Data on the biogeochemical cycle of methane in the ocean


Autoria(s): Lein, Alla Yu; Ivanov, Mikhail V
Cobertura

MEDIAN LATITUDE: 42.698150 * MEDIAN LONGITUDE: 91.732609 * SOUTH-BOUND LATITUDE: -25.503333 * WEST-BOUND LONGITUDE: 5.043000 * NORTH-BOUND LATITUDE: 82.000000 * EAST-BOUND LONGITUDE: -33.900500 * DATE/TIME START: 1993-09-15T00:00:00 * DATE/TIME END: 2006-08-24T00:00:00

Data(s)

21/11/2009

Resumo

Geological, mineralogical and microbiological aspects of the methane cycle in water and sediments of different areas in the oceans are under consideration in the monograph. Original and published estimations of formation- and oxidation rates of methane with use of radioisotope and isotopic methods are given. The role of aerobic and anaerobic microbial oxidation of methane in production of organic matter and in formation of authigenic carbonates is considered. Particular attention is paid to processes of methane transformation in areas of its intensive input to the water column from deep-sea hydrothermal sources, mud volcanoes, and cold methane seeps.

Formato

application/zip, 129 datasets

Identificador

https://doi.pangaea.de/10.1594/PANGAEA.771662

doi:10.1594/PANGAEA.771662

Idioma(s)

en

Publicador

PANGAEA

Direitos

CC-BY: Creative Commons Attribution 3.0 Unported

Access constraints: unrestricted

Fonte

Supplement to: Lein, Alla Yu; Ivanov, Mikhail V (2009): Biogeokhimicheskii Tsikl Metana v Okeane (Biogeochemical Cycle of Methane in the Ocean). Nauka Publ. (Moscow); Lisitzin, A.P. (Ed.), 576 pp.

