Related references
Note: Only part of the references are listed.A new mesocosm system to study the effects of environmental variability on marine species and communities
Christian Pansch et al.
LIMNOLOGY AND OCEANOGRAPHY-METHODS (2019)
Seagrass can mitigate negative ocean acidification effects on calcifying algae
Ellie Bergstrom et al.
SCIENTIFIC REPORTS (2019)
Responses of seaweeds that use CO2 as their sole inorganic carbon source to ocean acidification: differential effects of fluctuating pH but little benefit of CO2 enrichment
Damon Britton et al.
ICES JOURNAL OF MARINE SCIENCE (2019)
Ocean acidification refugia in variable environments
Lydia Kapsenberg et al.
GLOBAL CHANGE BIOLOGY (2019)
Co-culture in marine farms: macroalgae can act as chemical refuge for shell-forming molluscs under an ocean acidification scenario
Pamela A. Fernandez et al.
PHYCOLOGIA (2019)
Variability of Seawater Chemistry in a Kelp Forest Environment Is Linked to in situ Transgenerational Effects in the Purple Sea Urchin, Strongylocentrotus purpuratus
Umihiko Hoshijima et al.
FRONTIERS IN MARINE SCIENCE (2019)
Minireview: algal natural compounds and extracts as antifoulants
Mahasweta Saha et al.
JOURNAL OF APPLIED PHYCOLOGY (2018)
Macroalgae may mitigate ocean acidification effects on mussel calcification by increasing pH and its fluctuations
M. Wahl et al.
LIMNOLOGY AND OCEANOGRAPHY (2018)
Abiotic and biotic interactions in the diffusive boundary layer of kelp blades create a potential refuge from ocean acidification
Fanny Noisette et al.
FUNCTIONAL ECOLOGY (2018)
Biophysical feedbacks mediate carbonate chemistry in coastal ecosystems across spatiotemporal gradients
Nyssa J. Silbiger et al.
SCIENTIFIC REPORTS (2018)
The role of kelp species as biogenic habitat formers in coastal marine ecosystems
Harry Teagle et al.
JOURNAL OF EXPERIMENTAL MARINE BIOLOGY AND ECOLOGY (2017)
Low pH conditions impair module capacity to regenerate in a calcified colonial invertebrate, the bryozoan Cryptosula pallasiana
Chiara Lombardi et al.
MARINE ENVIRONMENTAL RESEARCH (2017)
Interactive effects of temperature, food and skeletal mineralogy mediate biological responses to ocean acidification in a widely distributed bryozoan
Daniel S. Swezey et al.
PROCEEDINGS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES (2017)
Inorganic carbon physiology underpins macroalgal responses to elevated CO2
Christopher E. Cornwall et al.
SCIENTIFIC REPORTS (2017)
A new flow-through bioassay for testing low-emission antifouling coatings
Christian Pansch et al.
BIOFOULING (2017)
Simulated diurnal pH fluctuations radically increase variance in-but not the mean of-growth in the barnacle Balanus improvisus
L. Eriander et al.
ICES JOURNAL OF MARINE SCIENCE (2016)
How good are we at assessing the impact of ocean acidification in coastal systems? Limitations, omissions and strengths of commonly used experimental approaches with special emphasis on the neglected role of fluctuations
M. Wahl et al.
MARINE AND FRESHWATER RESEARCH (2016)
Biotic Control of Surface pH and Evidence of Light-Induced H+ Pumping and Ca2+-H+ Exchange in a Tropical Crustose Coralline Alga
Laurie C. Hofmann et al.
PLOS ONE (2016)
Ocean acidification reverses the positive effects of seawater pH fluctuations on growth and photosynthesis of the habitat-forming kelp, Ecklonia radiata
Damon Britton et al.
SCIENTIFIC REPORTS (2016)
Seasonal fluctuations in chemical defenses against macrofouling in Fucus vesiculosus and Fucus serratus from the Baltic Sea
Esther Rickert et al.
BIOFOULING (2015)
SLOW-FLOW HABITATS AS REFUGIA FOR COASTAL CALCIFIERS FROM OCEAN ACIDIFICATION
Catriona L. Hurd
JOURNAL OF PHYCOLOGY (2015)
Pronounced gradients of light, photosynthesis and O2 consumption in the tissue of the brown alga Fucus serratus
Mads Lichtenberg et al.
NEW PHYTOLOGIST (2015)
Gains and losses of coral skeletal porosity changes with ocean acidification acclimation
Paola Fantazzini et al.
NATURE COMMUNICATIONS (2015)
Season Exerts Differential Effects of Ocean Acidification and Warming on Growth and Carbon Metabolism of the Seaweed Fucus vesiculosus in the Western Baltic Sea
Angelika Graiff et al.
FRONTIERS IN MARINE SCIENCE (2015)
Ocean Acidification in the Coastal Zone from an Organism's Perspective: Multiple System Parameters, Frequency Domains, and Habitats
George G. Waldbusser et al.
ANNUAL REVIEW OF MARINE SCIENCE, VOL 6 (2014)
Selective settlement by larvae of Membranipora membranacea and Electra pilosa (Ectoprocta) along kelp blades in Nova Scotia, Canada
Danielle Denley et al.
AQUATIC BIOLOGY (2014)
Growth and Calcification of Marine Bryozoans in a Changing Ocean
Abigail M. Smith
BIOLOGICAL BULLETIN (2014)
Can variable pH and low oxygen moderate ocean acidification outcomes for mussel larvae?
