Douglas A Burns (Former Employee)
Science and Products
Filter Total Items: 17
Filter Total Items: 119
Streams in Catskill Mountains still susceptible to acid rain
Precipitation in North America has become less acidic over the past 2 decades because of reduced power plant emissions and compliance with the Clean Air Act Amendments [Sirois, 19937rsqb;. The 1990 Clean Air Act Amendments were developed to reduce the acidity of sensitive surface waters, which are primarily in upland forested environments, where acidified waters and associated high aluminum concen
Authors
Douglas A. Burns, G. B. Lawrence, Peter S. Murdoch
Effect of groundwater springs on NO3− concentrations during summer in Catskill Mountain streams
Groundwater and stream water data collected at three headwater catchments in the Neversink River watershed indicate that base flow is sustained by groundwater from two sources: a shallow flow system within the till and soil and a deep flow system within bedrock fractures and bedding planes that discharges as perennial springs. Data from eight wells finished near the till/bedrock interface indicate
Authors
Douglas A. Burns, Peter S. Murdoch, Gregory B. Lawrence, Robert L. Michel
Relation of climate change to the acidification of surface waters by nitrogen deposition
Abrupt increases and decreases in mean seasonal and annual stream NO3- concentrations during the period of record (1983-1995) at Biscuit Brook, a headwater stream in the Catskill Mountains of New York, have provided an opportunity to study the biogeochemical processes that control NO3- movement through forested watersheds. The Catskills receive the highest rate of NO3- deposition in the New York a
Authors
Peter S. Murdoch, Douglas A. Burns, G. B. Lawrence
Effects of forest harvesting on nitrogen-cycling processes in headwaters of the Neversink River, New York
No abstract available.
Authors
Douglas A. Burns, Natalie A. Karouna, Peter S. Murdoch
Combining digital spatial data with hydrologic measurements to interpret controls of stream chemistry in large watersheds
No abstract available.
Authors
Yvonne H. Baevsky, Gregory B. Lawrence, David M. Wolock, Douglas A. Burns, Peter S. Murdoch
Hydrological processes - Letters: Topographic controls on subsurface storm flow at the hillslope scale for Two hydrologically distinct small catchments
No abstract available.
Authors
J. Freer, J. McDonnell, K.J. Beven, D. Brammer, D. Burns, R. P. Hooper, C. Kendal
The effects of liming an Adirondack lake watershed on downstream water chemistry: Effects of liming on stream chemistry
Calcite treatment of chronically acidic lakes has improved fish habitat, but the effects on downstream water quality have not previously been examined. In this study, the spatial and temporal effects of watershed CaCO3 treatment on the chemistry of a lake outlet stream in the Adirondack Mountains of New York were examined. Before CaCO3 treatment, the stream was chronically acidic. During spring sn
Authors
Douglas A. Burns
Effect of whole catchment liming on the episodic acidification of two Adirondack streams
During the fall of 1989 7.7Mg/ha of calcium carbonate was applied on two tributary catchments (40 ha and 60 ha) to Woods Lake, a small (25 ha) acidic headwater lake in the western Adirondack region of New York. Stream-water chemistry in both catchment tributaries responded immediately. Acid-neutralizing capacity (ANC) increased by more than 200 μeq/L in one of the streams and more than 1000 μeq/L
Authors
R. M. Newton, Douglas A. Burns, V. L. Blette, C. T. Driscoll
Work plan of the Neversink watershed study in the Catskill Mountains of southeastern New York
No abstract available.
Authors
Gregory B. Lawrence, Douglas A. Burns, Peter S. Murdoch, Barry P. Baldigo, Y. H. Baevsky
Water-quality studies in the Catskill region of New York
No abstract available.
Authors
Douglas A. Burns, Peter S. Murdoch, Gregory B. Lawrence
Speciation and equilibrium relations of soluble aluminum in a headwater stream at base flow and during rain events
In a small watershed in the Shenandoah National Park, Virginia, the short-term dynamics of soluble aluminum in stream water sampled during rain events differed significantly from stream water sampled during base flow conditions. Three fractions of dissolved aluminum were measured. The inorganic monomeric fraction made up approximately two thirds of the total reactive aluminum at base flow, followe
Authors
Douglas A. Burns
Non-USGS Publications**
Harpold, A.A., Burns, D.A., Walter, T., Shaw, S.B., and Steenhuis, T.S., 2010, Relating hydrogeomorphologic properties to stream buffering chemistry in the Neversink River Watershed, New York State, USA, Hydrological Processes, 24: 3759-3771.
