Geochemistry on Holocene sediments from the Mediterranean


Autoria(s): Möbius, Jürgen; Lahajnar, Niko; Emeis, Kay-Christian
Cobertura

MEDIAN LATITUDE: 35.166849 * MEDIAN LONGITUDE: 23.466062 * SOUTH-BOUND LATITUDE: 31.606667 * WEST-BOUND LONGITUDE: -4.317333 * NORTH-BOUND LATITUDE: 42.428167 * EAST-BOUND LONGITUDE: 34.649200 * DATE/TIME START: 1998-01-22T02:36:00 * DATE/TIME END: 2006-07-01T00:00:00

Data(s)

28/03/2011

Resumo

The enhanced accumulation of organic matter in Eastern Mediterranean sapropels and their unusually low d15N values have been attributed to either enhanced nutrient availability which led to elevated primary production and carbon sequestration or to enhanced organic matter preservation under anoxic conditions. In order to evaluate these two hypothesis we have determined Ba/Al ratios, amino acid composition, N and organic C concentrations and d15N in sinking particles, surface sediments, eight spatially distributed core records of the youngest sapropel S1 (10-6 ka) and older sapropels (S5, S6) from two locations. These data suggest that (i) temporal and spatial variations in d15N of sedimentary N are driven by different degrees of diagenesis at different sites rather than by changes in N-sources or primary productivity and (ii) present day TOC export production would suffice to create a sapropel like S1 under conditions of deep-water anoxia. This implies that both enhanced TOC accumulation and d15N depletion in sapropels were due to the absence of oxygen in deep waters. Thus preservation plays a major role for the accumulation of organic-rich sediments casting doubt on the need of enhanced primary production for sapropel formation.

Formato

application/zip, 6 datasets

Identificador

https://doi.pangaea.de/10.1594/PANGAEA.758621

doi:10.1594/PANGAEA.758621

Idioma(s)

en

Publicador

PANGAEA

Direitos

CC-BY: Creative Commons Attribution 3.0 Unported

Access constraints: unrestricted

Fonte

Supplement to: Möbius, Jürgen; Lahajnar, Niko; Emeis, Kay-Christian (2010): Diagenetic control of nitrogen isotope ratios in Holocene sapropels and recent sediments from the Eastern Mediterranean Sea. Biogeosciences, 7, 3901-3914, doi:10.5194/bg-7-3901-2010

