Pelagophyceae Algae Play Role in Cooling the Planet

Seagriculture USA 2024
Pelagophyceae

The Pelagophyceae are amongst the most abundant algae on Earth. Credit: Frédéric Ducarme

The findings of a study by the University of East Anglia (UEA) and Ocean University of China (OUC) could change our understanding of how tiny marine algae impact our planet. The team identified the bloom forming Pelagophyceae algae as potentially abundant and important producers of a compound called dimethylsulfoniopropionate, or DMSP.

“The Pelagophyceae are amongst the most abundant algae on Earth, yet they were not previously known as important producers of DMSP,” said
 co-lead author Professor Jonathan Todd, of UEA’s School of Biological Sciences. “This discovery is exciting because DMSP is an abundant antistress compound, food source for other microorganisms, and major source of climate-cooling gases.”

Dr Jinyan Wang, OUC/UEA PhD student and first author, added: “Understanding the role of Pelagophyceae in DMSP production means we need to rethink how much of this compound is being produced and how it impacts our climate.”

Every year, billions of tons of DMSP are produced in the oceans by marine microorganisms, helping them to survive by protecting against various stresses like changes in salinity, cold, high pressure, and oxidative stress. Importantly, DMSP is the main source of a climate active gas called dimethylsulfide (DMS), which is known as the smell of the seaside.

This study suggests that DMSP production, and consequently DMS release, is likely higher than previously predicted and emphasizes the key role of microbes in regulating global climate. DMS also acts as a signaling molecule, guiding marine organisms to their food and deterring predators.

When DMS is released into the atmosphere, DMS oxidation products help form clouds which reflect sunlight away from the Earth, effectively cooling the planet. This natural process is essential for regulating the Earth’s climate and is also hugely important for the global sulfur cycle, representing the main route by which sulfur from the oceans is returned to land.

UEA and OUC established the Sino-UK Joint Research Centre to promote cutting-edge research and teaching in marine and ocean science. UEA’s Dr. Andrew Curson was a key member of the team that identified the novel enzymes responsible for the synthesis of DMSP in diverse bacteria, photosynthetic cyanobacteria and algae. “The identity of these enzymes allowed our team to identify Pelagophyceae as potentially abundant and important DMSP producers,” he said.

“By identifying the enzymes involved in DMSP production, scientists can better understand and predict the behavior of these ecosystem-disruptive, brown-tide-forming algae and their impact on global climate change,” said co-lead author Professor Xiao-Hua Zhang, of OUC’s College of Marine Life Science. “This study has also raised questions about other unidentified versions of the enzymes needed to make DMSP, or entirely different pathways for making it that are currently unknown.”

The researchers say further study of Pelagophyceae algae in their natural environment is needed, as well as more detailed studies of other marine organisms. Better measurements of environmental DMSP levels, production and breakdown rates, and the abundance of the enzymes involved in making DMSP are also critical to further advance the field. The research was a collaboration between UEA and OUC, with contributions from Qingdao Agricultural University, the University of Porto, Shandong University and the Laoshan Laboratory in Qingdao, China.

Alternative dimethylsulfoniopropionate biosynthesis enzymes in diverse and abundant microorganisms” is published in Nature Microbiology.

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Seagriculture USA 2024
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