Marine Phytoplankton Temperature versus Growth Responses from Polar to Tropical Waters- Outcome of a Scientific Community-Wide Study

“It takes a village to finish (marine) science these days” Paraphrased from Curtis Huttenhower (the Human Microbiome project) The rapidity and complexity of climate change and its potential effects on ocean biota are challenging how ocean scientists conduct research. One way in which we can begin to...

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Bibliographic Details
Published in:PLoS ONE
Main Authors: Boyd, Philip W., Rynearson, Tatiana A., Armstrong, Evelyn A., Fu, Feixue, Hayashi, Kendra, Hu, Zhangxi, Hutchins, David A., Litchman, Elena, Mulholland, Margaret R., Passow, Uta, Stzepek, Robert F., Whittaker, Kerry A., Yu, Elizabeth, Thomas, Mridul K.
Format: Article in Journal/Newspaper
Language:unknown
Published: ODU Digital Commons 2013
Subjects:
Temperature Reactions
Growth Rates
Eukaryotes
Prokaryotes
Dinoflagellate Akashiwo-sanguinea
Southern Ocean Phytoplankton
Diatom Thalassiosira-rotula
Harmful algal blooms
North Pacific Ocean
Climate change
Latitudinal gradient
Red tide
Ditylum-brightwellii
Emiliania-huxleyi
Climate
Oceanography and Atmospheric Sciences and Meteorology
Southern Ocean
Pacific
Online Access:https://digitalcommons.odu.edu/oeas_fac_pubs/22
https://doi.org/10.1371/journal.pone.0063091
https://digitalcommons.odu.edu/context/oeas_fac_pubs/article/1022/viewcontent/MarinePhytoplanktonTemperatureMullholland.pdf
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Summary:“It takes a village to finish (marine) science these days” Paraphrased from Curtis Huttenhower (the Human Microbiome project) The rapidity and complexity of climate change and its potential effects on ocean biota are challenging how ocean scientists conduct research. One way in which we can begin to better tackle these challenges is to conduct community-wide scientific studies. This study provides physiological datasets fundamental to understanding functional responses of phytoplankton growth rates to temperature. While physiological experiments are not new, our experiments were conducted in many laboratories using agreed upon protocols and 25 strains of eukaryotic and prokaryotic phytoplankton isolated across a wide range of marine environments from polar to tropical, and from nearshore waters to the open ocean. This community-wide approach provides both comprehensive and internally consistent datasets produced over considerably shorter time scales than conventional individual and often uncoordinated lab efforts. Such datasets can be used to parameterise global ocean model projections of environmental change and to provide initial insights into the magnitude of regional biogeographic change in ocean biota in the coming decades. Here, we compare our datasets with a compilation of literature data on phytoplankton growth responses to temperature. A comparison with prior published data suggests that the optimal temperatures of individual species and, to a lesser degree, thermal niches were similar across studies. However, a comparison of the maximum growth rate across studies revealed significant departures between this and previously collected datasets, which may be due to differences in the cultured isolates, temporal changes in the clonal isolates in cultures, and/or differences in culture conditions. Such methodological differences mean that using particular trait measurements from the prior literature might introduce unknown errors and bias into modelling projections. Using our community-wide approach we can ...

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