Timing of ocean plankton blooms to shift with global warming


Timing of ocean plankton blooms to shift with global warming
Like plants and trees on land, phytoplankton in the ocean flourishes in the spring, as captured by satellite ocean color obervations. Green to red values indicate high phytoplankton concentrations. The image shows a snapshot from April, 2021 (Data from NASA OceanColor WEB oceancolor.gsfc.nasa.gov/). Credit: Institute for Basic Science

Global warming is directly impacting the ocean’s net primary production (NPP) at the base of the food web as well as the seasonal timing of plankton blooms, according to a new study published in the journal Nature Climate Change.

Contrary to the well-understood situation on land, where climate change is expected to extend the growing season of plants on average due to the CO2 fertilization effect and earlier thawing of spring snow in high latitudes, the seasonal response of plankton in the ocean has remained a mystery.

To tackle this open research question a team of climate scientists from the IBS Center for Climate Physics (ICCP) at Pusan National University in South Korea, Princeton University, the University of California Los Angeles, and the Geophysical Fluid Dynamics Laboratory (GFDL), in the US, analyzed supercomputer model simulations conducted with a realistic Earth system model. To better separate the human-induced effect on plankton seasonality over the next ~80 years from the naturally occurring chaotic variations, the team ran the model 30 times with increasing greenhouse gas concentrations and slightly different starting conditions.

The analysis of these so-called large ensemble simulations revealed that global warming will have a substantial influence on the timing of future plankton blooms and that these changes will become detectable against the backdrop of natural variations, reaching no-analog conditions by the end of 21st century. Under such circumstances, there may be a mismatch in the timing of the life cycles of phytoplankton and zooplankton that feed on them, impacting the entire seasonally-paced clockwork of the marine food web. The paper indicates that such effects could be particularly severe for high-productivity regions in the of the Northern Hemisphere.

The underlying controls on future changes in the timing of marine phytoplankton productivity derive in large part from a strong coupling of the growth and decline of ocean primary producers and zooplankton that serve as predators. Seasonal changes in ambient environmental factors such as temperature, , and nutrient concentrations (so-called “bottom-up” controls) and the number of predators (top-down controls) cause phytoplankton to thrive and decline; in turn, the predator populations respond rapidly to the phytoplankton abundance. The authors found that planetary warming can disrupt this delicate coupling between external environmental factors and zooplankton responses, leading to seasonal shifts in the blooming of phytoplankton. “The additional level of predator/prey interactions makes the ocean’s response more complex than the response of land plants, where the control is mostly bottom-up,” says Dr. Karl J. Stein, a co-author of the study.

“Our study demonstrates the power of large ensemble computer model simulations to understand how ecosystems respond to future , in this case their seasonality. Having established the timing and underlying mechanisms of future plankton bloom changes, we will address further whether such changes will have a negative impact on future food security,” says Dr. Ryohei Yamaguchi from the IBS Center for Climate Physics, and lead author of the study.


New study explores projected changes in climate and ecosystem variability


More information:
Ryohei Yamaguchi et al, Trophic level decoupling drives future changes in phytoplankton bloom phenology, Nature Climate Change (2022). DOI: 10.1038/s41558-022-01353-1

Citation:
Timing of ocean plankton blooms to shift with global warming (2022, May 10)
retrieved 11 May 2022
from https://phys.org/news/2022-05-ocean-plankton-blooms-shift-global.html

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