Vidon, P., Allan, C., Burns, D., Duval, T., Gurwick, N., Inamdar, S., Lowrance, R., Okay, J., Scott, D., Sebestyen, S., 2010, Hot spots and hot moments in riparian zones: Potential for improved water quality management, Journal of the American Water Resources Association, 46: 278-298.
Kerr, J.G., Eimers, M.C., Creed, I.F., Adams, M.B., Beall, F., Burns, D., Campbell, J.L., Christopher, S.F., Clair, T.A., Couchesne, F., Duchense, L., Fernandez, I., Houle, D., Jeffries, D.S., Likens, G.E., Mitchell, M.J., Shanley, J., Yao, H., 2012, The effect of seasonal drying on sulphate dynamics in streams across southeastern Canada and the northeastern USA, Biogeochemistry, 111: 393-409.
Burns, D.A., Blett, T., Haeuber, R., Pardo, L., 2008, Critical loads as a policy tool for protecting ecosystems from the effects of air pollutants, Frontiers of Ecology and the Environment, 6: 156-159.
Elliott, E.M., Kendall, C., Boyer, E.W., Burns, D.A., Wankel, S.D., Bain, D.J., Harlin, K., Butler, T.J., Carlton, R., 2007, An isotopic tracer of stationary source NOx emissions across the midwestern and northeastern United States, Environmental Science and Technology, 41: 7661-7667.
Burns, D.A., Plummer, L.N., McDonnell, J.J., Busenberg, E., Casile, G.C., Kendall, C., Hooper, R.P., Freer, J.E., Peters, N.E., Beven, K., and Schlosser, P., 2003, The geochemical evolution of groundwater in a forested Piedmont catchment, Ground Water, 41: 913-925.
Burns, D.A., and Nguyen, L., 2002, Nitrate movement and removal along a shallow groundwater flow path in a riparian wetland within a sheep-grazed pastoral catchment: results of a tracer study, New Zealand Journal of Marine and Freshwater Research, 36: 371-385.
Vitvar, T., Burns, D.A., Lawrence, G.B., McDonnell, J.J., and Wolock, D.M., 2002, Estimation of groundwater residence times in watersheds from the recession of the runoff-hydrograph: method and application in the Neversink watershed, Catskill Mountains, New York, Hydrological Processes, 16: 1871-1877.
Burns, D.A., Lawrence, G.B., and Murdoch, P.S., 1998, Catskill streams still susceptible to acid rain, Eos, Transactions, American Geophysical Union, 79: 197, 200-201.
66. Burns, D.A., Lawrence, G.B., and Murdoch, P.S., 1998, Catskill streams still susceptible to acid rain, Northeastern Geology and Environmental Sciences, 20: 294-298.
66. Burns, D.A., Lawrence, G.B., and Murdoch, P.S., 1998, Catskill streams still susceptible to acid rain, Northeastern Geology and Environmental Sciences, 20: 294-298.
Driscoll, C.T., Cirmo, C.P., Fahey, T.J., Blette, V.L., Bukaveckas, P.A., Burns, D.A., Gubala, C.P., Leopold, D.J., Newton, R.M., Raynal, D.J., Schofield, C.L., Yavitt, J.B., and Porcella, D.B., 1996, The experimental watershed liming study: Comparison of lake and watershed neutralization strategies, Biogeochemistry, 32: 143-174.
McDonnell, J.J., Freer, J., Hooper, R., Kendall, C., Burns, D., Beven, K., and Peters, J., 1996, New method developed for studying flow on hillslopes, Eos, Transactions, American Geophysical Union, 77: 465 and 472.
Clair, T.C., Burns, D.A., Perez, I.R., Blais, J., and Percy, K., 2011, Ecosystems, in: Technical Challenges of Multipollutant Air Quality Management, Hidy, G., Brook, J.R., Demerjian, K.L., Molina, L.T., Pennell, W.T., and Scheffe, R. (eds.), Springer, Dordrecht, Netherlands, Ch. 6, p. 139-229.
