Journal
JOURNAL OF PHYCOLOGY
Volume 54, Issue 5, Pages 690-702Publisher
WILEY
DOI: 10.1111/jpy.12774
Keywords
Arctic; Clathromorphum sp; ecophysiology; Greenland ice sheet; Lithothamnion glaciale; maerl; polar seaweeds; rhodolith; salinity
Categories
Funding
- Leverhulme Trust Research Project [2014-093]
- Scottish Alliance for Geoscience, Environment and Society (SAGES)
- Marine Alliance for Science and Technology for Scotland (MASTS) Small Grants Scheme
- University of Glasgow
- Federation of European Microbiological Societies research grant
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In Greenland, free-living red coralline algae contribute to and dominate marine habitats along the coastline. Lithothamnion glaciale dominates coralline algae beds in many regions of the Arctic, but never in Godthabsfjord, Greenland, where Clathromorphum sp. is dominant. To investigate environmental impacts on coralline algae distribution, calcification and primary productivity were measured insitu during summers of 2015 and 2016, and annual patterns of productivity in L.glaciale were monitored in laboratory-based mesocosm experiments where temperature and salinity were manipulated to mimic high glacial melt. The results of field and cold-room measurements indicate that both L.glaciale and Clathromorphum sp. had low calcification and photosynthetic rates during the Greenland summer (2015 and 2016), with maximum of 1.225 +/- 0.17 or 0.002 +/- 0.023mol CaCO3.g(-1).h(-1) and -0.007 +/- 0.003 or -0.004 +/- 0.001mg O-2.L-1.h(-1) in each species respectively. Mesocosm experiments indicate L.glaciale is a seasonal responder; photosynthetic and calcification rates increase with annual light cycles. Furthermore, metabolic processes in L.glaciale were negatively influenced by low salinity; positive growth rates only occurred in marine treatments where individuals accumulated an average of 1.85 +/- 1.73mg.d(-1) of biomass through summer. These results indicate high freshwater input to the Godthabsfjord region may drive the low abundance of L.glaciale, and could decrease species distribution as climate change increases freshwater input to the Arctic marine system via enhanced ice sheet runoff and glacier calving.
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