Haptophyte Phaeocystis globosa is an important causative agent of harmful algal blooms (HABs) globally. Outbreaks of P. globosa blooms usually occur in the eutrophic coastal waters in the form of colonies and lead to adverse impacts on marine ecosystems and mariculture industry.  

The South China Sea (SCS) is a typical region with a large number of P. globosa blooms, which are characterized by the formation of "giant colony", the unique diagnostic pigment, and the strong hemolytic toxicity, etc.  

Recently, the research team led by Prof. YU Rencheng from the Institute of Oceanology of the Chinese Academy of Sciences (IOCAS) provided new insight into the intense blooms of P. globosa in the SCS, and identified the causative species of the blooms as a unique "giant-colony" ecotype. 

The study was published in Harmful Algae on Mar. 23. 

Researchers used a high-resolution chloroplast molecular marker developed by themselves to analyze the genetic diversity of more than 19 strains of P. globosa collected from different regions of the Pacific and Atlantic Oceans. The colony sizes and pigment profiles of these P. globosa isolates were also determined.  

These P. globosa strains could be divided into four genetic clades based on their sequences, or two groups based on colony size and the diagnostic pigments (19'-hexanoyloxyfucoxanthin, hex-fuco, or 19'-butanoyloxyfucoxanthin, but-fuco).  

Three strains from the SCS, all belong to the same genetic clade, have unique biological features in forming "giant colony" and possessing but-fuco as their diagnostic pigment. Based on these findings, researchers suggested that these SCS strains should be a unique "giant-colony" ecotype of P. globosa. 

Researchers analyzed more than 1,000 sequences of the chloroplast molecular marker obtained from P. globosa colony and phytoplankton in the SCS during the period 2016-2021. Phylogenetic analysis indicated that >95% of the sequences from P. globosa colonies in the SCS were comprised of the "giant-colony" ecotype, whereas the genetic diversity of solitary cells was much higher. Therefore, the intense blooms of P. globosa in the SCS were mainly caused by this "giant-colony" ecotype of P. globosa. 

"P. globosa exhibits varying morphological and physiological features and high genetic diversity, yet the relationship among these has never been elucidated. With this regard, this work provides a valuable molecular marker to examine the intraspecific diversity of P. globosa, which will help to understand the morphological, physiological and genetic differentiation of P. globosa," said Dr. ZHANG Qingchun, first author of the study. 

"The massive giant colonies formed by P. globosa had negative impacts on marine environment and the operation of nuclear power plants. The studies on this unique 'giant-colony' ecotype of P. globosa will help to reveal the mechanisms of P. globosa blooms in the coastal waters of China, and to develop the monitoring and early-warning system," said Prof. YU. 

The research was supported by the Strategic Priority Research Program of the Chinese Academy of Sciences, the National Natural Science Foundation of China, and the Science and Technology (S&T) Basic Resources Investigation Program of China.

Giant colonies of P. globosa collected from the SCS (A), and pigment chromatograms of representative P. globosa isolates (B), and phylogenetic tree of different geographic isolates of P. globosa (C) 

Zhang, Q.C., Chao Liu, C., Wang, J.X., Kong, F.Z., Niu, Z., Xiang, L., Yu, R.C. (2022). Intense blooms of Phaeocystis globosa in the South China Sea are caused by a unique "giant-colony" ecotype. Harmful Algae, 114: 102227. 

ZHANG Qingchun, YU Rencheng

Institute of Oceanology 

E-mail: qczhang@qdio.ac.cn; rcyu@qdio.ac.cn

(Editor: ZHANG Yiyi)