Nguyen, L., Rutherford, K., and Burns, D., 1999, Denitrification and nitrate removal in two contrasting riparian wetlands, in: Proceedings of the 20th New Zealand Land Treatment Collective Technical Session, M. Tomer, M Robinson, and G Gielen (eds.), New Plymouth, New Zealand, p. 127-131.
Kendall, C., Silva, S.R., Chang, C.C.Y., Burns, D.A.., Campbell, D.H., and Shanley, J.B., 1996, Use of the d18O and d15N of nitrate to determine sources of nitrate in early spring runoff in forested catchments, in: Isotopes in Water Resources Management, Proceedings of the Symposium on Isotopes in Water Resources Management, March 20-24, 1995, Volume 1, IAEA-SM-336/29, International Atomic Energy Agency, Vienna, Austria, p. 167-176.
Kendall, C., Campbell, D.H., Burns, D.A., Shanley, J.B., Silva, S.R., Chang, C.C.Y., 1995, Tracing sources of nitrate in snowmelt runoff using the oxygen and nitrogen isotopic compositions of nitrate, in: Biogeochemistry of Seasonally Snow-Covered Catchments, K.A. Tonnessen, M.W. Williams, M. Trantner, M. (eds.), International Association of Hydrological Sciences Proceedings, July 3-14, 1995, Boulder, CO, I.A.H.S. Publication 228, Wallingford, U.K., p. 339-347.
Hendrey, G.R., Galloway, J.N., Norton, S.A., Schofield, C.L., Burns, D.A., and Shaffer, P.W., 1980, Sensitivity of the eastern United States to acid precipitation impacts on surface waters, in: Drablos, D., and Tollan, A. (eds.), Ecological Impact of Acid Precipitation, SNSF Proceedings, Oslo, p. 216-217.
Allen, G., Burns, D.A., Negra, C., and Thurston, G.D., 2009, Indicator measurements for assessing the impacts of anthropogenic air pollutants on human health and ecosystems, EM: The Magazine for Environmental Managers, Oct. 2009, p. 20-25, Air and Waste Management Association, Pittsburgh, PA.
Burns, D.A., 2005, What do hydrologists mean when they use the term flushing? Hydrological Processes, 19: 1325-1327.
**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.
Science and Products
Filter Total Items: 17
Filter Total Items: 119
Streams in Catskill Mountains still susceptible to acid rain
Precipitation in North America has become less acidic over the past 2 decades because of reduced power plant emissions and compliance with the Clean Air Act Amendments [Sirois, 19937rsqb;. The 1990 Clean Air Act Amendments were developed to reduce the acidity of sensitive surface waters, which are primarily in upland forested environments, where acidified waters and associated high aluminum concen
Authors
Douglas A. Burns, G. B. Lawrence, Peter S. Murdoch
Effect of groundwater springs on NO3− concentrations during summer in Catskill Mountain streams
Groundwater and stream water data collected at three headwater catchments in the Neversink River watershed indicate that base flow is sustained by groundwater from two sources: a shallow flow system within the till and soil and a deep flow system within bedrock fractures and bedding planes that discharges as perennial springs. Data from eight wells finished near the till/bedrock interface indicate
Authors
Douglas A. Burns, Peter S. Murdoch, Gregory B. Lawrence, Robert L. Michel
Relation of climate change to the acidification of surface waters by nitrogen deposition
Abrupt increases and decreases in mean seasonal and annual stream NO3- concentrations during the period of record (1983-1995) at Biscuit Brook, a headwater stream in the Catskill Mountains of New York, have provided an opportunity to study the biogeochemical processes that control NO3- movement through forested watersheds. The Catskills receive the highest rate of NO3- deposition in the New York a
Authors
Peter S. Murdoch, Douglas A. Burns, G. B. Lawrence
Effects of forest harvesting on nitrogen-cycling processes in headwaters of the Neversink River, New York
No abstract available.
Authors
Douglas A. Burns, Natalie A. Karouna, Peter S. Murdoch
Combining digital spatial data with hydrologic measurements to interpret controls of stream chemistry in large watersheds
No abstract available.
Authors
Yvonne H. Baevsky, Gregory B. Lawrence, David M. Wolock, Douglas A. Burns, Peter S. Murdoch
Hydrological processes - Letters: Topographic controls on subsurface storm flow at the hillslope scale for Two hydrologically distinct small catchments
No abstract available.
