Can a shift in dominant species of Microcystis alter growth and reproduction of waterfleas?

•Microcystis wesenbergii has become increasingly dominant over M. aeruginosa in Lake Dianchi, China.•We determined that exudates from the two species have comparable reproductive impacts on Daphnia, irrespective of strain.•Exudates from both species enhanced gene expression in D. magna, leading to t...

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Bibliographic Details
Published in:Harmful algae 2024-06, Vol.136, p.102657, Article 102657
Main Authors: Wang, Tao, Xu, Daochun, Chang, Xuexiu, MacIsaac, Hugh J., Li, Jingjing, Xu, Jun, Zhang, Jinlong, Zhang, Hongyan, Zhou, Yuan, Xu, Runbing
Format: Article
Language:English
Subjects:
Animals
Daphnia - growth & development
Daphnia - physiology
Daphnia magna
Estrogenic effect
Harmful Algal Bloom
Lakes - microbiology
Microcystin-free strain
Microcystins - metabolism
Microcystis - growth & development
Microcystis - physiology
Microcystis aeruginosa
Microcystis wesenbergii
Reproduction
Zooplankton - physiology
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Summary:•Microcystis wesenbergii has become increasingly dominant over M. aeruginosa in Lake Dianchi, China.•We determined that exudates from the two species have comparable reproductive impacts on Daphnia, irrespective of strain.•Exudates from both species enhanced gene expression in D. magna, leading to the biosynthesis of crucial hormones and increased egg and offspring production.•Both microcystin-producing and non-producing cyanobacterial species/strains have important ecological consequences for co-occurring zooplankton. The bloom-forming species Microcystis wesenbergii and M. aeruginosa occur in many lakes globally, and may exhibit alternating blooms both spatially and temporally. As environmental changes increase, cyanobacteria bloom in more and more lakes and are often dominated by M. wesenbergii. The adverse impact of M. aeruginosa on co-existing organisms including zooplanktonic species has been well-studied, whereas studies of M. wesenbergii are limited. To compare effects of these two species on zooplankton, we explored effects of exudates from different strains of microcystin-producing M. aeruginosa (Ma905 and Ma526) and non-microcystin-producing M. wesenbergii (Mw908 and Mw929), on reproduction by the model zooplankter Daphnia magna in both chronic and acute exposure experiments. Specifically, we tested physiological, biochemical, molecular and transcriptomic characteristics of D. magna exposed to Microcystis exudates. We observed that body length and egg and offspring number of the daphnid increased in all treatments. Among the four strains tested, Ma526 enhanced the size of the first brood, as well as total egg and offspring number. Microcystis exudates stimulated expression of specific genes that induced ecdysone, juvenile hormone, triacylglycerol and vitellogenin biosynthesis, which, in turn, enhanced egg and offspring production of D. magna. Even though all strains of Microcystis affected growth and reproduction, large numbers of downregulated genes involving many essential pathways indicated that the Ma905 strain might contemporaneously induce damage in D. magna. Our study highlights the necessity of including M. wesenbergii into the ecological risk evaluation of cyanobacteria blooms, and emphasizes that consequences to zooplankton may not be clear-cut when assessments are based upon production of microcystins alone. [Display omitted]
ISSN:1568-9883
1878-1470
1878-1470
DOI:10.1016/j.hal.2024.102657