Biblioteca Digital

(Table S1) Diatom abundance in coastal upwelling systems

**Autoria(s):** Abrantes, Fatima F
Cobertura	MEDIAN LATITUDE: 9.536113 * MEDIAN LONGITUDE: -37.444969 * SOUTH-BOUND LATITUDE: -50.650000 * WEST-BOUND LONGITUDE: -132.667000 * NORTH-BOUND LATITUDE: 49.400000 * EAST-BOUND LONGITUDE: 61.685000 * DATE/TIME START: 1967-06-01T00:00:00 * DATE/TIME END: 2006-09-02T11:14:00 * MINIMUM DEPTH, sediment/rock: 0 m * MAXIMUM DEPTH, sediment/rock: 0 m
Data(s)	21/04/2016
Resumo	Coastal upwelling systems account for approximately half of global ocean primary production and contribute disproportionately to biologically driven carbon sequestration. Diatoms, silica-precipitating microalgae, constitute the dominant phytoplankton in these productive regions, and their abundance and assemblage composition in the sedimentary record is considered one of the best proxies for primary production. The study of the sedimentary diatom abundance (SDA) and total organic carbon content (TOC) in the five most important coastal upwelling systems of the modern ocean (Iberia-Canary, Benguela, Peru-Humboldt, California and Somalia-Oman) reveals a global-scale positive relationship between diatom production and organic carbon burial. The analysis of SDA in conjunction with environmental variables of coastal upwelling systems such as upwelling strength, satellite-derived net primary production and surface water nutrient concentrations shows different relations between SDA and primary production on the regional scale. At the global-scale, SDA appears modulated by the capacity of diatoms to take up silicic acid, which ultimately sets an upper limit to global export production in these ocean regions.
Formato	text/tab-separated-values, 2232 data points
Identificador	https://doi.pangaea.de/10.1594/PANGAEA.859881 doi:10.1594/PANGAEA.859881
Idioma(s)	en
Publicador	PANGAEA
Relação	Abrantes, Fatima F; Cermeno, Pedro; Lopes, C; Romero, Oscar E; Matos, Lelia; van Iperen, J; Rufino, Marta M; Magalhães, Vitor H (2016): Diatoms Si Uptake Capacity Drives Carbon Export In Coastal Upwelling Systems. Biogeosciences Discussions, 1-14, doi:10.5194/bg-2015-517
Direitos	CC-BY: Creative Commons Attribution 3.0 Unported Access constraints: unrestricted
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702-FM07; 703-FM08; 704-FM09; 706-FM11; 708-FM13; 709-FM14; Agadir Canyon; Almeida Carvalho; Angola Benguela Front; Angola Diapir Field; Arabian Sea; Area/locality; AT8408; AT8408-17; AT9009; AT9009-2GC; Atlantis II (1963); Basis of event; BC; BCR; Box corer; Box corer (Reineck); BX307; BX325; BX902; BX903; BX904; BX905; BX906; BX907; BX908; BX915; BX917; BX919; BX921; BX923; BX924; BX925; BX929; CALYPSO; Calypso Corer; Campaign of event; Canary