Christina A. Frieder et al.
GLOBAL CHANGE BIOLOGY (2014)
Habitat traits and food availability determine the response of marine invertebrates to ocean acidification
Christian Pansch et al.
GLOBAL CHANGE BIOLOGY (2014)
Diffusion Boundary Layers Ameliorate the Negative Effects of Ocean Acidification on the Temperate Coralline Macroalga Arthrocardia corymbosa
Christopher E. Cornwall et al.
PLOS ONE (2014)
Defence Chemistry Modulation by Light and Temperature Shifts and the Resulting Effects on Associated Epibacteria of Fucus vesiculosus
Mahasweta Saha et al.
PLOS ONE (2014)
Modelling the impact of Baltic Sea upwelling on the atmospheric boundary layer
David Sproson et al.
TELLUS SERIES A-DYNAMIC METEOROLOGY AND OCEANOGRAPHY (2014)
Is Ocean Acidification an Open-Ocean Syndrome? Understanding Anthropogenic Impacts on Seawater pH
Carlos M. Duarte et al.
ESTUARIES AND COASTS (2013)
Concentration boundary layers around complex assemblages of macroalgae: Implications for the effects of ocean acidification on understory coralline algae
Christopher E. Cornwall et al.
LIMNOLOGY AND OCEANOGRAPHY (2013)
Future ocean acidification will be amplified by hypoxia in coastal habitats
Frank Melzner et al.
MARINE BIOLOGY (2013)
Temperature and salinity interactively impact early juvenile development: a bottleneck in barnacle ontogeny
Ali Nasrolahi et al.
MARINE BIOLOGY (2013)
Differential Responses of Calcifying and Non-Calcifying Epibionts of a Brown Macroalga to Present-Day and Future Upwelling pCO2
Vincent Saderne et al.
PLOS ONE (2013)
Diurnal fluctuations in seawater pH influence the response of a calcifying macroalga to ocean acidification
Christopher E. Cornwall et al.
PROCEEDINGS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES (2013)
How will Ocean Acidification Affect Baltic Sea Ecosystems? An Assessment of Plausible Impacts on Key Functional Groups
Jonathan N. Havenhand
AMBIO (2012)
A protective coat of microorganisms on macroalgae: inhibitory effects of bacterial biofilms and epibiotic microbial assemblages on barnacle attachment
Ali Nasrolahi et al.
FEMS MICROBIOLOGY ECOLOGY (2012)
Impacts of ocean warming and acidification on the larval development of the barnacle Amphibalanus improvisus
Christian Pansch et al.
JOURNAL OF EXPERIMENTAL MARINE BIOLOGY AND ECOLOGY (2012)
Oxygen and Heterotrophy Affect Calcification of the Scleractinian Coral Galaxea fascicularis
Tim Wijgerde et al.
PLOS ONE (2012)
Metabolically induced pH fluctuations by some coastal calcifiers exceed projected 22nd century ocean acidification: a mechanism for differential susceptibility?
Catriona L. Hurd et al.
GLOBAL CHANGE BIOLOGY (2011)
Potential uptake of dissolved organic matter by seagrasses and macroalgae
Tom Van Engeland et al.
MARINE ECOLOGY PROGRESS SERIES (2011)
Will variation among genetic individuals influence species responses to global climate change?
Jennifer C. A. Pistevos et al.
OIKOS (2011)
The combined effects of ocean acidification, mixing, and respiration on pH and carbonate saturation in an urbanized estuary
Richard A. Feely et al.
ESTUARINE COASTAL AND SHELF SCIENCE (2010)
MICROSENSOR MEASUREMENTS OF THE EXTERNAL AND INTERNAL MICROENVIRONMENT OF FUCUS VESICULOSUS (PHAEOPHYCEAE)
Kristian Spilling et al.
JOURNAL OF PHYCOLOGY (2010)
Post-larval development of two intertidal barnacles at elevated CO2 and temperature
Helen S. Findlay et al.
MARINE BIOLOGY (2010)
Effects of ocean acidification and high temperatures on the bryozoan Myriapora truncata at natural CO2 vents
Riccardo Rodolfo-Metalpa et al.
MARINE ECOLOGY-AN EVOLUTIONARY PERSPECTIVE (2010)
Calcifying invertebrates succeed in a naturally CO2-rich coastal habitat but are threatened by high levels of future acidification
J. Thomsen et al.
BIOGEOSCIENCES (2010)
Ocean Acidification: The Other CO2Problem
Scott C. Doney et al.
Annual Review of Marine Science (2008)
Living where the flow is right: How flow affects feeding in bryozoans
Marney C. Pratt
INTEGRATIVE AND COMPARATIVE BIOLOGY (2008)
Chemical inhibition of barnacle larval settlement by the brown alga Fucus vesiculosus
Elisabet Brock et al.
MARINE ECOLOGY PROGRESS SERIES (2007)
Colony growth rate of encrusting marine bryozoans (Electra pilosa and Celleporella hyalina)
P Hermansen et al.
JOURNAL OF EXPERIMENTAL MARINE BIOLOGY AND ECOLOGY (2001)
Water motion, marine macroalgal physiology, and production
CL Hurd
JOURNAL OF PHYCOLOGY (2000)