Palavras-Chave #101; 101-105; 106-111; 107; 111; 112-116; 116; 117-122; 118; 123-126; 137-139; 140-142; 143-148; 149-154; 155-162; 163-170; 171-179; 180-187; 188-194; 560; 561; 562; 563; 564; 565; 566; 569; 570; 571; 572; 573; 574; 575; 576; 577; 578; 579; 580; 581; 582; 584; 585; 586; 589; 590; 592; 594; 596; 599; 601; 602; 604; 666; 667; 668; 670; 671; 672; 673; 674; 676; 677; 678; 680; 681; 682; 683; 684; 685; 686; 687; 689; 690; 691; 692; 693; 694; 695; 696; 697; 699; 700; 701; 702; 703; 704; 705; 706; 707; 708; 709; 710; 712; 713; 714; 716; 717; 718; 719; 80; 82; 85; AA/AS; after 22 hours hydrolysis with 6n HCl at 110°C; Age; AGE; Al; Alkenone, unsaturation index UK37; Aluminium; Amino acid, total hydrolysable; Amino acid analyser, Biochrom 30; Amino acids/hexosamines ratio; Ba; Ba/Al; Barium; Barium/Aluminium ratio; bSiO2; Ca; CaCO3; Calcium; Calcium carbonate; Calculated; Carbon, inorganic, total; Carbon, organic, total; Carbon, total; Copper; Cu; Cyprus; d15N; Degradation index of amino acids (Dauwe et al., 1999); delta 15N; Depth; DEPTH, sediment/rock; DI; Eastern Mediterranean, Continental slope off Israel; Element analyser CNS, Carlo Erba NA1500; Emeis et al. 2000, see also dataset doi:10.1594/PANGAEA.735959; Eratosthenes Seamount; Event; Fe; G. ruber d13C; G. ruber d18O; Gargano Promontory; Gas chromatography, Fisions 8000; GeoB10701-4; GeoB10702-3; GeoB10703-3; GeoB10704-3; GeoB10705-3; GeoB10706-3; GeoB10707-4; GeoB10708-3; GeoB10710-4; GeoB10711-3; GeoB10712-3; GeoB10713-3; GeoB10714-3; GeoB10715-3; GeoB10716-3; GeoB10717-3; GeoB10718-3; GeoB10719-3; GeoB10720-5; GeoB10721-3; GeoB10722-3; GeoB10723-3; GeoB10724-3; GeoB10725-3; GeoB10726-3; GeoB10727-3; GeoB10728-3; GeoB10729-4; GeoB10730-3; GeoB10731-3; GeoB10732-3; GeoB10733-3; GeoB10734-3; GeoB10735-3; GeoB10736-3; GeoB10737-3; GeoB10738-3; GeoB10739-3; GeoB10740-3; GeoB10741-3; GeoB10742-3; GeoB10743-3; GeoB10744-3; GeoB10746-3; GeoB10747-3; GeoB10748-3; GeoB10749-3; GeoB7704-1; GeoB7705-1; GeoB7706-2; GeoB7714-1; GeoB7718-1; GeoB7720-1; GeoB7723-2; GeoB7725-2; Globigerinoides ruber, d13C; Globigerinoides ruber, d18O; Gravity corer (Kiel type); Greece; Gulf of Manfredonia; Gulf of Taranto; Haifa; Integrierte Analyse zwischeneiszeitlicher Klimadynamik; INTERDYNAMIK; Iron; K; Lead; Lybia; M40/4; M40/4_MUC65; M40/4_MUC66; M40/4_MUC67; M40/4_MUC68; M40/4_MUC69; M40/4_MUC70; M40/4_MUC71; M40/4_MUC72; M40/4_MUC73; M40/4_MUC74; M40/4_MUC75; M40/4_MUC76-2; M40/4_MUC76-3; M40/4_MUC77A; M40/4_MUC77B; M40/4_MUC78-2; M40/4_MUC79; M40/4_MUC81; M40/4_MUC82; M40/4_MUC84; M40/4_MUC85; M40/4_MUC86; M40/4_MUC87; M40/4_MUC88; M40/4_MUC89; M40/4_MUC90; M40/4_MUC91; M40/4_SL80; 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_572-2; 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_581; M51/3_582; M51/3_584; M51/3_585; M51/3_586; M51/3_589; M51/3_590; M51/3_592; M51/3_594; M51/3_596; M51/3_599; M51/3_601-3; M51/3_602; M51/3_604; M52/2; M71/3; M71/3_H01; M71/3_H02; M71/3_H03; M71/3_H04; M71/3_H05; M71/3_H06; M71/3_H07; M71/3_H11; M71/3_H12; M71/3_Her01; M71/3_Her03; M71/3_ler01; M71/3_Rho02; M71/3_Sk01; Magnesium; Malta; Manganese; Mass spectrometer Finnigan MAT 252; Mass spectrometer VG Prism; Meteor (1986); Mg; Mn; MUC; MultiCorer; Na; Nile Fan; Nitrogen, total; Opal, biogenic silica; P; Pb; Phosphorus; POS339; Poseidon; Potassium; Rb; Reactivity index of amino acids (Jennerjahn & Ittekkot, 1997); RI; Rubidium; S; Sample ID; Si; Silicon; SL; Sodium; Sr; Strait of Otranto; Strontium; Struck et al. 2001, doi:10.1016/S0016-7037(01)00668-8; Sulfur, total; TC; THAA; Ti; TIC; Titanium; TN; TOC; Turkey; UK37; x10000; X-ray fluorescence spectrometer (Panalytical MagixPRO); Zinc; Zirconium; Zn; Zr; Zyprus
Tipo

Dataset