Ocean Acidification Impacts on Sea-Surface Biology, Biogeochemistry and Climate
Lead Research Organisation:
Marine Biological Association of the United Kingdom
Department Name: Marine Biology
Abstract
See lead proposal
Publications
Taylor AR
(2011)
A voltage-gated H+ channel underlying pH homeostasis in calcifying coccolithophores.
in PLoS biology
Helliwell KE
(2019)
Alternative Mechanisms for Fast Na+/Ca2+ Signaling in Eukaryotes via a Novel Class of Single-Domain Voltage-Gated Channels.
in Current biology : CB
Walker C
(2018)
An Extracellular Polysaccharide-Rich Organic Layer Contributes to Organization of the Coccosphere in Coccolithophores
in Frontiers in Marine Science
Depledge MH
(2013)
Changing views of the interconnections between the oceans and human health in Europe.
in Microbial ecology
Brownlee C
(2015)
Coccolithophore biomineralization: New questions, new answers.
in Seminars in cell & developmental biology
Taylor AR
(2017)
Coccolithophore Cell Biology: Chalking Up Progress.
in Annual review of marine science
Bach LT
(2013)
Dissecting the impact of CO2 and pH on the mechanisms of photosynthesis and calcification in the coccolithophore Emiliania huxleyi.
in The New phytologist
Chrachri A
(2018)
Dynamic changes in carbonate chemistry in the microenvironment around single marine phytoplankton cells.
in Nature communications
Rickaby R
(2016)
Environmental carbonate chemistry selects for phenotype of recently isolated strains of Emiliania huxleyi
in Deep Sea Research Part II: Topical Studies in Oceanography
Mackinder L
(2011)
Expression of biomineralization-related ion transport genes in Emiliania huxleyi.
in Environmental microbiology
Krueger-Hadfield S
(2014)
Genotyping an <i>Emiliania huxleyi</i> (prymnesiophyceae) bloom event in the North Sea reveals evidence of asexual reproduction
in Biogeosciences
De Vries J
(2021)
Haplo-diplontic life cycle expands coccolithophore niche
in Biogeosciences
Carter-Gates M
(2020)
Implications of increasing Atlantic influence for Arctic microbial community structure
in Scientific Reports
Flynn KJ
(2015)
Ocean acidification with (de)eutrophication will alter future phytoplankton growth and succession.
in Proceedings. Biological sciences
Kottmeier DM
(2022)
Reduced H+ channel activity disrupts pH homeostasis and calcification in coccolithophores at low ocean pH.
in Proceedings of the National Academy of Sciences of the United States of America
Johnson V
(2011)
Responses of marine benthic microalgae to elevated CO2
in Marine Biology
Meyer E
(2020)
Sr in coccoliths of Scyphosphaera apsteinii: Partitioning behavior and role in coccolith morphogenesis
in Geochimica et Cosmochimica Acta
Brodie J
(2014)
The future of the northeast Atlantic benthic flora in a high CO2 world.
in Ecology and evolution
Walker CE
(2018)
The requirement for calcification differs between ecologically important coccolithophore species.
in The New phytologist
Durak GM
(2017)
The role of the cytoskeleton in biomineralisation in haptophyte algae.
in Scientific reports
Monteiro FM
(2016)
Why marine phytoplankton calcify.
in Science advances
Description | We demonstrated that populations of the calcifying coccolithophore phytoplankton have considerable genetic and physiological variability. Data from a number of oceanic research cruises has shown that the physiological characteristics of particular coccolithophore populations reflect primarily the environmental conditions under which they were isolated. A particular relationship with carbonate chemistry has been revealed. The findings have direct relevance to understanding the responses of natural coccolithophore populations to changing ocean carbonate chemistry associated with ocean acidification. |
Exploitation Route | Mainly by other academic researchers |
Sectors | Environment |