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(Table S1) Distribution of Florisphaera profunda in surface sediment samples (2012)

Grelaud, Michaël ; Marino, Gianluca ; Ziveri, Patrizia ; [et al.]

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Publication Date: 2024-02-02

Keywords: 101; 107; 111; 116; 118; 560; 561; 562; 563; 564; 565; 566; 569; 570; 571; 573; 574; 575; 576; 577; 578; 579; 580; 590; 594; 596; 601; 602; 604; 80; 82; AB12MC; BANSIC-ST103; BANSIC-ST120; BANSIC-ST123; BANSIC-ST1270; BANSIC-ST136; BANSIC-ST139; BANSIC-ST1420; BANSIC-ST1426; BANSIC-ST1429; BANSIC-ST143; BANSIC-ST1431; BANSIC-ST1558; BANSIC-ST1567; BANSIC-ST160; BANSIC-ST167; BANSIC-ST170; BANSIC-ST1711; BANSIC-ST172; BANSIC-ST180; BANSIC-ST184; BANSIC-ST1846; BANSIC-ST1852; BANSIC-ST1855; BANSIC-ST188; BANSIC-ST199; BANSIC-ST213; BANSIC-ST2134; BANSIC-ST2140; BANSIC-ST2287; BANSIC-ST2422; BANSIC-ST2575; BANSIC-ST270; BANSIC-ST272; BANSIC-ST275; BANSIC-ST278; BANSIC-ST282; BANSIC-ST285; BANSIC-ST292; BANSIC-ST296; BANSIC-ST342; BANSIC-ST386; BANSIC-ST403; BANSIC-ST407; BANSIC-ST44; BANSIC-ST440; BANSIC-ST446; BANSIC-ST450; BANSIC-ST453; BANSIC-ST513; BANSIC-ST517; BANSIC-ST521; BANSIC-ST581; BANSIC-ST611; BANSIC-ST617; BANSIC-ST621; BANSIC-ST64; BANSIC-ST67; BANSIC-ST70; BANSIC-ST74; BANSIC-ST806; BANSIC-ST81; BANSIC-ST864; BANSIC-ST89; BANSIC-ST991; BANSIC-ST994; Chlorophyll a; Comment; Cyprus; DEPTH, sediment/rock; Eastern Mediterranean, Continental slope off Israel; Elevation of event; Eratosthenes Seamount; Event label; Florisphaera profunda; GeoB7704-1; GeoB7705-1; GeoB7714-1; GeoB7718-1; GeoB7720-1; GeoB7723-2; GeoB7725-2; Greece; Latitude of event; Le Noroit; Longitude of event; Lybia; M40/4; M40/4_MUC65; M40/4_MUC66; M40/4_MUC68; M40/4_MUC70; M40/4_MUC71; M40/4_MUC74; M40/4_MUC75; M40/4_MUC76-1; M40/4_MUC77A; M40/4_MUC87; M51/3; M51/3_560-1; M51/3_561-4; M51/3_562-5; M51/3_563-5; M51/3_564-2; M51/3_565-1; M51/3_566-3; M51/3_569-3; M51/3_570-2; M51/3_571; M51/3_573; M51/3_574-2; M51/3_575-6; M51/3_576-3; M51/3_577-1; M51/3_578; M51/3_579; M51/3_580; M51/3_590; M51/3_594; M51/3_596; M51/3_601-3; M51/3_602; M51/3_604; M52/2; Malta; MCAT01; Mediterranean Sea; Mediterranean Sea Acidification in a Changing Climate; MedSeA; Meteor (1986); MUC; MultiCorer; Nile Fan; Reference/source; SIN97-BC02; SIN97-BC03; SIN97-BC06; SIN97-BC07; SIN97-BC09; SINSAP-98; SINSAP98-BCAP1-2; SINSAP98-BCI0-1; SINSAP98-BCI01-2; Turkey; Urania; VICOMED_I; VICOMED_I-ANA; VICOMED_II; VICOMED_II-CRE; VICOMED_II-KHA; VICOMED_I-ION; VICOMED_II-PAN; VICOMED_I-MAL; VICOMED_I-RHO; VICOMED_I-YOS; Zyprus

Type: Dataset

Format: text/tab-separated-values, 355 data points

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Seawater carbonate chemistry and Emiliania huxleyi mass and size, 2011 (2011)

Beaufort, Luc ; Probert, Ian ; de Garidel-Thoron, Thibault ; [et al.]

