Authors
Murray, S., Bolch, C. J. S., Brett, S., Chan, C. X., Doubell, M., Farrell, H., Gaiani, G., Greenhough, H., Hallegraeff, G., Smith Harding, T., Harwood, D. T., Hatfield, R. G., Moody, I., Rhodes, L., Selwood, A., Seymour, J., Siboni, N., Snigirova, A., Rolton, A., Wilkinson, C., Bastos de Oliveira, H., Streiber, N., MacDonald, N., Smith, K. S.
Abstract
Harmful algal blooms of Karenia brevis (Dinophyceae) are a global anomaly, occurring in one location worldwide, causing severe marine and acute human impacts via brevetoxins (BTX). During 2025 an unprecedented, currently ongoing, mass marine mortality occurred in South Australia, across an area of ~20,000 km2, persisting for >6 months, resulting in the deaths of ~106 marine animals of >550 taxa, with human health impacts. Using custom metabarcoding, long-read sequencing and targeted quantitative PCR, we characterized the microalgal assemblage. Karenia cristata dominated over the sampling area, in an assemblage with four other Karenia species with varied abundances spatially and temporally. High abundances of K. cristata appeared in the austral autumn, and hydrodynamic processes appear to have entrained cells coastward in the semi-enclosed seas. We isolated the species and characterized it using light and electron microscopy, liquid chromatography mass spectrometry and a toxicity assay. We show for the first time that the rare and little known K. cristata produces significant BTX with a profile (BTX 2, 3, B5), differing from K. brevis, with toxicological effects. These findings reveal a novel, significant BTX-producing Karenia, which considering its substantial detrimental marine ecosystem impacts, is an emerging international threat with unknown consequences in changing ocean conditions.
Preprint server:
bioRxiv
The authors list and abstract were imported from bioRxiv on 04 Nov 2025.
Advertisement
Stats
- Recommendations n/a n/a positive of 0 vote(s)
- Views 272
- Comments 0