Islands; CD17; CD17-11; CD17-14; CD17-18; CD17-23; CD17-25; CD17-27; CD17-28; CD17-30; CD17-33; CD17-34; Charles Darwin; CHIPAL; CONDOR-Ia; Core; CORE; Date/Time of event; DEPTH, sediment/rock; Diatoms, total valve abundance per unit dry sediment mass; Eastern Equatorial Pacific; Elevation of event; Event label; EW9504-16; FAEGAS_IV; FD75-3; FD75-3-14; FD75-3-15; FD75-3-16; FFC; Free fall corer; GC; Genesis III, RR9702A; GeoB11002-1; GeoB11003-2; GeoB11010-1; GeoB11013-1; GeoB11014-1; GeoB11017-1; GeoB11033-1; GeoB11039-1; GeoB11041-1; GeoB11042-1; 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GeoB7103-3; GeoB7106-1; GeoB7108-3; GeoB7112-1; GeoB7114-1; GeoB7115-1; GeoB7116-1; GeoB7118-1; GeoB7119-1; GeoB7121-1; GeoB7122-2; GeoB7123-1; GeoB7127-1; GeoB7129-1; GeoB7130-1; GeoB7131-1; GeoB7133-1; GeoB7134-1; GeoB7135-1; GeoB7137-2; GeoB7138-1; GeoB7142-2; GeoB7144-1; GeoB7148-1; GeoB7150-1; GeoB7152-1; GeoB7153-1; GeoB7154-2; GeoB7155-1; GeoB7156-1; GeoB7157-1; GeoB7158-1; GeoB7159-1; GeoB7920-3; GeoB7922-3; GeoB7926-1; GeoB7927-1; GeoB7928-3; GeoB7932-2; GeoB8301-5; GeoB8303-5; GeoB8305-1; GeoB8306-1; GeoB8307-5; GeoB8310-1; GeoB8311-1; GeoB8315-5; GeoB8316-1; GeoB8317-1; GeoB8318-1; GeoB8402-1; GeoB8403-1; GeoB8404-2; GeoB84100-2; GeoB8419-2; GeoB8421-4; GeoB8422-1; GeoB8424-3; GeoB8448-2; GeoB8449-1; GeoB8450-1; GeoB8451-1; GeoB8452-1; GeoB8455-1; GeoB8469-3; GeoB8470-1; GeoB8481-2; GeoB8482-2; GeoB8483-2; GeoB8484-3; GeoB8498-2; GeoB8499-1; GeoB8501-1; GeoB8502-4; GeoB8503-1; GeoB8504-1; GeoB8505-1; GeoB8506-1; GeoB8507-1; GeoB8508-1; GeoB8509-3; GeoB8517-1; GeoB8519-1; GeoB8520-3; 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MD952042; MD95-2042; ME0005A; ME0005A-04MC4; ME0005A-07MC3; ME0005A-08MC3; ME0005A-14MC2; ME0005A-15MC6; ME0005A-20MC8; ME0005A-21MC3; ME0005A-25MC5; ME0005A-29MC2; ME0005A-35MC1; ME0005A-38MC2; ME0005A-41MC2; Melville; Meteor (1986); Method comment; MG2; MG4; MUC; MultiCorer; Namibia Continental Margin; Namibia continental slope; NEMO; North Atlantic; Northern Cape Basin; off Angola; off Chile; off Gabun; off Kunene; off Northwest Africa; off Portugal; Pacific; PARCA; Particle camera; PC; Peru Continental Margin; Piston corer; Piston corer (Kiel type); PO200-10-15-1; PO200-10-28-1; Porto Seamount; POS200/10; POS200/10_13-1; POS200/10_14-1; POS200/10_15-1; POS200/10_22-1; POS200/10_27-2; POS200/10_28-1; POS200/10_32-2; POS200/10_4-2; POS200/10_8-2; POS200/10_9-1; POS342; Poseidon; PROBOSWA; PUCK; RC27; RC27-09; RC27-12; RC27-14; RC27-23; RC27-58; RC27-61; RC27-62; Robert Conrad; Roger