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In: Supplement to: Beaufort, Luc; Probert, Ian; de Garidel-Thoron, Thibault; Bendif, E M; Ruiz-Pino, Diana; Metzi, N; Goyet, Catherine; Buchet, Noëlle; Coupel, Pierre; Grelaud, Michaël; Rost, Björn; Rickaby, Rosalind E M; De Vargas, Colomban (2011): Sensitivity of coccolithophores to carbonate chemistry and ocean acidification. Nature, 476, 80-83, https://doi.org/10.1038/nature10295

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Publication Date: 2024-03-15

Description: About one-third of the carbon dioxide (CO2) released into the atmosphere as a result of human activity has been absorbed by the oceans, where it partitions into the constituent ions of carbonic acid. This leads to ocean acidification, one of the major threats to marine ecosystems and particularly to calcifying organisms such as corals, foraminifera and coccolithophores. Coccolithophores are abundant phytoplankton that are responsible for a large part of modern oceanic carbonate production. Culture experiments investigating the physiological response of coccolithophore calcification to increased CO2 have yielded contradictory results between and even within species. Here we quantified the calcite mass of dominant coccolithophores in the present ocean and over the past forty thousand years, and found a marked pattern of decreasing calcification with increasing partial pressure of CO2 and concomitant decreasing concentrations of CO3. Our analyses revealed that differentially calcified species and morphotypes are distributed in the ocean according to carbonate chemistry. A substantial impact on the marine carbon cycle might be expected upon extrapolation of this correlation to predicted ocean acidification in the future. However, our discovery of a heavily calcified Emiliania huxleyi morphotype in modern waters with low pH highlights the complexity of assemblage-level responses to environmental forcing factors.

Keywords: Age, dated; Alkalinity, total; Antarctic; Aragonite saturation state; Bicarbonate ion; Calcite saturation state; Calculated using CO2SYS; Calculated using seacarb after Nisumaa et al. (2010); Carbon, inorganic, dissolved; Carbonate ion; Carbonate system computation flag; Carbon dioxide; CTD, Sea-Bird SBE 911plus; Emiliania huxleyi; Emiliania huxleyi, diameter; Emiliania huxleyi, weight; Emiliania huxleyi, weight, standard error; EPOCA; Estimated by measuring brightness in cross-polarized light (birefringence); EUR-OCEANS; European network of excellence for Ocean Ecosystems Analysis; European Project on Ocean Acidification; Fugacity of carbon dioxide (water) at sea surface temperature (wet air); Indian Ocean; LATITUDE; LONGITUDE; Measured and/or detected by SYRACO software; North Atlantic; North Pacific; OA-ICC; Ocean Acidification International Coordination Centre; Partial pressure of carbon dioxide (water) at sea surface temperature (wet air); pH; Phytoplankton; Replicates; Salinity; Sample ID; South Atlantic; South Pacific; Temperature, water; Titration potentiometric

Type: Dataset

Format: text/tab-separated-values, 16400 data points

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Seawater carbonate chemistry and coccolith calcite mass of Emiliania huxleyi (2018)

D'Amario, Barbara ; Ziveri, Patrizia ; Grelaud, Michaël ; [et al.]

