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Michael R. McHale

Michael is a Supervisory Research Hydrologist in New York Water Science Center.

I began working for the U.S. Geological Survey in 1997. One of my primary research interests is long-term monitoring and trend analyses. This research involves collecting and analyzing long-term monitoring data to determine the effects of energy and land use policy decisions on water quality, water quantity and soil chemistry in watersheds across the United States. During the last 2 decades I have conducted studies in the Catskill Mountains of New York which is the primary source of drinking water for New York City. My work in the Catskills has included the effects of agricultural best management practices on stream water quality, nutrient cycling, and sediment transport. My current work is focused on urban hydrology to evaluate the effectiveness of green infrastructure to reduce stormflow in Buffalo, NY. The work in Buffalo affects the health and safety of residents in the Lake Erie and Lake Ontario watersheds. I am also the principal investigator for work in the Adirondack Mountains of New York examining trends in water quantity and quality to evaluate the impacts of energy policy decisions. This work also provides data that is used for the protection of life and property in the Adirondack Mountains.

Professional Experience

  • U.S. Geological Survey in 1997

Education and Certifications

  • Ph.D., 1999, State University of New York, College of Environmental Sciences and Forestry, Syracuse, New York, Major: Forest Hydrology, Areas of Study: Biogeochemistry, Hydrology

  • B.S., 1992, State University of New York at Cortland, Cortland, NY Major: Geology

Science and Products

Filter Total Items: 34

Streamflow Streamflow

This indicator describes trends in the amount of water carried by streams across the United States, as well as the timing of runoff associated with snowmelt.
Authors
Michael McHale, Robert Dudley, Glenn Hodgkins
By
Water Resources Mission Area, New York Water Science Center

Methods of soil resampling to monitor changes in the chemical concentrations of forest soils Methods of soil resampling to monitor changes in the chemical concentrations of forest soils

Recent soils research has shown that important chemical soil characteristics can change in less than a decade, often the result of broad environmental changes. Repeated sampling to monitor these changes in forest soils is a relatively new practice that is not well documented in the literature and has only recently been broadly embraced by the scientific community. The objective of this...
Authors
Gregory Lawrence, Ivan Fernandez, Paul Hazlett, Scott Bailey, Donald S. Ross, Thomas Villars, Angelica Quintana, Ouimet, Michael McHale, Chris Johnson, Russell Briggs, Robert Colter, Jason Siemion, Olivia Bartlett, Olga Vargas, Michael Antidormi, Mary Koppers
By
Water Resources Mission Area, New York Water Science Center

Turbidity and suspended sediment in the upper Esopus Creek watershed, Ulster County, New York Turbidity and suspended sediment in the upper Esopus Creek watershed, Ulster County, New York

Suspended-sediment concentrations (SSCs) and turbidity were measured for 2 to 3 years at 14 monitoring sites throughout the upper Esopus Creek watershed in the Catskill Mountains of New York State. The upper Esopus Creek watershed is part of the New York City water-supply system that supplies water to more than 9 million people every day. Turbidity, caused primarily by high...
Authors
Michael McHale, Jason Siemion
By
Water Resources Mission Area, New York Water Science Center

Long-term soil monitoring at U.S. Geological Survey reference watersheds Long-term soil monitoring at U.S. Geological Survey reference watersheds

Monitoring the environment by making repeated measurements through time is essential to evaluate and track the health of ecosystems (fig. 1). Long-term datasets produced by such monitoring are indispensable for evaluating the effectiveness of environmental legislation and for designing mitigation strategies to address environmental changes in an era when human activities are altering the
Authors
Michael McHale, Jason Siemion, Gregory Lawrence, M. Mast
By
Water Resources Mission Area, New York Water Science Center

Reflections on a vision for integrated research and monitoring after 15 years Reflections on a vision for integrated research and monitoring after 15 years

