Fowl River, Alabama Marsh Restoration Study: Stable isotope and anthropogenic influences component (NCEI Accession 0195411)

Dataset extent

Map data © OpenStreetMap contributors

Description

This dataset contains information collected by the Fowl River Marsh Health and Recovery Study: Stable isotope and anthropogenic influences component. Records include nitrogen (N) and carbon (C) content in sediment core samples, surface sediment samples, and particles suspended in the water (SPM) collected in and around four priority marsh spits identified in the Fowl River Watershed Management Plan and at one downstream reference site. Sediments and filters (SPM) were analyzed by continuous flow isotope ratio mass spectrometry at the U. C. Davis Stable Isotope Facility, yielding N and C stable isotope ratios and % N and C content in the samples.

Purpose

In 2015 and 2016, a comprehensive watershed management plan was developed for the Fowl River Watershed, with degraded marshes and spits identified as a top priority. The Fowl River Marsh Health and Recovery Study was established to inform how to best effect marsh health and guide future restoration activities in the Fowl River Watershed. To determine if changes in Fowl River marsh structure or function may be related to changes in nitrogen (N) and carbon (C) sources associated with anthropogenic influences or variation in sea level through time, we measured N and C content in sediment core samples, surface sediment samples, and particles suspended in the water (SPM). Stable isotope data can be aligned with geologic data, including elemental dating outputs, to determine changes through time relative to land use and marsh area to help define sources and mechanisms of marsh loss.

DOI: 10.25921/878s-qy21

Suggested Citation

Carmichael, Ruth H.; Hieb, Elizabeth; Hill, Deryn (2019). Fowl River, Alabama Marsh Restoration Study: Stable isotope and anthropogenic influences component (NCEI Accession 0195411). [indicate subset used]. NOAA National Centers for Environmental Information. Dataset. https://doi.org/10.25921/878s-qy21. Accessed [date].

Data and Resources

Additional Info

Field Value
Source https://www.ncei.noaa.gov/access/metadata/landing-page/bin/iso?id=gov.noaa.nodc:0195411
Author Ruth Carmichael
Maintainer data@disl.org
Last Updated October 25, 2022, 19:36 (UTC)
Created July 28, 2022, 20:50 (UTC)
Collaborator Alex Beebe
Collaborator.1 Marlon Cook
Collaborator.2 John Lehrter
ISO.author Elizabeth Hieb <ehieb@disl.org>
ISO.author.1 Deryn Hill
ISO.principalInvestigator Ruth Carmichael <rcarmichael@disl.org>
ISO.publisher NOAA National Centers for Environmental Information
NCEI Accession 0195411
Temporal Begin 2018-03-02
Temporal End 2018-08-28
Theme Keywords SPM C Amount - carbon amount, SPM Date sampled, SPM Latitude, SPM Longitude, SPM N Amount - nitrogen amount, SPM Sample ID, SPM Total water depth, SPM Volume filtered, SPM d13C - Stable isotope ratio of carbon , SPM d15N - Stable isotope ratio of N, Sediment cores date sampled, Sediments Cores C Amount - carbon amount, Sediments Cores Core depth, Sediments Cores Latitude, Sediments Cores Longitude, Sediments Cores N Amount - nitrogen amount, Sediments Cores Original Sample ID, Sediments Cores Packed weight, Sediments Cores Site ID, Sediments Cores Station ID, Sediments Cores d13C - Stable isotope ratio of carbon, Sediments Cores d15N - Stable isotope ratio of N , Surface Sediments C Amount - carbon amount, Surface Sediments Latitude, Surface Sediments Longitude, Surface Sediments N Amount - nitrogen amount, Surface Sediments Original Sample ID, Surface Sediments Packed weight, Surface Sediments Site ID, Surface Sediments Station ID, Surface Sediments d13C - Stable isotope ratio of carbon, Surface Sediments d15N - Stable isotope ratio of N , Suspended Particulate Matter - SPM Site ID
spatial { "type": "Polygon", "coordinates": [ [ [ -88.15585,30.42961 ], [ -88.15585, 30.46275 ], [ -88.11486, 30.46275 ], [ -88.11486, 30.42961 ], [ -88.15585,30.42961] ] ] }