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Publication Date: 2024-03-15

Description: To understand the response of marine calcifying organisms under high CO2 scenarios, it is critical to study their calcification patterns in the natural environment. This paper focuses on a major calcifying phytoplankton group, the coccolithophores, through the analysis of water samples collected along a W-E Mediterranean transect during two research cruises, in April 2011 (Meteor cruise M84/3) and May 2013 (MedSeA cruise 2013). The Mediterranean Sea is a marginal sea characterized by large biogeochemical gradients. Currently, it is undergoing both warming and ocean acidification, processes which are rapidly modifying species distribution and calcification. The species Emiliania huxleyi largely dominates the total coccolithophore production in present day oceans and marine basins, including the Mediterranean Sea. A series of morphometric measurements were performed on the coccoliths of this species to estimate their mass, length and calculate a calcification index (proxy for the size-normalized calcification degree). The most abundant morphotype of E. huxleyi in the Mediterranean Sea is Type A. Coccoliths of this morphotype were additionally analyzed based on scanning electron microscopy images: four calcification varieties were quantified, according to the relationship between slit length-tube width, and the state of the central area (open or closed). The average E. huxleyi coccolith mass along the Mediterranean oceanographic transect depended strongly on both the average coccolith length and calcification index. The variability in average coccolith length and calcification index across samples reflected oscillations in the relative abundance of the calcification varieties. We also demonstrated that the distribution of the calcification varieties followed the main environmental gradients (carbonate chemistry, salinity, temperature, nutrient concentrations). Hence, shifts in the distribution of the calcification varieties and of the average E. huxleyi coccolith mass are to be expected in the Mediterranean Sea under climate change. These physiological and ecological responses will modulate the net coccolithophore calcification and, ultimately, the regional carbonate export to the seafloor.

Keywords: 11-Eastern Basin; 1-Atlantic; 2-Gibraltar; 4-Algeria; 5-Southern Alguero-Balear; 7-Strait of Sicily; 9-Ionian Sea; Alkalinity, total; Angeles Alvarino; Aragonite saturation state; Bicarbonate ion; Bottle number; Calcification index; Calcite saturation state; Calculated using CO2SYS; Calculated using seacarb after Nisumaa et al. (2010); Carbon, inorganic, dissolved; Carbonate ion; Carbonate system computation flag; Carbon dioxide; Chromista; Coast and continental shelf; Coccoliths, length; Coccoliths, mass; CTD; CTD/Rosette; CTD-RO; DATE/TIME; DEPTH, water; Eastern Basin; ELEVATION; Emiliania huxleyi; Event label; Field observation; Fluorescence, chlorophyll; Fugacity of carbon dioxide (water) at sea surface temperature (wet air); Growth/Morphology; Haptophyta; LATITUDE; LONGITUDE; M294; M302; M324; M329; M337; M84/3; M84/3_294; M84/3_302; M84/3_324; M84/3_329; M84/3_337; Mediterranean Sea; Mediterranean Sea Acidification in a Changing Climate; MedSeA; MedSeA2013/1; MedSeA2013/1_13; MedSeA2013/1_17; MedSeA2013/1_2; MedSeA2013/1_22; MedSeA2013/1_3; MedSeA2013/1_30; MedSeA2013/1_31; MedSeA2013/1_37; MedSeA2013/1_7; Meteor (1986); Nitrate and Nitrite; Nutrient autoanalyzer (Bran and Luebbe, AAIII); OA-ICC; Ocean Acidification International Coordination Centre; Oxygen; Oxygen sensor, SBE 43; Partial pressure of carbon dioxide (water) at sea surface temperature (wet air); Pelagos; Percentage; pH; Phosphate; Phytoplankton; Pressure, water; Radiation, photosynthetically active; Registration number of species; Salinity; Single species; South Atlantic Ocean; Species; Spectrophotometric; Station label; Strait of Gibraltar; Strait of Sicilia; SYRACO (Beaufort and Doll, 2004); Temperate; Temperature, water; Type; Uniform resource locator/link to reference; Western Basin

Type: Dataset

Format: text/tab-separated-values, 1866 data points

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