In May of 1998, Owen Bricker and his co-author Michael Ruggiero introduced a conceptual design for integrating the Nation’s environmental research and monitoring programs. The Framework for Integrated Monitoring and Related Research was an organizing strategy for relating data collected by various programs, at multiple spatial and temporal scales, and by multiple science disciplines to...
Authors
Peter Murdoch, Michael McHale, Jill Baron

A whole ecosystem approach to studying climate change in interior Alaska A whole ecosystem approach to studying climate change in interior Alaska

Yukon River Basin Principal Investigators Workshop; Portland, Oregon, 18-20 January 2011; High latitudes are known to be particularly susceptible to climate warming, leading to an emphasis of field and modeling research on arctic regions. Subarctic and boreal regions such as the Yukon River Basin (YRB) of interior Alaska and western Canada are less well studied, although they encompass...
Authors
Susan Riggins, Robert Striegl, Michael McHale
By
Water Resources Mission Area

Non-USGS Publications**

McHale, MR, (1999) Hydrologic controls of nitrogen cycling in an Adirondack Watershed. Ph.D. Thesis, Faculty of Forestry, State University of New York College of Environmental Science and Forestry, Syracuse, NY
McHale, MR, Cirmo, CP, Mitchell, MJ and McDonnell, JJ, (2004) Wetland nitrogen dynamics in an Adirondack forested watershed. Hydrological Processes, 18: 1853-1870.
McHale, MR, McDonnell, JJ, Cirmo, CP and Mitchell, JJ, (2002) A field-based study of soil water and groundwater nitrate release in an Adirondack forested watershed. Water Resources Research, 38: 2-1 – 2-17.
McHale, MR, Mitchell, MJ, McDonnell, JJ and Cirmo, CP (2000) Nitrogen solutes in an Adirondack forested watershed: Importance of dissolved organic nitrogen. Biogeochemistry, 48: 165-184.

**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.

Filter Total Items: 13
stream going over large moss covered rocks in middle of green leafed trees

Long-term Monitoring Water Quality in the Catskill Mountains of New York

Summary The Long-Term Monitoring Network (LTM) is funded by the U.S. Environmental Protection Agency (EPA) to monitor trends in surface water quality by nesting a few intensively-monitored stations within a network of more numerous but less frequently sampled stations. The intensively-monitored stations have provided monthly discharge and water-quality data at 6 locations across the...
By
New York Water Science Center
Long-term Monitoring Water Quality in the Catskill Mountains of New York

Long-term Monitoring Water Quality in the Catskill Mountains of New York

Summary The Long-Term Monitoring Network (LTM) is funded by the U.S. Environmental Protection Agency (EPA) to monitor trends in surface water quality by nesting a few intensively-monitored stations within a network of more numerous but less frequently sampled stations. The intensively-monitored stations have provided monthly discharge and water-quality data at 6 locations across the country since
Learn More
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Science and Products

Filter Total Items: 34

Streamflow Streamflow

This indicator describes trends in the amount of water carried by streams across the United States, as well as the timing of runoff associated with snowmelt.
Authors
Michael McHale, Robert Dudley, Glenn Hodgkins
By
Water Resources Mission Area, New York Water Science Center

Methods of soil resampling to monitor changes in the chemical concentrations of forest soils Methods of soil resampling to monitor changes in the chemical concentrations of forest soils

Recent soils research has shown that important chemical soil characteristics can change in less than a decade, often the result of broad environmental changes. Repeated sampling to monitor these changes in forest soils is a relatively new practice that is not well documented in the literature and has only recently been broadly embraced by the scientific community. The objective of this...
Authors
Gregory Lawrence, Ivan Fernandez, Paul Hazlett, Scott Bailey, Donald S. Ross, Thomas Villars, Angelica Quintana, Ouimet, Michael McHale, Chris Johnson, Russell Briggs, Robert Colter, Jason Siemion, Olivia Bartlett, Olga Vargas, Michael Antidormi, Mary Koppers
By
Water Resources Mission Area, New York Water Science Center

Turbidity and suspended sediment in the upper Esopus Creek watershed, Ulster County, New York Turbidity and suspended sediment in the upper Esopus Creek watershed, Ulster County, New York

