1026 Oxic and suboxic zones along hyporheic flow paths contribute to the attenuation of trace organic contaminants, as revealed by suspect screening - Data repository

Title

Oxic and suboxic zones along hyporheic flow paths contribute to the attenuation of trace organic contaminants, as revealed by suspect screening - Data repository

Period

2021-11-08 till 2021-11-11

Period length

3 days

Sampling interval

2 hours Irregular Interval

Description

Data storage for the publication "Oxic and suboxic zones along hyporheic flow paths contribute to the attenuation of trace organic contaminants, as revealed by suspect screening". Data obtained in the side channel of the River Erpe (Neuenhagener Mühlenfließ): location 52.476437 N, 13.625765 E

 

For experimental setup, see 

- publication: Reith, C. J., Spahr, S., Putschew, A., & Lewandowski, J. (2023). Attenuation of trace organic compounds along hyporheic flow paths in a lowland sandbed stream. Journal of Hydrology, 624, 129905. https://doi.org/10.1016/j.jhydrol.2023.129905

- data repository to Reith et al. (2023): Attenuation of trace organic compounds along hyporheic flow paths in a lowland sandbed stream - data from "Rechter Randgraben". IGB Leibniz-Institute of Freshwater Ecology and Inland Fisheries. dataset. https://doi.org/10.18728/igb-fred-902.2

Species Groups

Study site

Erpe - side channel "Rechter Randgraben"

Sampling types

surface water, wastewater, pore water

Sampling locations

Rechter Randgraben (52.47, 13.62)

Rechter Randgraben

location

52.47638136645868, 13.625664710998535

location

show on map center

type

side channel of River Erpe

state

Brandenburg

code

description

Parameters

chemistry:

O₂

O, oxygen concentration

name

O, oxygen concentration

description

determination by oxygen-probe

synonyms

Sauerstoffkonzentration

TrOCs

trace organic contaminants

name

trace organic contaminants

synonyms

micropollutants, trace organic compounds

Contact

Christoph J. Reith, Jörg Lewandowski

Licence for data

All rights reserved. Please send a request to Christoph J. Reith, Jörg Lewandowski if you like to use this data. Mind our data policy: IGB Data Policy

Project

DFG Graduate School Urban Water Interfaces

Machine Readable Metadata Files

FRED provides all metadata of this package in a maschine readable format. There is a pure XML file and one EML file in Ecological Metadata Language. Both files are published under the free CC BY 4.0 Licence.

• Oxic_and_suboxic_zones_along_hyporheic_flow_paths_contribute_to_the_attenuation_of_trace_organic_contaminants,_as_revealed_by_suspect_screening_-_Data_repository.xml
• Oxic_and_suboxic_zones_along_hyporheic_flow_paths_contribute_to_the_attenuation_of_trace_organic_contaminants,_as_revealed_by_suspect_screening_-_Data_repository.eml