Authors
J. Freer, J. McDonnell, K.J. Beven, D. Brammer, D. Burns, R. P. Hooper, C. Kendal
The effects of liming an Adirondack lake watershed on downstream water chemistry: Effects of liming on stream chemistry
Calcite treatment of chronically acidic lakes has improved fish habitat, but the effects on downstream water quality have not previously been examined. In this study, the spatial and temporal effects of watershed CaCO3 treatment on the chemistry of a lake outlet stream in the Adirondack Mountains of New York were examined. Before CaCO3 treatment, the stream was chronically acidic. During spring sn
Authors
Douglas A. Burns
Effect of whole catchment liming on the episodic acidification of two Adirondack streams
During the fall of 1989 7.7Mg/ha of calcium carbonate was applied on two tributary catchments (40 ha and 60 ha) to Woods Lake, a small (25 ha) acidic headwater lake in the western Adirondack region of New York. Stream-water chemistry in both catchment tributaries responded immediately. Acid-neutralizing capacity (ANC) increased by more than 200 μeq/L in one of the streams and more than 1000 μeq/L
Authors
R. M. Newton, Douglas A. Burns, V. L. Blette, C. T. Driscoll
Work plan of the Neversink watershed study in the Catskill Mountains of southeastern New York
No abstract available.
Authors
Gregory B. Lawrence, Douglas A. Burns, Peter S. Murdoch, Barry P. Baldigo, Y. H. Baevsky
Water-quality studies in the Catskill region of New York
No abstract available.
Authors
Douglas A. Burns, Peter S. Murdoch, Gregory B. Lawrence
Speciation and equilibrium relations of soluble aluminum in a headwater stream at base flow and during rain events
In a small watershed in the Shenandoah National Park, Virginia, the short-term dynamics of soluble aluminum in stream water sampled during rain events differed significantly from stream water sampled during base flow conditions. Three fractions of dissolved aluminum were measured. The inorganic monomeric fraction made up approximately two thirds of the total reactive aluminum at base flow, followe
Authors
Douglas A. Burns
Non-USGS Publications**
Harpold, A.A., Burns, D.A., Walter, T., Shaw, S.B., and Steenhuis, T.S., 2010, Relating hydrogeomorphologic properties to stream buffering chemistry in the Neversink River Watershed, New York State, USA, Hydrological Processes, 24: 3759-3771.
Vidon, P., Allan, C., Burns, D., Duval, T., Gurwick, N., Inamdar, S., Lowrance, R., Okay, J., Scott, D., Sebestyen, S., 2010, Hot spots and hot moments in riparian zones: Potential for improved water quality management, Journal of the American Water Resources Association, 46: 278-298.
Kerr, J.G., Eimers, M.C., Creed, I.F., Adams, M.B., Beall, F., Burns, D., Campbell, J.L., Christopher, S.F., Clair, T.A., Couchesne, F., Duchense, L., Fernandez, I., Houle, D., Jeffries, D.S., Likens, G.E., Mitchell, M.J., Shanley, J., Yao, H., 2012, The effect of seasonal drying on sulphate dynamics in streams across southeastern Canada and the northeastern USA, Biogeochemistry, 111: 393-409.
Burns, D.A., Blett, T., Haeuber, R., Pardo, L., 2008, Critical loads as a policy tool for protecting ecosystems from the effects of air pollutants, Frontiers of Ecology and the Environment, 6: 156-159.
Elliott, E.M., Kendall, C., Boyer, E.W., Burns, D.A., Wankel, S.D., Bain, D.J., Harlin, K., Butler, T.J., Carlton, R., 2007, An isotopic tracer of stationary source NOx emissions across the midwestern and northeastern United States, Environmental Science and Technology, 41: 7661-7667.
Burns, D.A., Plummer, L.N., McDonnell, J.J., Busenberg, E., Casile, G.C., Kendall, C., Hooper, R.P., Freer, J.E., Peters, N.E., Beven, K., and Schlosser, P., 2003, The geochemical evolution of groundwater in a forested Piedmont catchment, Ground Water, 41: 913-925.
Burns, D.A., and Nguyen, L., 2002, Nitrate movement and removal along a shallow groundwater flow path in a riparian wetland within a sheep-grazed pastoral catchment: results of a tracer study, New Zealand Journal of Marine and Freshwater Research, 36: 371-385.
