Ben A. Cala
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View article: Solubility of high-magnesium calcite in seawater and its implementation in (Py)CO2SYS
Solubility of high-magnesium calcite in seawater and its implementation in (Py)CO2SYS Open
The calcium carbonate pump is an important part of the ocean's carbon cycle but our knowledge of it is incomplete. For example, alkalinity data suggest that carbonate mineral dissolution happens at shallow depths where bulk seawater is ove…
View article: Supplementary material to "Solubility of high-magnesium calcite in seawater and its implementation in (Py)CO2SYS"
Supplementary material to "Solubility of high-magnesium calcite in seawater and its implementation in (Py)CO2SYS" Open
View article: Synthesis of In Situ Marine Calcium Carbonate Dissolution Kinetic Measurements in the Water Column
Synthesis of In Situ Marine Calcium Carbonate Dissolution Kinetic Measurements in the Water Column Open
Calcium carbonate (CaCO 3 ) dissolution is an integral part of the ocean's carbon cycle. However, laboratory measurements and ocean alkalinity budgets disagree on the rate and loci of dissolution. In situ dissolution studies can help to br…
View article: Development, intercomparison, and evaluation of an improved mechanism for the oxidation of dimethyl sulfide in the UKCA model
Development, intercomparison, and evaluation of an improved mechanism for the oxidation of dimethyl sulfide in the UKCA model Open
Dimethyl sulfide (DMS) is an important trace gas emitted from the ocean. The oxidation of DMS has long been recognised as being important for global climate through the role DMS plays in setting the sulfate aerosol background in the tropos…
View article: Synthesis of in situ marine calcium carbonate dissolution kinetic measurements in the water column
Synthesis of in situ marine calcium carbonate dissolution kinetic measurements in the water column Open
in situ carbonate mineral dissolution rate measurements in the water column are compiled and the saturation state (Ω) is estimated.• Dissolution rates differ by 2 orders of magnitude at the same Ω, mainly due to differences in experimental…
View article: Comment on acp-2023-42
Comment on acp-2023-42 Open
Abstract. Dimethyl sulfide (DMS) is an important trace gas emitted from the ocean. The oxidation of DMS has long been recognised as being important for global climate through the role DMS plays in setting the sulfate aeros…
View article: Development, intercomparison and evaluation of an improved mechanism for the oxidation of dimethyl sulfide
Development, intercomparison and evaluation of an improved mechanism for the oxidation of dimethyl sulfide Open
Dimethyl sulfide (DMS) is an important trace gas emitted from the ocean. The oxidation of DMS is important for global climate through the role DMS plays in setting the sulfate aerosol background in the troposphere. However, the mechanisms …
View article: Dissolving better: what can Earth System models learn from 60 years of in situ carbonate mineral dissolution measurements
Dissolving better: what can Earth System models learn from 60 years of in situ carbonate mineral dissolution measurements Open
Carbonate mineral dissolution has the potential to neutralise anthropogenic CO2 and act as a buffer against ocean acidification. To accurately quantify these effects and predict how this process will respond to a changing climate, we need …
View article: Development, intercomparison and evaluation of an improved mechanism for the oxidation of dimethyl sulfide in the UKCA model
Development, intercomparison and evaluation of an improved mechanism for the oxidation of dimethyl sulfide in the UKCA model Open
Dimethyl sulfide (DMS) is an important trace gas emitted from the ocean. The oxidation of DMS has long been recognised as being important for global climate through the role DMS plays in setting the sulfate aerosol background in the tropos…
View article: Supplementary material to "Development, intercomparison and evaluation of an improved mechanism for the oxidation of dimethyl sulfide in the UKCA model"
Supplementary material to "Development, intercomparison and evaluation of an improved mechanism for the oxidation of dimethyl sulfide in the UKCA model" Open