Palavras-Chave #(C15+C22)/(C23+C35); (C15+C22)/(C23+C35) n-alkanes ratio; [NH4]+; [SO4]2-; <10 µm; 14Carbon dioxide, assimilation rate; 14C in-situ incubation; 14CO2 assr; 14CO2 ass r; 14C uptake; 400-200 µm; Ab; Acetate; AD sed; aerobic, in wet sediment; Aerobic destruction, sediment; A even; AF08-01; AF08-02; AF08-04; AF08-05; AF08-06; AF08-07; AF08-08; AF08-09; AF08-10; AF08-11; AF08-12; AF08-15; AF08-16; Age, 14C benzol synthesis; Age, dated; Age, dated standard deviation; Age, radiocarbon; Age dated; Age std dev; AK22-1911GC; AK22-1913GC; AK22-1915GC; AK22-1916GC; AK22-1917GC; AK22-1919GC; AK22-1956GC; AK22-1958GC; AK22-1959GC; AK22-1960GC; AK22-1961GC; AK22-1963GC; AK22-1964GC; AK22-1965GR; AK22-1966GC; AK22-1969GC; AK22-1971GC; AK23-2014; AK23-2018; AK23-2020; AK23-2028; AK23-2029; AK23-2037; AK23-2038; AK23-2039; AK23-2041; AK23-2042; AK23-2044; AK23-2048; AK23-2049; AK23-2051; AK23-2052; AK23-2057; AK23-2058; AK26A-2573; AK26A-2575; AK26A-2576; AK26A-2577; AK26A-2579; AK26A-2587; AK26A-2589; AK26A-2590; AK26A-2593; AK26A-2595; AK26A-2596; AK26A-2599; AK26A-2601; AK26A-2602; AK26A-2603; AK26A-2605; AK26A-2609; AK26A-2611; AK26A-2616; AK26A-2618; AK26A-2621; AK26A-2622; AK26A-2625; AK26A-2628; AK26A-2629; AK26A-2631; AK26A-2632; AK26A-2634; AK26A-2636; AK26A-2637; AK26A-2665; AK26A-2669; AK26A-2673; AK26A-2680; AK26A-2682; AK26A-2684; AK26A-2686; AK32-3344GC; AK32-3345GC; AK32-3346GC; AK32-3348GC; AK32-3356GC; AK32-3357GR; AK32-3364GC; AK32-3365GC; AK32-3368GC; AK32-3369GC; AK32-3370GC; AK32-3376GC; AK32-3381GC; AK32-3388; AK32-3390; AK32-3391; AK32-3392; AK32-3393; AK32-3394; AK32-3396; AK32-3397; AK32-3398; AK44-4962; AK44-5006; AK44-5007; AK44-5009; AK44-5010; AK44-5012; AK44-5020; Akademik Boris Petrov; Akademik Korolev; Akademik Kurchatov; Akademik Mstislav Keldysh; Akademik Sergey Vavilov; AKO_1970-1982_USSR; AKO26-107GC; AKO26-108GC; AKO26-109GC; AKO26-110GC; AKO26-110GR; AKO26-114GC; AKO26-115GC; AKO26-116GC; AKO26-57GC; AKO26-57GR; AKO26-58GC; AKO26-59GC; AKO26-60-1GC; AKO26-60-2GC; AKO26-61GC; AKO26-61GR; AKO26-62GC; AKO26-62GR; AKO26-65GC; AKU22; AKU26A; AKU32; Al; Al2O3; Albite; Alkalinity, total; Aluminium; Aluminium oxide; AMK12; AMK12-P-1446; AMK12-P-1447; AMK12-P-1451; AMK12-P-1452; AMK12-P-1458; AMK12-P-1473; AMK12-P-1492; AMK12-P-1506; AMK12-P-1519; AMK12-P-1575; AMK40; AMK40-3736; AMK40-3745-M1-1; AMK40-3745-M1-3; AMK40-3745-M1-5; AMK40-3745-M1-7; AMK40-3751; AMK40-3754-M2-2; AMK40-3754-M2-3; AMK40-3754-M2-5; AMK40-3758; AMK40-3776-M1-1; AMK41; AMK41-3840-1; AMK41-3841-M-2; AMK41-3848-M-1; AMK42; AMK42-3950-M1; AMK42-3951-M2; AMK42-3956-M1; AMK42-3957-M2; AMK42-3959-M1; AMK42-3961-M1; AMK42-3976-M1; AMK49; AMK49-4622-M1; AMK49-4623-M2; AMK49-4626-M2; AMK49-4631-M1; AMK49-4632-M2; AMK49-4636; AMK49-4637-M1; AMK49-4642-M2; AMK49-4646-M2; AMK49-4654-M1; AMK49-4655-M2; AMK49-4665-M2; AMK49-4666-M1; AMK49-4667-M2; AMK49-4668-M1; AMK49-4671-M2; AMK7; AMK7-690; AMK7-696; AMK7-705; AMK7-714; AMK7-717; AMK7-759; AMK7-761; AMK7-780; AMK7-781; AMK7-814; AMK7-842; AMK7-843; Ammonia; Ammonium; Amp; Amphibole; anaerobic; anaerobic, in wet sediment; Anemometer, Windsonic WS2 GILL; A odd; Arabian Sea; Archive of Ocean