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Mendes, Pedro André; Thomsen, Laurenz; Gust, Giselher; Moje, Annika (2015): Hydrostatic pressure affects aggregate transformation and organic carbon transport: in and beyond the twilight zone: Experiment December 2010 [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.846494

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Abstract:
This work aimed to explore evaluated the effects of the increased of hydrostatic pressure on a defined bacterial community on aggregates formed from an axenic culture of marine diatoms by simulating sedimentation to the deep sea by increase of hydrostatic pressure up to 30 bar (equivalent to 3000 m water depth) against control at ambient surface pressure. Our hypothesis was that microbial colonization and community composition and thus microbial OM turnover is greatly affected by changes in hydrostatic pressure during sinking to the deep ocean.
Comment:
Determination of Organic and Inorganic Carbon Content and Nitrogen content
Aggregate samples were concentrated onto precombusted Whatman GF/F glass filters and analyzed for organic carbon. The filters were dried at 60°C overnight. After weighting, a section of each filter was placed into a silver cup and decarbonated with 1 M HCl to determine the organic carbon content. The samples were dried at 60°C and the process repeated until bubbling stopped. The cups were closed and compacted into spheres. These samples were analyzed with a Euro-EA Elemental analyzer (Hekatech) standardized with acetanilide. The inorganic carbon content was determined from the difference between the total carbon content and the organic carbon content.
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
1Experimental treatmentExp treatMendes, Pedro AndréPressure
2Time in hoursTimehMendes, Pedro André
3pHpHMendes, Pedro André
4Particle concentrationPart concmg/lMendes, Pedro André
5Nitrogen, totalTN%Mendes, Pedro André
6Carbon, totalTC%Mendes, Pedro André
7Carbon, organic, particulatePOC%Mendes, Pedro André
8Carbon, organic, particulatePOCmg/lMendes, Pedro André
9Carbon, inorganic, particulatePIC%Mendes, Pedro André
10Carbon/Nitrogen ratioC/NMendes, Pedro André
11SizeSizeµmMendes, Pedro Andrémedian size
12Sinking velocitySinking Vm/dayMendes, Pedro André
13RatioRatioMendes, Pedro Andrérelative percentage of the sum of beta-alanin and gama-aminobutiric acid
14Aspartic acid/beta-Alanine ratioAsp/b-AlaMendes, Pedro André
15Glutamic acid/gamma-Aminobutyric acid ratioGlu/g-AbaMendes, Pedro André
16Dauwe indexDauweMendes, Pedro André
17Aspartic acidAspµmol/gMendes, Pedro André
18Glutamic acidGluµmol/gMendes, Pedro André
19SerineSerµmol/gMendes, Pedro André
20HistidineHisµmol/gMendes, Pedro André
21GlycineGlyµmol/gMendes, Pedro André
22ThreonineThrµmol/gMendes, Pedro André
23ArginineArgµmol/gMendes, Pedro André
24AlanineAlaµmol/gMendes, Pedro André
25TyrosineTyrµmol/gMendes, Pedro André
26MethionineMetµmol/gMendes, Pedro André
27ValineValµmol/gMendes, Pedro André
28PhenylalaninePheµmol/gMendes, Pedro André
29IsoleucineIleµmol/gMendes, Pedro André
30LeucineLeuµmol/gMendes, Pedro André
31LysineLysµmol/gMendes, Pedro André
32beta-Alanineb-alaµmol/gMendes, Pedro André
33gamma-Aminobutyric acidg-ABAµmol/gMendes, Pedro André
34Amino acidsAAµmol/gMendes, Pedro Andréalpha-Aminobutyric acid
35OrnithineOrnµmol/gMendes, Pedro André
36Amino acid, total hydrolysableTHAAµmol/gMendes, Pedro André
Size:
552 data points

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