Biological and chemical oceanographic profiles from the equatorial Atlantic


Autoria(s): Bauerfeind, Eduard; Boje, Rolf; Fahrbach, Eberhard; Lenz, Jürgen
Cobertura

MEDIAN LATITUDE: 0.310503 * MEDIAN LONGITUDE: -21.846288 * SOUTH-BOUND LATITUDE: -2.005000 * WEST-BOUND LONGITUDE: -22.151700 * NORTH-BOUND LATITUDE: 3.015000 * EAST-BOUND LONGITUDE: -21.073330 * DATE/TIME START: 1979-02-02T08:33:00 * DATE/TIME END: 1979-06-13T14:53:00

Data(s)

31/07/1983

Resumo

The volume presents planktological and chemical data collected during cruise No. 51 of RV "Meteor" to the equatorial Atlantic (FGGE '79) from February to June 1979. A standard section along the meridian 22° W across the equator was sampled ten times between 2° S and 3° N. Together with a temperature and salinity profile, concentrations of oxygen, nutrients and chlorophyll a were analyzed in water samples down to a depth of 250 m. Solar radiation and light depths were measured for determination of primary productivity of the euphotic zone according to the simulated in situ method. Zooplankton biomass was estimated in 5 depth intervals down to 300 m by means of a multiple opening and closing net equipped with a mesh size of 100 µm.

Formato

application/zip, 2 datasets

Identificador

https://doi.pangaea.de/10.1594/PANGAEA.763534

doi:10.1594/PANGAEA.763534

Idioma(s)

en

Publicador

PANGAEA

Direitos

CC-BY: Creative Commons Attribution 3.0 Unported

Access constraints: unrestricted

Fonte

Supplement to: Bauerfeind, Eduard; Boje, Rolf; Fahrbach, Eberhard; Lenz, Jürgen (1983): Planktological and chemica data from the equatorial Atlantic at 22°W obtained in February to June 1979 ("FGGE-Equator '79"). Berichte aus dem Institut für Meereskunde an der Christian-Albrechts Universität Kiel, 110, 157 pp, hdl:10013/epic.37779.d001

Palavras-Chave #% of mean of the surface layer (0-25 m) sset 100 %; % org matter in seston (dry weight); Atlantic Ocean; Chl a; Chlorophyll a; contributed by phytoplankton as % of tot org matter; CTD/Rosette; CTD-RO; Density, sigma-theta (0); Depth, bottom/max; Depth, top/min; DEPTH, water; Depth bot; Depth top; Depth water; Event; Expendable bathythermograph; FGGE-Equator ´79 - First GARP Global Experiment; for each depth layer; in each of the 5 depth layers within the 300 m deep water column sampled; M51; M51_010-1; M51_011-1; M51_013-1; M51_015-1; M51_017-1; M51_018-1; M51_020-1; M51_022-1; M51_024-1; M51_027-1; M51_029-1; M51_031-1; M51_033-1; M51_035-1; M51_036-1; M51_038-1; M51_039-1; M51_041-1; M51_043-1; M51_043-2; M51_045-1; M51_047-1; M51_049-1; M51_049-2; M51_051-1; M51_053-1; M51_055-1; M51_058-1; M51_060-1; M51_062-1; M51_064-1; M51_066-1; M51_071-1; M51_073-1; M51_075-1; M51_076-1; M51_077-1; M51_078-1; M51_079-1; M51_080-1; M51_081-1; M51_082-1; M51_083-1; M51_090-1; M51_092-1; M51_094-1; M51_096-1; M51_098-1; M51_100-1; M51_102-2; M51_104-1; M51_106-1; M51_108-2; M51_110-1; M51_112-1; M51_114-1; M51_116-1; M51_117-2; M51_122-1; M51_124-1; M51_126-2; M51_128-1; M51_130-1; M51_132-1; M51_134-1; M51_134-2; M51_136-1; M51_137-1; M51_139-1; M51_141-1; M51_143-1; M51_143-2; M51_145-1; M51_147-1; M51_149-1; M51_151-2; M51_152-2; M51_153-2; M51_160-1; M51_161-1; M51_163-1; M51_165-1; M51_167-1; M51_169-1; M51_171-1; M51_173-1; M51_175-1; M51_177-1; M51_179-1; M51_181-2; M51_183-1; M51_185-1; M51_197-1; M51_197-10; M51_197-11; M51_197-12; M51_197-2; M51_197-3; M51_197-4; M51_197-5; M51_197-6; M51_197-7; M51_197-8; M51_197-9; M51_199-1; M51_199-10; M51_199-11; M51_199-12; M51_199-13; M51_199-14; M51_199-15; M51_199-2; M51_199-3; M51_199-4; M51_199-5; M51_199-6; M51_199-7; M51_199-8; M51_199-9; M51_201-1; M51_202-1; M51_203-1; M51_205-1; M51_207-1; M51_209-1; M51_211-1; M51_212-2; M51_213-2; M51_215-2; M51_217-2; M51_219-1; M51_221-2; M51_223-1; M51_225-1; M51_227-1; M51_227-10; M51_227-2; M51_227-3; M51_227-4; M51_227-5; M51_227-6; M51_227-7; M51_227-8; M51_227-9; M51_231-2; M51_232-1; M51_234-1; M51_236-2; M51_238-2; M51_240-1; M51_242-2; M51_244-1; M51_246-1; M51_247-2; M51_248-1; M51_250-1; M51_252-1; M51_254-1; M51_255-2; M51_256-1; M51_258-1; M51_261-2; M51_263-1; M51_265-1; M51_267-2; M51_269-1; M51_271-1; M51_273-2; M51_275-1; M51_277-1; M51_279-1; M51_280-1; M51_281-1; M51_283-1; M51_285-1; M51_286-1; M51_286-4; M51_291-1; M51_292-2; M51_294-2; M51_296-1; M51_298-1; M51_300-1; M51_301-2; M51_302-1; M51_304-1; M51_306-1; M51_308-1; M51_309-2; M51_310-1; M51_312-1; M51_314-1; M51_316-1; M51_317-1; M51_320-1; M51_321-1; M51_323-2; M51_325-1; M51_327-1; M51_329-2; M51_329-4; M51_331-1; M51_333-2; M51_335-1; M51_336-1; M51_337-1; M51_339-1; M51_341-1; M51_343-1; M51_344-2; M51_345-1; Meteor (1964); MOC; MOCNESS opening/closing plankton net; MSN; Multiple opening/closing net; Nitrate; NO3; North Atlantic Ocean; O2; OM; Organic matter; Organic matter, particulate; Organic matter [mg/m**3], mean values for each depth layer; Original value; Orig val; Oxygen; Phosphate; Phytoplank org matter [g/m**3], mean values for each depth layer; Phytoplankton, biomass as carbon; Phytopl C; PO4; POM; PP C; Primary production of carbon; recalculated to [µg/l]; recalculated to [mg/l]; Sal; Salinity; Sest dm; Seston, dry mass; Seston, dry weight [mg/m**3], mean values for each depth layer; Si(OH)4; Sigma-theta; Silicate; South Atlantic Ocean; Temp; Temperature, water; Water sample; WS; XBT
Tipo

Dataset