Data; ARCOD; Area; Area/locality; ASV11; ASV11-1006; ASV11-1054; ASV11-1060; ASV11-1060W; ASV11-597W; ASV11-829; ASV11-829W; ASV11-835W; ASV11-838; ASV11-838W; ASV11-841W; ASV11-847; ASV11-847W; ASV11-856W; ASV11-858-3; ASV11-858W; ASV11-861-2; ASV11-861W; ASV11-869; ASV11-869W; ASV11-875; ASV11-875W; ASV11-880-3; ASV11-891; ASV11-894W; ASV11-902W; ASV11-957W; ASV11-985W; ASV11-990W; ASV11-992W; ASV858; ASV880; AT; authigenic; Auto-analyzer II, Technicon; Bact; Bact [SO4]2- red; Bact [SO4]2- red abund; Bact abund; Bact abund/sed; Bact biom; Bact C; Bacteria; Bacteria, abundance; Bacteria, abundance per unit sediment mass; Bacteria, biomass; Bacteria, biomass as carbon; Bacteria, gas forming; Bacteria, methane forming; Bacteria, methane forming, abundance; Bacteria, methane oxidizing, abundance; Bacteria, methane oxidizing, spores; Bacteria, methanotrophic; Bacteria, nitrifiers; Bacteria, oligocarbophile; Bacteria, organotrophic, abundance; Bacteria, organotrophic, spores; Bacteria, production as carbon; Bacteria, saprophyte; Bacteria, sulfate reducing; Bacteria, sulfate reducing, abundance; Bacteria, thionic; Bacteria, thionic, abundance; Bact met; Bact met form; Bact met form abund; Bact methanotr; Bact nitr; Bact org abund; Bact org spores; Bact prod C; Bact thion; Bact thion abund; Baltic Sea; Barents Sea; Batabano Bay, Cuba; Bay of Bengal; BC; Benguela Upwelling; Bering Sea; Bottle, Niskin; Bottle, Niskin 30-L; Box corer; BP97; BP97-21; BP97-24; BP97-27; BP97-30; BP97-32; BP97-42; BP97-43; Br-; Bromide; bSiO2; C; C (carb); C1/(C2+C3+C4); C1/(C2+C3+C4) hydrocarbons ratio; C14; C14-C22; C15; C16; C17; C18; C18-C22; C19; C20; C20-C24; C21; C22; C23; C23-C35; C24; C25; C26; C27; C28; C29; C30; C31; C32; C33; C34; C35; Ca; Ca2+; CaCO3; Cal; Calcite; Calcium; Calcium carbonate; Calcium oxide; Calculated; Calculated from weight loss after drying at 105°C; CaO; Carbon; Carbon, organic, dissolved; Carbon, organic, particulate; Carbon, organic, residual; Carbon, organic, total; Carbon, organic, total per sediment volume; Carbon analyser AN-7529, 7560; Carbon assimilation rate; Carbon biomass estimation (unspec.); Carbon dioxide; Carbon dioxide assimilation rate; Carbon dioxide assimilation rate, sediment; Carbon dioxide assimilation rate per area; Carbon dioxide dark assimilation rate; Carbon dioxide dark assimilation rate, sediment; Carbon dioxide formation rate, sediment; Carbon dioxide release rate; Carbon in carbonate; Carbon Preference Index; C assr; CDA; Cel dr sed; Cellulose, decomposition rate, sediment; CH4; CH4 A; CH4 cr int sed; CH4 cr sed; CH4 dr sed; CH4 flux; CH4 fr; CH4 fr int; CH4 fr int sed; CH4 fr sed; CH4 OR; CH4 sed; Chemosynthetic production of carbon per area, daily; Chl; Chl+Kln; Chl a; Chloride; Chlorite; Chlorite+Kaolinite; Chlorophyll a; ChP C area; Chromatographic; Chromium(III) oxide; Chukchi Sea; Cl-; Clay min; Clay minerals; CO2; CO2 ar sed; CO2 assr; CO2 assr area; CO2 dar sed; CO2 fr sed; CO2 rel; Colorimetry, O2; Comment; Continuous Flow Analysis and Coulometry; counted on membrane filters colored by erythrosine; counted on nuclear filters colored by fluorescamine; Counting; CPI; Cr2O3; d13C; d13C carb; d13C CH4; d13C CO2; d13C Corg; d13C HC; d13C HCO3; d13C POC; d18O cal; d18O H2O; d34S; d34S [SO4]2-; d34S FeS2; d34S H2S; d34S Mss; d34S Py; dark; dD H2O; delta 13C; delta 13C, bicarbonate; delta 13C, carbonate; delta 