Douglas A Burns (Former Employee)
Science and Products
Filter Total Items: 17
An Assessment of Forest Health and Soil Nutrient Status to Determine the Effects of Logging Practices on Water Quality in New York City's West-of-Hudson Watersheds
The growth of temperate forests is typically limited by the availability of nitrogen. Elevated concentrations of nitrate in some Catskill Mountain streams, which are tributary to New York City's water-supply reservoirs west of the Hudson River, indicate that the forests of this region are at the early stages of nitrogen saturation. That is, nitrogen is available in excess of the amount utilized
An Integrated Assessment of the Recovery of Surface Waters from Reduced Levels of Acid Precipitation in the Catskill and Adirondack Regions, New York
Problem - Acidic precipitation has affected forested and aquatic ecosystems in New York, particularly in the Adirondack and Catskill regions. Acidification of surface waters and deleterious effects on fish and other biota have been well documented in both these regions. Despite reduced levels of acidity in atmospheric deposition over the past 20 years across New York and the northeastern United
The Effects of Watershed and Stream Liming on Mercury Dynamics at Honnedaga Lake
Problem The Adirondack region of New York has 128 lakes that are listed as impaired by acidity under section 303(d) of the Clean Water Act. Acidity can limit the survival and reproduction of native fishes such as brook trout (Salvelinus fontinalis). Chronic and episodic acidification also stresses fish, aquatic macroinvertebrates, and other biota of inflowing tributaries of these and many addition
Potential Recovery of Water Chemistry and Stream Biota from Reduced Levels of Acid Deposition at a Sensitive Watershed in the Catskill Mountains, New York
The Catskill Mountains of southeastern New York receive among the highest loads of acid deposition in New York and the northeastern U.S. Additionally, the Catskills are underlain by sandstone and conglomerate, which is base poor and weathers slowly. Thus, the Catskills contain numerous streams with low ( < 50 µeq/L) acid-neutralizing capacity (ANC) and are sensitive to impacts from atmospheric
Transport of dissolved organic matter by river networks from mountains to the sea: a re-examination of the role of flow across temporal and spatial scales
The transport of dissolved organic matter (DOM) by rivers is an important component of the global carbon cycle, affects ecosystems and water quality, and reflects biogeochemical and hydrological processes in watersheds. Understanding the fundamental relationships between discharge and DOM concentration and composition reveals important information about watershed flow paths, soil flushing, connect
Filter Total Items: 119
The impact of lime additions on mercury dynamics in stream chemistry and macroinvertebrates: A comparison of watershed and direct stream addition management strategies
Acid deposition has declined across eastern North America and northern Europe due to reduced emissions of sulfur and nitrogen oxides. Ecosystem recovery has been slow with limited improvement in surface water chemistry. Delayed recovery has encouraged acid-neutralization strategies to accelerate recovery of impaired biological communities. Lime application has been shown to increase pH and dissolv
Authors
Geoffrey D. Millard, Karen Riva-Murray, Douglas A. Burns, Mario S. Montesdeoca, Charles T. Driscoll
Mercury in fish from streams and rivers in New York State: Spatial patterns, temporal changes, and environmental drivers
Mercury (Hg) concentrations in freshwater fish across the state of New York frequently exceed guidelines considered harmful to humans and wildlife, but statewide distribution and temporal changes are not well known for the state’s streams and rivers. We analyzed existing data to describe recent spatial patterns, identify key environmental drivers, and assess temporal changes. Size classes within s
Authors
Karen Riva-Murray, Wayne Richter, N. Roxanna Razavi, Douglas A. Burns, Lisa B Cleckner, Mark Burton, Scott D. George, Douglas A. Freehafer
The response of stream ecosystems in the Adirondack region of New York to historical and future changes in atmospheric deposition of sulfur and nitrogen
The present-day acid-base chemistry of surface waters can be directly linked to contemporary observations of acid deposition; however, pre-industrial conditions are key to predicting the potential future recovery of stream ecosystems under decreasing loads of atmospheric sulfur (S) and nitrogen (N) deposition. The integrated biogeochemical model PnET-BGC was applied to 25 forest watersheds that re
Authors
Shuai Shao, Charles T. Driscoll, Timothy J. Sullivan, Douglas A. Burns, Barry P. Baldigo, Gregory B. Lawrence, Todd C. McDonnell
Chronic and episodic acidification of streams along the Appalachian Trail corridor, eastern United States
Acidic atmospheric deposition has adversely affected aquatic ecosystems globally. As emissions and deposition of sulfur (S) and nitrogen (N) have declined in recent decades across North America and Europe, ecosystem recovery is evident in many surface waters. However, persistent chronic and episodic acidification remain important concerns in vulnerable regions. We evaluated acidification in 269 he
Authors
Douglas A. Burns, Todd McDonnell, Karen C. Rice, Gregory B. Lawrence, Timothy Sullivan
A synthesis of ecosystem management strategies for forests in the face of chronic N deposition
The relative importance of nitrogen (N) deposition as a stressor to global forests is likely to increase in the future, as N deposition increases in Asia and Africa, and as sulfur declines more than nitrogen in Europe, the US, and Canada. Even so, it appears that decreased N deposition may not be sufficient to induce recovery, suggesting that management interventions may be necessary to promote re
