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Autori principali: Adolph, Marie-Luise, Dreßler, Mirko, Troelstra, Veerle, Wrozyna, Claudia, Haberzettl, Torsten
Natura: Dataset Open Access
Lingua:en
Pubblicazione: PANGAEA 2023
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Accesso online:https://doi.org/10.1594/PANGAEA.959665
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author Adolph, Marie-Luise
Dreßler, Mirko
Troelstra, Veerle
Wrozyna, Claudia
Haberzettl, Torsten
author_facet Adolph, Marie-Luise
Dreßler, Mirko
Troelstra, Veerle
Wrozyna, Claudia
Haberzettl, Torsten
collection Datos científicos de ciencias marinas y ambientales
contents Productivity parameter, heavy metals, visible reflectance spectroscopy and diatom assemblages derived from lake surface sediment samples from Schweriner See, NE-Germany, were used to infer depositional processes and their influences. Samples were taken in a grid using an Ekman-Birge grab samples in a distance of 1.3 to 2 km forming an almost equally spaced grid covering the entire northern basin of Schweriner See and from water depths ranging from 0.5 to 51.5 m. Parameter could be divided into three main processes: productivity (e.g. TOC), carbonate precipitation (e.g. TIC) as well as wave- and wind-induced processes (e.g. sand percentage). Surface sediment sampling provided an thorough untderstanding of depositional processes, which proved valuable for core site selection as in Schweriner See sediment reworking in shallow water areas by wave- and wind-induced processes or carbonate precipitation resulting from groundwater inflow may have altered the desired signal.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_959665
institution PANGAEA
language en
publishDate 2023
publisher PANGAEA
record_format pangaea
spellingShingle Geochemistry, grain size, VIS reflectance spectroscopy, mass accumulation, diatom and ostracod assemblages derived from lacustrine surface sediment samples from Schweriner See, NE-Germany
Adolph, Marie-Luise
Dreßler, Mirko
Troelstra, Veerle
Wrozyna, Claudia
Haberzettl, Torsten
AS21-1; AS21-10; AS21-101; AS21-102; AS21-103; AS21-104; AS21-105; AS21-106; AS21-107; AS21-108; AS21-109; AS21-11; AS21-110; AS21-111; AS21-112; AS21-113; AS21-114; AS21-115; AS21-12; AS21-13; AS21-14; AS21-15; AS21-16; AS21-17; AS21-18; AS21-19; AS21-2; AS21-20; AS21-21; AS21-22; AS21-23; AS21-24; AS21-25; AS21-26; AS21-27; AS21-28; AS21-29; AS21-3; AS21-30; AS21-31; AS21-32; AS21-4; AS21-5; AS21-6; AS21-7; AS21-8; AS21-9; Calcium; Calcium carbonate; Carbon, inorganic, total; Carbon, organic, total; Carbon, organic/Nitrogen, total ratio; Carbon, total; Clay; Color, L*, lightness; Color reflectance interval 660-670 nm wavelength; contamination; Date/Time of event; DEPTH, sediment/rock; Depth, sediment/rock, bottom/maximum; Depth, sediment/rock, top/minimum; DEPTH, water; EG; Ekman grab; Element analyser CNS; coupled with IC Kit; Event label; Grain Size; Grain size, mean; Iron; Laser Particle Sizer (LPS); Latitude of event; Lead; Longitude of event; Loss on ignition; LPSIZ; Mud; Nitrogen, total; Opal, biogenic silica; Ostracoda; Phosphorus; pollution; Potassium; productivity; Rubidium; Sand; Schweriner See, Northeast Germany; Silicon; Silt; Spectrophotometer Minolta CM-2600d; Strontium; Sulfur; Sulfur, total; Surface sediment; Titanium; X-ray fluorescence spectrometer (XRF), ThermoScientific, Niton XL3t; Zinc; Zirconium
Productivity parameter, heavy metals, visible reflectance spectroscopy and diatom assemblages derived from lake surface sediment samples from Schweriner See, NE-Germany, were used to infer depositional processes and their influences. Samples were taken in a grid using an Ekman-Birge grab samples in a distance of 1.3 to 2 km forming an almost equally spaced grid covering the entire northern basin of Schweriner See and from water depths ranging from 0.5 to 51.5 m. Parameter could be divided into three main processes: productivity (e.g. TOC), carbonate precipitation (e.g. TIC) as well as wave- and wind-induced processes (e.g. sand percentage). Surface sediment sampling provided an thorough untderstanding of depositional processes, which proved valuable for core site selection as in Schweriner See sediment reworking in shallow water areas by wave- and wind-induced processes or carbonate precipitation resulting from groundwater inflow may have altered the desired signal.
title Geochemistry, grain size, VIS reflectance spectroscopy, mass accumulation, diatom and ostracod assemblages derived from lacustrine surface sediment samples from Schweriner See, NE-Germany
topic AS21-1; AS21-10; AS21-101; AS21-102; AS21-103; AS21-104; AS21-105; AS21-106; AS21-107; AS21-108; AS21-109; AS21-11; AS21-110; AS21-111; AS21-112; AS21-113; AS21-114; AS21-115; AS21-12; AS21-13; AS21-14; AS21-15; AS21-16; AS21-17; AS21-18; AS21-19; AS21-2; AS21-20; AS21-21; AS21-22; AS21-23; AS21-24; AS21-25; AS21-26; AS21-27; AS21-28; AS21-29; AS21-3; AS21-30; AS21-31; AS21-32; AS21-4; AS21-5; AS21-6; AS21-7; AS21-8; AS21-9; Calcium; Calcium carbonate; Carbon, inorganic, total; Carbon, organic, total; Carbon, organic/Nitrogen, total ratio; Carbon, total; Clay; Color, L*, lightness; Color reflectance interval 660-670 nm wavelength; contamination; Date/Time of event; DEPTH, sediment/rock; Depth, sediment/rock, bottom/maximum; Depth, sediment/rock, top/minimum; DEPTH, water; EG; Ekman grab; Element analyser CNS; coupled with IC Kit; Event label; Grain Size; Grain size, mean; Iron; Laser Particle Sizer (LPS); Latitude of event; Lead; Longitude of event; Loss on ignition; LPSIZ; Mud; Nitrogen, total; Opal, biogenic silica; Ostracoda; Phosphorus; pollution; Potassium; productivity; Rubidium; Sand; Schweriner See, Northeast Germany; Silicon; Silt; Spectrophotometer Minolta CM-2600d; Strontium; Sulfur; Sulfur, total; Surface sediment; Titanium; X-ray fluorescence spectrometer (XRF), ThermoScientific, Niton XL3t; Zinc; Zirconium
url https://doi.org/10.1594/PANGAEA.959665