Vitvar, T., Burns, D.A., Lawrence, G.B., McDonnell, J.J., and Wolock, D.M., 2002, Estimation of groundwater residence times in watersheds from the recession of the runoff-hydrograph: method and application in the Neversink watershed, Catskill Mountains, New York, Hydrological Processes, 16: 1871-1877.
Burns, D.A., Lawrence, G.B., and Murdoch, P.S., 1998, Catskill streams still susceptible to acid rain, Eos, Transactions, American Geophysical Union, 79: 197, 200-201.
66. Burns, D.A., Lawrence, G.B., and Murdoch, P.S., 1998, Catskill streams still susceptible to acid rain, Northeastern Geology and Environmental Sciences, 20: 294-298.
66. Burns, D.A., Lawrence, G.B., and Murdoch, P.S., 1998, Catskill streams still susceptible to acid rain, Northeastern Geology and Environmental Sciences, 20: 294-298.
Driscoll, C.T., Cirmo, C.P., Fahey, T.J., Blette, V.L., Bukaveckas, P.A., Burns, D.A., Gubala, C.P., Leopold, D.J., Newton, R.M., Raynal, D.J., Schofield, C.L., Yavitt, J.B., and Porcella, D.B., 1996, The experimental watershed liming study: Comparison of lake and watershed neutralization strategies, Biogeochemistry, 32: 143-174.
McDonnell, J.J., Freer, J., Hooper, R., Kendall, C., Burns, D., Beven, K., and Peters, J., 1996, New method developed for studying flow on hillslopes, Eos, Transactions, American Geophysical Union, 77: 465 and 472.
Clair, T.C., Burns, D.A., Perez, I.R., Blais, J., and Percy, K., 2011, Ecosystems, in: Technical Challenges of Multipollutant Air Quality Management, Hidy, G., Brook, J.R., Demerjian, K.L., Molina, L.T., Pennell, W.T., and Scheffe, R. (eds.), Springer, Dordrecht, Netherlands, Ch. 6, p. 139-229.
Nguyen, L., Rutherford, K., and Burns, D., 1999, Denitrification and nitrate removal in two contrasting riparian wetlands, in: Proceedings of the 20th New Zealand Land Treatment Collective Technical Session, M. Tomer, M Robinson, and G Gielen (eds.), New Plymouth, New Zealand, p. 127-131.
Kendall, C., Silva, S.R., Chang, C.C.Y., Burns, D.A.., Campbell, D.H., and Shanley, J.B., 1996, Use of the d18O and d15N of nitrate to determine sources of nitrate in early spring runoff in forested catchments, in: Isotopes in Water Resources Management, Proceedings of the Symposium on Isotopes in Water Resources Management, March 20-24, 1995, Volume 1, IAEA-SM-336/29, International Atomic Energy Agency, Vienna, Austria, p. 167-176.
Kendall, C., Campbell, D.H., Burns, D.A., Shanley, J.B., Silva, S.R., Chang, C.C.Y., 1995, Tracing sources of nitrate in snowmelt runoff using the oxygen and nitrogen isotopic compositions of nitrate, in: Biogeochemistry of Seasonally Snow-Covered Catchments, K.A. Tonnessen, M.W. Williams, M. Trantner, M. (eds.), International Association of Hydrological Sciences Proceedings, July 3-14, 1995, Boulder, CO, I.A.H.S. Publication 228, Wallingford, U.K., p. 339-347.
Hendrey, G.R., Galloway, J.N., Norton, S.A., Schofield, C.L., Burns, D.A., and Shaffer, P.W., 1980, Sensitivity of the eastern United States to acid precipitation impacts on surface waters, in: Drablos, D., and Tollan, A. (eds.), Ecological Impact of Acid Precipitation, SNSF Proceedings, Oslo, p. 216-217.
Allen, G., Burns, D.A., Negra, C., and Thurston, G.D., 2009, Indicator measurements for assessing the impacts of anthropogenic air pollutants on human health and ecosystems, EM: The Magazine for Environmental Managers, Oct. 2009, p. 20-25, Air and Waste Management Association, Pittsburgh, PA.
Burns, D.A., 2005, What do hydrologists mean when they use the term flushing? Hydrological Processes, 19: 1325-1327.
**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.