13C, carbon dioxide, atmospheric; delta 13C, hydrocarbons; delta 13C, methane; delta 13C, organic carbon; delta 13C, particulate organic carbon; delta 18O, calcite; delta 18O, water; delta 34S; delta 34S, FeS2; delta 34S, hydrogen sulfide; delta 34S, monosulfide; delta 34S, pyrite; delta 34S, sulfate; delta 34S, sulfide; delta Deuterium, water; Depth; Depth, bottom/max; DEPTH, sediment/rock; Depth, top/min; DEPTH, water; Depth bot; Depth top; Depth water; Device; Device type; dissolved; DIVERSE; DM49; DM49-27; DM49-28; DM49-29; DM49-30; DM49-31; DM49-4395-1; DM49-4395TB3; DM49-4396-1; DM49-4396-2b; DM49-4397-1; DM49-4397-2; DM49-4398-1; DM49-4398-1b; DM49-4398TB1; DM49-4399-1; DM49-4399-1b; DM49-4400-1b; DM49-4400BC; DM49-4400TB1; DM49-4401-1b; DM49-4402-1; DM49-4402b; DM49-4403b; DM49-4404-1; DM49-4404-1b; DM49-4404-2b; DM49-4405b; DM49-4405ST; DM49-4407b; DM49-4408-1; DM49-4408b; DM49-4409-1; DM49-4410-1; DM49-4412-1; DM49-4414-2; DM49-4414b; DM49-4415-2; DM49-4415b; DM49-4415ST; DM49-4416-2; DM49-4416b; DM49-4417-2; DM49-4417TB1; DM49-4418-1; DM49-4418b; DM49-4419b; DM49-4420b; DM9; DM9-657; DM9-662; DM9-663; DM9-664; DM9-665; DM9-667; DM9-670; Dmitry Mendeleev; DOC; Dol; Dolomite; DOM; Double leaching by 5% Na2CO3; dry sediment; Dz-2603; Dz-2605; Dz-2606; Dz-2623; Dz-2634; Dz-2636; Dz-2661; Dz-2673; East Atlantic; East Equatorial Atlantic; East Pacific; Eh; Eh, Pt-electrode; elemental S, for wet sediment; Event; Fe; Fe(II); Fe(III); Fe2O3; FeO; Filtration; Fluorometry; for aerobic destruction; for cellulose decomposition; for CH3COOH; for CO2; for dry sediment; for formatioon of CH4 from CO2; for methanogenesis; for sulfate reduction; for wet sediment; for wet sediments; free; from acetate; from CH3COOH; from CH3COOH, in wet sediment; from CO2; from CO2+H2; from CO2 + H2, in wet sediment; from H2+CO2; from H2+CO3; from trimethylamine; from water; Gas chromatography; Gas volumetric; GB; GB col ab; GC; Gdansk Bay; GFB; Glucose, daily turnover; Glucose consumption rate as carbon; Glucose consumption rate as carbon, sediment; Glucose cr C; Glucose cr C sed; Glucose res; Glucose reserve as carbon; Glucose scr C; Glucose specific consumption rate as carbon per cell; Glucose turnover; Grab; GRAB; Grain size analysis after Petelin (1967, Nauka, Moscow); Gravity corer; Growing bacteria; Growing bacteria colonies, abundance; Guaymas Basin; Gulf of Aden; Gulf of Gdansk; Gulf of Oman; Gulf of Riga; H2S fr int sed; HC; hydrate; Hydrocarbons; Hydrogen sulfide formation rate, integrated, sediment; Hydrothermal area 9°50N, EPR; I; i-C19/i-C17; i-C19/i-C17 ratio; i-C19/i-C20; i-C19/i-C20 ratio; i-C20/C18; i-C20/C18 ratio; IL-BS-1; IL-BS-20; IL-BS-22; IL-BS-26; IL-BS-27; IL-BS-28; IL-BS-32; IL-BS-6; IL-BS-9; IL-BS-IIn; IL-BS-In; Ill; Illite; in anaerobic processes; in cells; Indian Ocean; in dry sediment; in dry sediments; in dry sedinent, expressed as H2S; in interstitial water; in interstitial waters; in sediments; in solid phase of sediments; interstitial water; in wet sediment; Iodide; Iodine; Iron; Iron II, ferrous iron; Iron III, ferric iron; Iron oxide, Fe2O3; Iron oxide, FeO; Iron sulfide; Isotope ratio mass spectrometry; Isotopic tracer uptake; Juan de Fuca Ridge, North Pacific Ocean; K; K2O; Kalifeldspar; Kaolinite; Kara