Michael J Pennino
Overview
Explore the profile of Michael J Pennino including associated specialties, affiliations and a list of published articles.
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Articles
15
Citations
107
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0
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Recent Articles
1.
Pennino M, Fry M, Sabo R, Carleton J
Environ Model Softw
. 2024 Oct;
170.
PMID: 39430121
Excess nutrients (nitrogen and phosphorus) in lakes can lead to eutrophication, hypoxia, and algal blooms that may harm aquatic life and people. Some U.S. states have established numeric water quality...
2.
Kaushal S, Reimer J, Mayer P, Shatkay R, Maas C, Nguyen W, et al.
Freshw Sci
. 2022 Oct;
41(3):420-441.
PMID: 36213200
We investigate impacts of Freshwater Salinization Syndrome (FSS) on mobilization of salts, nutrients, and metals in urban streams and stormwater BMPs by analyzing original data on concentrations and fluxes of...
3.
Mayer P, Pennino M, Newcomer-Johnson T, Kaushal S
Urban Ecosyst
. 2022 May;
25(3):879-907.
PMID: 35561157
Stream restoration is a popular approach for managing nitrogen (N) in degraded, flashy urban streams. Here, we investigated the long-term effects of stream restoration involving floodplain reconnection on riparian and...
4.
Arango C, Beaulieu J, Fritz K, Hill B, Elonen C, Pennino M, et al.
Freshw Biol
. 2022 Mar;
62(11):1917-1928.
PMID: 35340891
Urban streams are degraded by a suite of factors, including burial beneath urban infrastructure, such as roads or parking lots, which eliminates light and reduces direct organic matter inputs to...
5.
Beyene M, Leibowitz S, Pennino M
Water Resour Res
. 2021 Dec;
57(10):1-20.
PMID: 34898727
Determining wildland fire impacts on streamflow can be problematic as the hydrology in burned watersheds is influenced by post-fire weather conditions. This study presents a quantile-based analytical framework for assessing...
6.
Pennino M, Leibowitz S, Compton J, Beyene M, LeDuc S
Sci Total Environ
. 2021 Sep;
804:149890.
PMID: 34520927
Wildfires are a concern for water quality in the United States, particularly in the wildland-urban interface of populous areas. Wildfires combust vegetation and surface soil organic matter, reduce plant nutrient...
7.
Smith R, Kaushal S, Beaulieu J, Pennino M, Welty C
Biogeosciences
. 2020 Jul;
14(11).
PMID: 32665782
Streams and rivers are significant sources of nitrous oxide (NO), carbon dioxide (CO), and methane (CH) globally, and watershed management can alter greenhouse gas (GHG) emissions from streams. We hypothesized...
8.
Pennino M, Leibowitz S, Compton J, Hill R, Sabo R
Sci Total Environ
. 2020 Mar;
722:137661.
PMID: 32192969
Excess nitrate in drinking water is a human health concern, especially for young children. Public drinking water systems in violation of the 10 mg nitrate-N/L maximum contaminant level (MCL) must...
9.
Foster S, Pennino M, Compton J, Leibowitz S, Kile M
Environ Sci Technol
. 2019 Sep;
53(19):11478-11485.
PMID: 31502444
Arsenic poses a threat to public health due to widespread environmental prevalence and known carcinogenic effects. In 2001, the US EPA published the Final Arsenic Rule (FAR) for public drinking...
10.
Pennino M, Compton J, Leibowitz S
Environ Sci Technol
. 2017 Oct;
51(22):13450-13460.
PMID: 29052975
Drinking water maximum contaminant levels (MCL) are established by the U.S. EPA to protect human health. Since 1975, U.S. public water suppliers have reported MCL violations to the national Safe...