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Main Authors: Li, Xiaodong, Chen, Long, Liu, Yang, Kong, Fanzhou, Wang, Ziyang, Ren, Kunlei, Li, Jing, Yang, Ming, Wang, Shiyong, Zhang, Weini, Yan, Tian, Kang, Zhenjun, Chen, Xinhua
Format: Artículo científico
Language:en
Published: Marine environmental research 2026
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/41478056/
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author Li, Xiaodong
Chen, Long
Liu, Yang
Kong, Fanzhou
Wang, Ziyang
Ren, Kunlei
Li, Jing
Yang, Ming
Wang, Shiyong
Zhang, Weini
Yan, Tian
Kang, Zhenjun
Chen, Xinhua
author_facet Li, Xiaodong
Chen, Long
Liu, Yang
Kong, Fanzhou
Wang, Ziyang
Ren, Kunlei
Li, Jing
Yang, Ming
Wang, Shiyong
Zhang, Weini
Yan, Tian
Kang, Zhenjun
Chen, Xinhua
Li, Xiaodong
Chen, Long
Liu, Yang
Kong, Fanzhou
Wang, Ziyang
Ren, Kunlei
Li, Jing
Yang, Ming
Wang, Shiyong
Zhang, Weini
Yan, Tian
Kang, Zhenjun
Chen, Xinhua
collection PubMed - marine biology
contents Significant spatial shifting of the eukaryotic plankton community in a small-scale fish-killing harmful algal bloom of Prorocentrum and Karenia near Huangqi Peninsula, Lianjiang, Fujian, China. Li, Xiaodong Chen, Long Liu, Yang Kong, Fanzhou Wang, Ziyang Ren, Kunlei Li, Jing Yang, Ming Wang, Shiyong Zhang, Weini Yan, Tian Kang, Zhenjun Chen, Xinhua China Harmful Algal Bloom Animals Dinoflagellida Environmental Monitoring Plankton Rotifera Oryzias Seawater A fish-killing harmful algal bloom (HAB) involving multiple causative genera (Prorocentrum and Karenia) occurred in late May 2024 in the coastal waters near Huangqi Peninsula, Lianjiang, Fujian, China. In this study, a field survey was conducted to collect seawater samples of different bloom phases, and the toxicity, pigment composition, toxin contamination, and eukaryotic plankton community were investigated. HAB-affected seawater exhibited significant lethality to the rotifer Brachionus plicatilis and juvenile marine medaka Oryzias melastigma, and eukaryotic diversities were also significantly declined. Peridinin was detected as the main pigment in the HAB-affected area, which was consistent with the high relative abundance of dinoflagellata. Further species-level analysis suggested a significant shift from Prorocentrum dentatum-dominant at the peak phase site to Karenia mikimotoi-Karenia papilionacea-dominant at the early dissipation phase sites. Additionally, Dinophysis spp. were the primary cause of the pectenotoxin-2 contamination in this region. Environmental parameters showed weak correlations with the causative algae, while complex biological interactions were detected in this area. High relative abundances of the ciliate Tintinnopsis lobiancoi and the parasitic dinoflagellate Amoebophrya were detected in early dissipation phase sites, which significantly correlated with K. papilionacea and Karodinium spp., respectively. This pattern suggested that biological interactions, particularly top-down control, might play crucial roles in the HAB dissipation.
format Artículo científico
id pubmed_41478056
institution PubMed
language en
publishDate 2026
publisher Marine environmental research
record_format pubmed
spellingShingle Significant spatial shifting of the eukaryotic plankton community in a small-scale fish-killing harmful algal bloom of Prorocentrum and Karenia near Huangqi Peninsula, Lianjiang, Fujian, China.
Li, Xiaodong
Chen, Long
Liu, Yang
Kong, Fanzhou
Wang, Ziyang
Ren, Kunlei
Li, Jing
Yang, Ming
Wang, Shiyong
Zhang, Weini
Yan, Tian
Kang, Zhenjun
Chen, Xinhua
China
Harmful Algal Bloom
Animals
Dinoflagellida
Environmental Monitoring
Plankton
Rotifera
Oryzias
Seawater
Significant spatial shifting of the eukaryotic plankton community in a small-scale fish-killing harmful algal bloom of Prorocentrum and Karenia near Huangqi Peninsula, Lianjiang, Fujian, China. Li, Xiaodong Chen, Long Liu, Yang Kong, Fanzhou Wang, Ziyang Ren, Kunlei Li, Jing Yang, Ming Wang, Shiyong Zhang, Weini Yan, Tian Kang, Zhenjun Chen, Xinhua China Harmful Algal Bloom Animals Dinoflagellida Environmental Monitoring Plankton Rotifera Oryzias Seawater A fish-killing harmful algal bloom (HAB) involving multiple causative genera (Prorocentrum and Karenia) occurred in late May 2024 in the coastal waters near Huangqi Peninsula, Lianjiang, Fujian, China. In this study, a field survey was conducted to collect seawater samples of different bloom phases, and the toxicity, pigment composition, toxin contamination, and eukaryotic plankton community were investigated. HAB-affected seawater exhibited significant lethality to the rotifer Brachionus plicatilis and juvenile marine medaka Oryzias melastigma, and eukaryotic diversities were also significantly declined. Peridinin was detected as the main pigment in the HAB-affected area, which was consistent with the high relative abundance of dinoflagellata. Further species-level analysis suggested a significant shift from Prorocentrum dentatum-dominant at the peak phase site to Karenia mikimotoi-Karenia papilionacea-dominant at the early dissipation phase sites. Additionally, Dinophysis spp. were the primary cause of the pectenotoxin-2 contamination in this region. Environmental parameters showed weak correlations with the causative algae, while complex biological interactions were detected in this area. High relative abundances of the ciliate Tintinnopsis lobiancoi and the parasitic dinoflagellate Amoebophrya were detected in early dissipation phase sites, which significantly correlated with K. papilionacea and Karodinium spp., respectively. This pattern suggested that biological interactions, particularly top-down control, might play crucial roles in the HAB dissipation.
title Significant spatial shifting of the eukaryotic plankton community in a small-scale fish-killing harmful algal bloom of Prorocentrum and Karenia near Huangqi Peninsula, Lianjiang, Fujian, China.
topic China
Harmful Algal Bloom
Animals
Dinoflagellida
Environmental Monitoring
Plankton
Rotifera
Oryzias
Seawater
url https://pubmed.ncbi.nlm.nih.gov/41478056/