Suspended-sediment concentrations (SSCs) and turbidity were measured for 2 to 3 years at 14 monitoring sites throughout the upper Esopus Creek watershed in the Catskill Mountains of New York State. The upper Esopus Creek watershed is part of the New York City water-supply system that supplies water to more than 9 million people every day. Turbidity, caused primarily by high...
Authors
Michael McHale, Jason Siemion
By
Water Resources Mission Area, New York Water Science Center

Long-term soil monitoring at U.S. Geological Survey reference watersheds Long-term soil monitoring at U.S. Geological Survey reference watersheds

Monitoring the environment by making repeated measurements through time is essential to evaluate and track the health of ecosystems (fig. 1). Long-term datasets produced by such monitoring are indispensable for evaluating the effectiveness of environmental legislation and for designing mitigation strategies to address environmental changes in an era when human activities are altering the
Authors
Michael McHale, Jason Siemion, Gregory Lawrence, M. Mast
By
Water Resources Mission Area, New York Water Science Center

Reflections on a vision for integrated research and monitoring after 15 years Reflections on a vision for integrated research and monitoring after 15 years

In May of 1998, Owen Bricker and his co-author Michael Ruggiero introduced a conceptual design for integrating the Nation’s environmental research and monitoring programs. The Framework for Integrated Monitoring and Related Research was an organizing strategy for relating data collected by various programs, at multiple spatial and temporal scales, and by multiple science disciplines to...
Authors
Peter Murdoch, Michael McHale, Jill Baron

A whole ecosystem approach to studying climate change in interior Alaska A whole ecosystem approach to studying climate change in interior Alaska

Yukon River Basin Principal Investigators Workshop; Portland, Oregon, 18-20 January 2011; High latitudes are known to be particularly susceptible to climate warming, leading to an emphasis of field and modeling research on arctic regions. Subarctic and boreal regions such as the Yukon River Basin (YRB) of interior Alaska and western Canada are less well studied, although they encompass...
Authors
Susan Riggins, Robert Striegl, Michael McHale
By
Water Resources Mission Area

Non-USGS Publications**

McHale, MR, (1999) Hydrologic controls of nitrogen cycling in an Adirondack Watershed. Ph.D. Thesis, Faculty of Forestry, State University of New York College of Environmental Science and Forestry, Syracuse, NY
McHale, MR, Cirmo, CP, Mitchell, MJ and McDonnell, JJ, (2004) Wetland nitrogen dynamics in an Adirondack forested watershed. Hydrological Processes, 18: 1853-1870.
McHale, MR, McDonnell, JJ, Cirmo, CP and Mitchell, JJ, (2002) A field-based study of soil water and groundwater nitrate release in an Adirondack forested watershed. Water Resources Research, 38: 2-1 – 2-17.
McHale, MR, Mitchell, MJ, McDonnell, JJ and Cirmo, CP (2000) Nitrogen solutes in an Adirondack forested watershed: Importance of dissolved organic nitrogen. Biogeochemistry, 48: 165-184.

**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.

Filter Total Items: 13
stream going over large moss covered rocks in middle of green leafed trees

Long-term Monitoring Water Quality in the Catskill Mountains of New York

Summary The Long-Term Monitoring Network (LTM) is funded by the U.S. Environmental Protection Agency (EPA) to monitor trends in surface water quality by nesting a few intensively-monitored stations within a network of more numerous but less frequently sampled stations. The intensively-monitored stations have provided monthly discharge and water-quality data at 6 locations across the...
By
New York Water Science Center
Long-term Monitoring Water Quality in the Catskill Mountains of New York

Long-term Monitoring Water Quality in the Catskill Mountains of New York

Summary The Long-Term Monitoring Network (LTM) is funded by the U.S. Environmental Protection Agency (EPA) to monitor trends in surface water quality by nesting a few intensively-monitored stations within a network of more numerous but less frequently sampled stations. The intensively-monitored stations have provided monthly discharge and water-quality data at 6 locations across the country since
Learn More
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