Sea; KaraSea97; Kfs; Kln; Lab no; LI-Bat-14; LI-Bat-3; LI-Bat-5; LI-Bat-6; LI-Bat-9; LI-ChS-106; LI-ChS-107; LI-ChS-11; LI-ChS-13; LI-ChS-14; LI-ChS-15; LI-ChS-17; LI-ChS-18; LI-ChS-20; LI-ChS-22; LI-ChS-24; LI-ChS-25; LI-ChS-62; LI-ChS-7; LI-ChS-85; LI-GB-11; LI-GB-13; LI-GB-14; LI-GB-16; LI-GB-22; LI-GB-6298; LI-GB-6330; LI-GB-6331; Lipids; Lipids, total; Lipids tot; LOI; Loss of ignition analysis; Loss on ignition; Luminescent microscopy; M. bovis; M. chroococcus; M. minimus; M. triposporium; Magnesium; Magnesium oxide; Manganese; Manganese oxide; Mass spectrometry; max; maximal; metabolite of cellulose; metabolites of cellulose; Methane; Methane, formation rate, sediment; Methane, oxidation rate; Methane, sediment; methane consumed of methane formed; Methane consumption rate, integrated, sediment; Methane consumption rate, sediment; Methane destruction rate, sediment; Methane flux; methane formation from CO2 reducing; Methane formation rate; Methane formation rate, integrated; Methane formation rate, integrated, sediment; Methane formation rate, sediment; Methane oxidation rate; Methane oxidation rate, integrated; Methane oxidation rate, sediment; Methane per area; Methylobacter bovis; Methylobacter chroococcus; Methylocystis minimus; Methylosinus triposporium; Mg; Mg2+; MgO; Microorg abund; Microorganisms, abundance; Microorganisms, carbon biomass; Microorg C biom; min; Minerals; MIR; MIR-1; MIR-1 deep-sea manned submersible; MIR-2; MIR-2 deep-sea manned submersible; MIR deep-sea manned submersible; Mn; MnO; MOB; monosulfide; monosulfide S, for wet sediment; montmorillonite, kaolinite, chlorite, illite; MOX; MOX int; MOX sed; Mozambique Channel; MULT; Multiple investigations; N-[NH4]+; Na2O; n-Alkane C14 of total alkanes; n-Alkane C15 of total alkanes; n-Alkane C16 of total alkanes; n-Alkane C17 of total alkanes; n-Alkane C18 of total alkanes; n-Alkane C19 of total alkanes; n-Alkane C20 of total alkanes; n-Alkane C21 of total alkanes; n-Alkane C22 of total alkanes; n-Alkane C23 of total alkanes; n-Alkane C24 of total alkanes; n-Alkane C25 of total alkanes; n-Alkane C26 of total alkanes; n-Alkane C27 of total alkanes; n-Alkane C28 of total alkanes; n-Alkane C29 of total alkanes; n-Alkane C30 of total alkanes; n-Alkane C31 of total alkanes; n-Alkane C32 of total alkanes; n-Alkane C33 of total alkanes; n-Alkane C34 of total alkanes; n-Alkane C35 of total alkanes; n-Alkane sum; NH3; NIS; NIS_30L; Nitrogen in ammonia; NOBS; Northeast Pacific; Norwegian Sea; Number of observations; O2; O2 abs; Obskaya Guba; OCFB; of bacterial biomass; of cellulose fraction, of total organic carbon; of CH4 from CO2; of dry sediment; of easily hydrolyzed organic fraction, of total organic carbon; of elemental S; off Peru; of incubation; of incubation, max; of incubation, min; of interstitial water; of marine Holocene; of microorganism abundance; OKEAN; Okean Grab; on particles; Opal, biogenic silica; organic; Organic carbon consumption rate, sediment; Organic matter, dissolved; other; Oxidation reduction (RedOx) potential; oxidized to biomass and exometabolites; oxidized to CO2; Oxygen; Oxygen, absorption; P; P-[PO4]3-; P2O5; particulate; Perc; Percentage; Persian Gulf; pH; pH, Electrode; pH meter; pH meter (Orion); Phosphorus; Phosphorus, total; Phosphorus