
Nuisance species
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Summary:Crown-of-thorns seastar (CoTS, Acanthaster cf. solaris ) outbreaks remain a significant cause of coral loss on the Great Barrier Reef (GBR) and across the West-Pacific Ocean. Previous outbreaks on the GBR have only been discovered once fully established, which constrains opportunities for effective control. Early detection of outbreaks would provide an important opportunity for early intervention and increase understanding of outbreak cause(s). Here, we assess the utility of environmental DNA (eDNA) monitoring to detect the initiation of a population outbreak at Lizard Island over five years (2019–2023), compared with density estimates obtained using Scooter-Assisted Large Area Diver-based (SALAD) surveys. At each of the five eDNA sampling sites, 30 replicate samples were collected annually and analysed with CoTS-specific primer sets and digital droplet PCR. Both methods detected distinct increases in CoTS densities from 2020/21 onwards, indicating the start of a new population outbreak. A large part of the observed variation in eDNA (expressed as the percentage of positive samples) was explained by changes in recorded CoTS density, confirming that eDNA data provide a quantitative estimate for adult CoTS abundance. SALAD surveys and eDNA are new and complementary monitoring methods that facilitate early detection of CoTS outbreaks, which will enable more effective management intervention.
ISSN:0722-4028
1432-0975
DOI:10.1007/s00338-024-02506-8