Joel Moore

Towson University

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Joel Moore shared Data for Nonpoint source contributions drive elevated major ion and dissolved inorganic carbon concentrations in urban watersheds
Type: Resource
Date: May 18, 2026, 11:12 p.m.

ABSTRACT:

Data from Moore et al. (2017) Nonpoint Source Contributions Drive Elevated Major Ion and Dissolved Inorganic Carbon Concentrations in Urban Watersheds. Environmental Science & Technology Letters. 4: 198-204. DOI: 10.1021/acs.estlett.7b00096.

Water chemistry data from five small watersheds across a forested to urban gradient near Baltimore, Maryland, United States. Data include field parameters (pH, specific conductance, and temperature) and dissolved chemistry (alkalinity, dissolved organic carbon, cations [calcium, magnesium, potassium, and sodium], and anions [chloride, nitrate, and sulfate]).

This study was funded by the National Science Foundation, grant #1540631.

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Data for Nonpoint source contributions drive elevated major ion and dissolved inorganic carbon concentrations in urban watersheds
Created: May 18, 2026, 11:12 p.m.
Authors: Moore, Joel

ABSTRACT:

Data from Moore et al. (2017) Nonpoint Source Contributions Drive Elevated Major Ion and Dissolved Inorganic Carbon Concentrations in Urban Watersheds. Environmental Science & Technology Letters. 4: 198-204. DOI: 10.1021/acs.estlett.7b00096.

Water chemistry data from five small watersheds across a forested to urban gradient near Baltimore, Maryland, United States. Data include field parameters (pH, specific conductance, and temperature) and dissolved chemistry (alkalinity, dissolved organic carbon, cations [calcium, magnesium, potassium, and sodium], and anions [chloride, nitrate, and sulfate]).

This study was funded by the National Science Foundation, grant #1540631.

Show More