in orthophosphate; Phosphorus oxide; Phytoplankton, biomass as carbon; Phytopl C; PISCES; PK-52-004-R; PKh04-5; PKh04-6; PKh04-A-08; PL15; PL15-22; PL15-23; PL15-25; PL15-26; PL15-28; PL15-30; PL15-31; PL15-32; PL15-33; PL15-35; PL15-36; PL15-45; POC; Potassium; Potassium oxide; Potentiometric; PP C; PP C area; Primary production of carbon; Primary production of carbon per area, daily; Professor Logachev; Professor Shtokman; Profile; Protein, particulate; Protein part; Proteins, total; PSh49; PSh49-4712; PSh80; PSh80-6042; PSh80-6045; PSh80-6046; PSh80-6048; PSh80-6052; PSh80-6053; PSh80-6056; PSh80-6058; PSh80-6062; PSh80-6065; PSh80-6066; PSh80-6071; pyrite S + organic S, for wet sediment; Pyrox; Pyroxene; Quartz; Qz; Rainbow Hydrothermal Field; Recognition on culture medium; reserve; ROC; S; S_elem + S_pyrite; S_total reduced; S (S2-); S°; S° + S_org + S_pyrite; Sal; Salinity; Samp com; Sample, optional label/labor no; Sample comment; Sample mass; Sample method; Sample type; Sampling gear, diverse; Samp m; Samp method; Samp type; SB; sediment; Sediment; Sediment type; SEPAR; Separator; Si; Si/Al; Silicon; Silicon/Aluminium ratio; Silicon dioxide; S in [SO4]2-; S in SO4*2-; SiO2; Size; Size fraction < 0.010 mm; Size fraction 0.400-0.200 mm; Sme; Smectite; S monosulfide; S Mss; Sodium oxide; S org; South China Sea; SPASIBAIII; SPM; S Py; S reduced; SRR; SRR int sed; SRR sed; S SO4; Submersible PISCES; Sulfate; Sulfate reduction rate; Sulfate reduction rate, depth integrated, sediment; Sulfate reduction rate, sediment; Sulfur, elemental; Sulfur, organic; Sulfur, total; Sulfur, total reduced; Sulfur bound in sulfate; Sulfur bound in sulfide; Sulfur in monosulfide; Sulfur in sulfate; Sulfur of pyrite; Sum; Sum even numbered n-alkanes; Sum n-alkanes C14-C22; Sum n-alkanes C18-C22; Sum n-alkanes C20-C24; Sum n-alkanes C23-C35; Sum odd numbered n-alkanes; Suspended matter; Temp; Temperature, technical; Temperature, water; the most common species of methanotrophic bacteria in marine ecosystems: Methylobacter chroococcum, Methylobacter vinelandii, Methylomonas methanica 1, and Methylosinus trichosporium; Thermometer; Thickness; Thn; TiO2; Titanium oxide; Titration; TOC; TOC cr sed; to CO2; to S_monosulfide; to S° + S_pyrite; total; total (CO2 + biomass + exometabolites); total from CO2 + CH3COOH; total from CO2 and CH3COOH; total reduced S, for wet sediment; to total sulfide S; to water; TP; TPRT; TRANS150; Transparent bottle 150L; Trap, sediment; TRAPS; T tech; Visual description; Vit20; Vityaz-2; Vy20-3171-1; Vy20-3171-5; Vy20-3175BC; Vy20-3180; Vy20-3180W; Vy20-3182; Vy20-3183; Vy20-3184; Vy20-3184W; Vy20-3186; Vy20-3186W; Vy20-3187; Vy20-3188W; Vy20-3190W; Vy20-3192; Vy20-3192W; Vy20-3194; Vy20-3194W; Vy20-3196; Vy20-3197W; Vy20-3199W; Vy20-3202; Vy20-3205; Vy20-3212; Vy20-3212W; Vy20-3213W; Vy20-3216; Vy20-3218; Vy20-3221; Vy20-3223; Vy20-3223W; Vy20-3224; Vy20-3224W; Vy20-3225; Vy20-3228; Vy20-3229; Vy20-3229W; Vy20-3239; Vy20-3239W; Vy20-3240; Vy20-3245; Vy20-3245W; Water content of wet mass; Water sample; Water-soluble substances, formation rate, sediment; Water wm; Wet chemistry; Wet combustion; wet sediment; White Sea; WS; WSS fr sed; X-ray diffraction (XRD); X-ray fluorescence (XRF); X-ray radiography; Yenisey River
Tipo

Dataset