Add to ORKGWe investigated the ability of bacterial communities to colonize and dissolve two biogenic carbonates (Foraminifera and oyster shells). Bacterial carbonate dissolution in the upper water column is postulated to be driven by metabolic activity of bacteria directly colonising carbonate surfaces and the subsequent development of acidic microenvironments. We employed a combination of microsensor measurements, scanning electron microscopy (SEM), confocal laser scanning microscopy (CLSM) and image analysis and molecular documentation of colonising bacteria to monitor microbial processes and document changes in shell surface topography. Bacterial communities rapidly colonised shell surfaces, forming dense biofilms with extracellular polymeric subs...
Marine biogenic carbonates are comprehensive archives of paleoenvironmental conditions. The main env...
International audienceIn situ effects of ocean acidification on carbonate dissolution by microboring...
Whether CaCO3 dissolves within the top centimeters of marine sediments overlaid by deep, supersatura...
Ocean acidification (OA), the decrease in surface ocean pH and seawater saturation state with respec...
Surface carbonate sediments from sites on the Bahamas Bank with different seagrass densities were in...
International audienceSince the industrial era, the atmospheric partial pressure of CO2 (pCO2) has b...
Acidification of the oceans by increasing anthropogenic CO2 emissions will cause a decrease in bioge...
The likelihood that extensive dissolution of aragonite (and high magnesian calcite) takes place duri...
Acidification of the oceans by increasing anthropogenic CO2 emissions will cause a decrease in bioge...
Calcite dissolution of planktic foraminifers that settle from the surface ocean to depths has been a...
The bulk dissolution rates of six biogenic carbonates (goose barnacle, benthic foraminifera, bryozoa...
The role of calcifying organisms in the ocean biogeochemistry has been receiving increasing attentio...
Surface carbonate sediments fro, sites on the Bahamas Bank with different seagrass densities were in...
This work was funded by NSF OCE-1220301 to W.B., NSF OCE-1220600 to J.F.A., and startup funding for ...
The interaction between microorganisms and the calcite mineral surface in aqueous solutions, under e...
Marine biogenic carbonates are comprehensive archives of paleoenvironmental conditions. The main env...
International audienceIn situ effects of ocean acidification on carbonate dissolution by microboring...
Whether CaCO3 dissolves within the top centimeters of marine sediments overlaid by deep, supersatura...
Ocean acidification (OA), the decrease in surface ocean pH and seawater saturation state with respec...
Surface carbonate sediments from sites on the Bahamas Bank with different seagrass densities were in...
International audienceSince the industrial era, the atmospheric partial pressure of CO2 (pCO2) has b...
Acidification of the oceans by increasing anthropogenic CO2 emissions will cause a decrease in bioge...
The likelihood that extensive dissolution of aragonite (and high magnesian calcite) takes place duri...
Acidification of the oceans by increasing anthropogenic CO2 emissions will cause a decrease in bioge...
Calcite dissolution of planktic foraminifers that settle from the surface ocean to depths has been a...
The bulk dissolution rates of six biogenic carbonates (goose barnacle, benthic foraminifera, bryozoa...
The role of calcifying organisms in the ocean biogeochemistry has been receiving increasing attentio...
Surface carbonate sediments fro, sites on the Bahamas Bank with different seagrass densities were in...
This work was funded by NSF OCE-1220301 to W.B., NSF OCE-1220600 to J.F.A., and startup funding for ...
The interaction between microorganisms and the calcite mineral surface in aqueous solutions, under e...
Marine biogenic carbonates are comprehensive archives of paleoenvironmental conditions. The main env...
International audienceIn situ effects of ocean acidification on carbonate dissolution by microboring...
Whether CaCO3 dissolves within the top centimeters of marine sediments overlaid by deep, supersatura...