Ocean Acidification Impacts on Sea-Surface Biology, Biogeochemistry and Climate

Lead Research Organisation: University of Essex

Department Name: Biological Sciences

Abstract

See Lead Proposal

Funded Value:

£94,913

Funded Period:

Oct 10 - Sep 13

Funder:

NERC

Project Status:

Closed

Project Category:

Research Grant

Project Reference:

NE/H017062/1

Principal Investigator:

David Suggett

Research Subject:

Climate & Climate Change (25%)

Ecol, biodivers. & systematics (25%)

Marine environments (25%)

Plant & crop science (25%)

Research Topic:

Biogeochemical Cycles (25%)

Climate & Climate Change (25%)

Environmental Physiology (25%)

Population Ecology (25%)

Organisations

University of Essex (Lead Research Organisation)

People	ORCID iD
David Suggett (Principal Investigator)
Tracy Lawson (Co-Investigator)	http://orcid.org/0000-0002-4073-7221

Publications

Author Name

Title Publication Date Published

10 25 50

Bretherton L (2019) Day length as a key factor moderating the response of coccolithophore growth to elevated p CO 2 in Limnology and Oceanography

Brodie J (2014) The future of the northeast Atlantic benthic flora in a high CO2 world. in Ecology and evolution

Poulton A (2014) Coccolithophores on the north-west European shelf: calcification rates and environmental controls in Biogeosciences

Richier S (2014) Phytoplankton responses and associated carbon cycling during shipboard carbonate chemistry manipulation experiments conducted around Northwest European shelf seas in Biogeosciences

Richier S (2018) Geographical CO2 sensitivity of phytoplankton correlates with ocean buffer capacity. in Global change biology

Wu Y (2014) Ocean acidification enhances the growth rate of larger diatoms in Limnology and Oceanography

Young J (2014) Morphology of <i>Emiliania huxleyi</i> coccoliths on the northwestern European shelf - is there an influence of carbonate chemistry? in Biogeosciences

Key Findings
Impact Summary


Description	In addressing our overall goal "to examine how OA differentially affects key physiological processes that moderate microalgal productivity and growth between taxa" we have produced substantial achievements and outcomes far beyond our originally proposed expectation: (1) Laboratory experiments demonstrated for the first time that daylength significantly moderates how coccolithophores respond to ocean acidification; specifically, coccolithophores show the greets ocean acidification induced reductions to growth and calcification when under a moderate day length as opposed to constant light regime. This has significant implications as to seasonal and latitudinal responses to ocean acidification by this important phytoplankton group. (2) Ship board bioassay experiments demonstrated for the first time that small size fractions within natural phytoplankton communities are preferentially impacted by rapid reductions in pH enabling smaller size fractions to bloom. (3) Laboratory experiments demonstrated that larger diatoms are preferentially stimulated by elevated pCO2 (ocean acidification) scenarios.
Exploitation Route	Our findings are particularly relevant to biogeochemical modellers that use cell size as a key trait to understand how environmental change influences nutrient cycling in the oceans.
Sectors	Environment


Description	As yet our findings have not been used but we are confident they are highly relevant to the wider research community
First Year Of Impact	2013
Sector	Environment
Impact Types	Societal

Abstract

Organisations

People

ORCID iD

Publications