Long photoperiods sustain high pH in Arctic kelp forests

Concern on the impacts of ocean acidification on calcifiers, such as bivalves, sea urchins, and foraminifers, has led to efforts to understand the controls on pH in their habitats, which include kelp forests and seagrass meadows. The metabolism of these habitats can lead to diel fluctuation in pH wi...

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Bibliographic Details
Published in:Science Advances
Main Authors: Krause-Jensen, Dorte, Marbà, Núria, Sanz-Martín, Marina, Hendriks, Iris E., Thyrring, J., Carstensen, Jacob, Sejr, Mikael K., Duarte, Carlos M.
Other Authors: Danish Environmental Protection Agency, La Caixa, CSIC - Unidad de Recursos de Información Científica para la Investigación (URICI)
Format: Article in Journal/Newspaper
Language:English
Published: American Association for the Advancement of Science 2016
Subjects:
Acidification
Arctic kelp
Macrophytes
Metabolism
pH
Photoperiod
Photosynthesis
Respiration
Plant-climate interactions
Arctic
Greenland
Ocean acidification
Sea ice
Subarctic
Online Access:http://hdl.handle.net/10261/143387
https://doi.org/10.1126/sciadv.1501938
Description
Summary:Concern on the impacts of ocean acidification on calcifiers, such as bivalves, sea urchins, and foraminifers, has led to efforts to understand the controls on pH in their habitats, which include kelp forests and seagrass meadows. The metabolism of these habitats can lead to diel fluctuation in pH with increases during the day and declines at night, suggesting no net effect on pH at time scales longer than daily. We examined the capacity of subarctic and Arctic kelps to up-regulate pH in situ and experimentally tested the role of photoperiod in determining the capacity of Arctic macrophytes to up-regulate pH. Field observations at photoperiods of 15 and 24 hours in Greenland combined with experimental manipulations of photoperiod show that photoperiods longer than 21 hours, characteristic of Arctic summers, are conducive to sustained up-regulation of pH by kelp photosynthesis. We report a gradual increase in pH of 0.15 units and a parallel decline in pCO2 of 100 parts per million over a 10-day period in an Arctic kelp forest over midsummer, with ample scope for continued pH increase during the months of continuous daylight. Experimental increase in CO2 concentration further stimulated the capacity of macrophytes to deplete CO2 and increase pH. We conclude that long photoperiods in Arctic summers support sustained up-regulation of pH in kelp forests, with potential benefits for calcifiers, and propose that this mechanism may increase with the projected expansion of Arctic vegetation in response to warming and loss of sea ice. The study was funded by the Danish Environmental Protection Agency within the Danish Cooperation for Environment in the Arctic. It is also a contribution to the Greenland Ecosystem Monitoring program (www.G-E-M.dk) and the Arctic Science Partnership (www.asp-net.org). M.S.-M. was supported by a Fundación “La Caixa” fellowship (Spain). We acknowledge support by the CSIC Open Access Publication Initiative through its Unit of Information Resources for Research (URICI). Peer reviewed

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