Saved in:
Bibliographic Details
Main Authors: Zhang, Li, Xiong, Anqi, Li, Changchao, Liu, Xintong, Zhang, Xiaohua, Gong, Shihao, Yan, Meng, Qin, Xian, Liu, Yang, Hu, Zhangxi, Fang, James Kar-Hei, Duan, Huanfeng, Liu, Hongbin, Chan, Leo L, Jin, Ling N
Format: Artículo científico
Language:en
Published: ISME communications 2025
Online Access:https://pubmed.ncbi.nlm.nih.gov/40904542/
Tags: Add Tag
No Tags, Be the first to tag this record!
Table of Contents:
  • Ecological pattern of microalgal communities and associated risks in coastal ecosystems. Zhang, Li Xiong, Anqi Li, Changchao Liu, Xintong Zhang, Xiaohua Gong, Shihao Yan, Meng Qin, Xian Liu, Yang Hu, Zhangxi Fang, James Kar-Hei Duan, Huanfeng Liu, Hongbin Chan, Leo L Jin, Ling N Eukaryotic harmful and toxic microalgae, along with their derived toxins, pose significant threats to seafood safety, human health, and marine ecosystems. Here, we developed a novel full-length 18S rRNA database for harmful and toxic microalgae and combined metabarcoding with toxin analyses to investigate the ecological patterns of phytoplankton communities and the underlying mechanism of associated toxic microalgae risks. We identified 79 harmful and toxic species in Hong Kong's coastal waters, with dinoflagellates and diatoms representing the majority of toxic and harmful taxa, respectively. Distinct seasonal succession patterns were observed in phytoplankton communities, driven by different ecological assembly processes. Deterministic processes dominated during the dry season, correlating with elevated toxic microalgae abundance and temperature stress. Seasonal shifts in temperature played a pivotal role in shaping toxic algal communities. The dominance of dinoflagellates, particularly spp., spp., spp., and spp., during the dry season was consistent with elevated toxin concentrations. These toxin profiles highlight the heightened risk in a warming climate, where the prevalence and impacts of toxigenic algae are expected to intensify.