A. Revelle; RR9702A; RR9702A-01MC4; RR9702A-04MC5; RR9702A-06MC; RR9702A-08MC; RR9702A-10MC2; RR9702A-12MC; RR9702A-14MC; RR9702A-20MC; RR9702A-22MC; RR9702A-24MC3; RR9702A-25MC; RR9702A-27MC; RR9702A-29MC; RR9702A-31MC; RR9702A-34MC; RR9702A-39MC; RR9702A-42MC1; RR9702A-44MC; RR9702A-46MC1; RR9702A-48MC4; RR9702A-50MC4; RR9702A-52MC3; RR9702A-62MC3; RR9702A-64MC1; RR9702A-66MC1; RR9702A-68MC3; RR9702A-70MC3; RR9702A-72MC3; RR9702A-74MC2; RR9702A-77MC2; RR9702A-80MC7; RR9702A-82MC; RR9702A-83MC; S.P. Lee; Sample ID; SL; SO101; SO101/3_3-1; SO102/1; SO102/2; SO11GK; SO156/1; SO156/2; SO156/3; SO75/3; SO75-11KG; SO75-13KG; SO75-15KG; SO75-25KG; SO75-30KG; SO75-9KG; SO83; SO83-11GK; SO83-9GK; SO86; SO9GK; Sonne; South-East Pacific; Southern Cape Basin; southern Congo fan; South Pacific Ocean; TT063-12; TT29-18PC; TT29-22ACREF; TT31-011GCREF; TT34-1GC; TT39-11ACREF; TT39-15REF; TT39-17PC; TT39-18ACREF; TT39-19REF; TT39-21AC; TT39-22PC; TT39-23PC; TT39-5ACREF; TT39-AC12REF; TT68-18AC; TT68-PC27REF; TT90-33GC; VH96/1-3; VH96/1-4; VIABOA; Victor Hensen; W7610B; W7610B-07; W7706; W7706-01; W7706-02; W7706-03; W7706-04; W7706-10; W7706-11a; W7706-11b; W7706-12; W7706-13; W7706-14; W7706-15; W7706-20; W7706-21; W7706-24; W7706-30; W7706-32; W7706-33a; W7706-33b; W7706-34; W7706-35a; W7706-35b; W7706-36; W7706-37; W7706-38; W7706-39; W7706-40; W7706-41; W7706-42; W7706-43; W7706-44; W7706-45; W7706-47; W7706-49; W7706-5; W7706-50; W7706-57; W7706-61; W7706-62; W7706-63K; W7706-64; W7706-68GC; W7706-69; W7706-7; W7706-70GC; W7706-71GC; W7706-72; W7706-73; W7706-74; W7706-76a; W7706-76b; W7706-8; W7706-83; W7706-84; W7706-87; W7706-88; W7706-89; W7706-9; W7905A; W7905A-106; W7905A-109; W7905A-160; W7905A-163; W7905A-167; W7905A-173; W7905A-174; W8209B; W8209B-01; W8209B-19; W8306A; W8306A-01; W8508AA; W8508AA-09; W8709A; W8709A-13; W8809A; W8809A-11GC; W8809A-19GC; W8809A-26GC; W8809A-29GC; W8809A-51GC; W8909_ABC; W8909A; W8909A-24GC; W8909A-31GC; W8909A-48GC; W8909A-57GC; W8909A-7GC; W9205-1GC; Walvis Bay/Namibia; Walvis Ridge; Wecoma; Y6706; Y6706-07; Y6706-08; Y6708; Y6708-23; Y6708-25; Y6708-38; Y6708-42; Y6711; Y6711-5; Y6908; Y6908-5A; Y71-06; Y71-06-04; Y71-06-06; Y71-06-07; Y71-06-08; Y71-06-09; Y71-06-10; Y71-06-11; Y71-06-14; Y71-06-15; Y71-06-16; Y71-06-17; Y71-06-18; Y71-06-19; Y71-06-20; Y71-06-21; Y71-06-22; Y71-06-24; Y71-08; Y71-08-55; Y71-08-56; Y71-08-58; Y73-06; Y73-06-086; Y73-06-093; Y73-07; Y73-07-094; Y73-07-095; Y73-07-096; Y73-07-097; Y73-10; Y73-10-100GRAV; Y7407; Y7407-1; Y7409-15-24GC; Yaquina
Tipo	Dataset
Fonte	Supplement to: Abrantes, Fatima F; Cermeno, Pedro; Lopes, Cristina; Romero, Oscar E; Matos, Lelia; van Iperen, J; Rufino, Marta M; Magalhães, Vitor H (2016): Diatoms Si uptake capacity drives carbon export in coastal upwelling systems. Biogeosciences, 13(14), 4099-4109, doi:10.5194/bg-13-4099-2016

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