Authors
Christopher M. Clark, J. Richkus, Philip W Jones, Jennifer Phelan, Douglas A. Burns, Wim deVries, Enzai Du, Mark E. Fenn, Laurence Jones, Shaun A. Watmough
Historical changes in New York State streamflow: Attribution of temporal shifts and spatial patterns from 1961 to 2016
To better understand the effects of climate change on streamflow, the hydrologic response to both temperature and precipitation needs to be examined at the mesoscale. New York State provides a hydrologically diverse mesoscale region, where sub-regional clusters of watersheds may respond differently to changes in temperature and in seasonal precipitation rates. Connections between streamflow and cl
Authors
Robin Glas, Douglas A. Burns, Laura K. Lautz
Monitoring the Riverine Pulse: Applying high-frequency nitrate data to advance integrative understanding of biogeochemical and hydrological processes
Widespread deployment of sensors that measure river nitrate (NO3-) concentrations has led to many recent publications in water resources journals including review papers focused on data quality assurance, improved load calculations, and better nutrient management. The principal objective of this paper is to review and synthesize studies of high-frequency NO3- data that have aimed to improve unders
Authors
Douglas A. Burns, Brian A. Pellerin, Matthew P. Miller, Paul Capel, Anthony J. Tesoriero, Jonathan M. Duncan
Unprocessed atmospheric nitrate in waters of the Northern Forest Region in the USA and Canada
Little is known about the regional extent and variability of nitrate from atmospheric deposition that is transported to streams without biological processing in forests. We measured water chemistry and isotopic tracers (δ18O and δ15N) of nitrate sources across the Northern Forest Region of the U.S. and Canada and reanalyzed data from other studies to determine when, where, and how unprocessed atmo
Authors
Stepen D Sebestyen, Donald D Ross, James B. Shanley, Emily M. Elliott, Carol Kendall, John L. Campbell, D Bryan Dail, Ivan J Fernandez, Christine L Goodale, Gregory B. Lawrence, Gary M. Lovett, Patrick J McHale, Myron J Mitchell, Sarah J. Nelson, Michelle D Shattuck, Trent R Wickman, Rebecca T. Barnes, Joel T. Bostic, Anthony R Buda, Douglas A Burns, Keith N. Eshleman, Jacques C. Finlay, David M. Nelson, Nobuhito Ohte, Linda H Pardo, Lucy A Rose, Robert J Sabo, Sherry L. Schiff, John Spoelstra, Karl W Williard
Probabilistic relationships between acid-base chemistry and fish assemblages in streams of the western Adirondack Mountains, New York, USA
Surface waters across much of the Adirondacks of New York were acidified in the late 20th century but began to recover after the 1990 amendments to the Clean Air Act. Little data, however, were available to characterize biological impacts and predict recovery of fish assemblages in regional streams. Quantitative fish and chemistry surveys were completed in 47 headwater streams during summer 2014-1
Authors
Barry Baldigo, Scott George, Timothy J. Sullivan, Charles T. Driscoll, Douglas A. Burns, Shuai Shoa, Gregory B. Lawrence
Temporal variability in nitrate – discharge relationships in large rivers as revealed by high frequency data
Little is known about temporal variability in nitrate concentration responses to changes in discharge on intraannual time scales in large rivers. To investigate this knowledge gap, we used a six‐year data set of daily surface water nitrate concentration and discharge averaged from near‐continuous monitoring at U.S. Geological Survey gaging stations on the Connecticut, Potomac, and Mississippi Rive
Authors
Margaret Zimmer, Brian A. Pellerin, Douglas A. Burns, Gregory Paul Petrochenkov
Systematic variation in evapotranspiration trends and drivers across the Northeastern United States
The direction and magnitude of responses of evapotranspiration (ET) to climate change are important to understand, as ET represents a major water and energy flux from terrestrial ecosystems, with consequences that feed back to the climate system. We inferred multidecadal trends in water balance in 11 river basins (1940–2012) and eight smaller watersheds (with records ranging from 18 to 61 years in
Authors
Matthew A Vadeboncoeur, Mark B. Green, Heidi Asbjornsen, John L. Campbell, Mary Beth Adams, Elizabeth W. Boyer, Douglas A. Burns, Ivan J Fernandez, Myron J Mitchell, James B. Shanley
River network saturation concept: factors influencing the balance of biogeochemical supply and demand of river networks
River networks modify material transfer from land to ocean. Understanding the factors regulating this function for different gaseous, dissolved, and particulate constituents is critical to quantify the local and global effects of climate and land use change. We propose the River Network Saturation (RNS) concept as a generalization of how river network regulation of material fluxes declines with in
Authors
W.M. Wollheim, S. Bernal, Douglas A. Burns, J.A. Czuba, C.T. Driscoll, A.T. Hansen, R.T. Hensley, J.D. Hosen, Shreeram Inamdar, S.S. Kaushall, L. E. Koenig, Y. H. Lu, A. Marzadri, P. A. Raymond, D. Scott, R.J. Stewart, P.G. Vidon, E. Wohl
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
An Assessment of Forest Health and Soil Nutrient Status to Determine the Effects of Logging Practices on Water Quality in New York City's West-of-Hudson Watersheds
The growth of temperate forests is typically limited by the availability of nitrogen. Elevated concentrations of nitrate in some Catskill Mountain streams, which are tributary to New York City's water-supply reservoirs west of the Hudson River, indicate that the forests of this region are at the early stages of nitrogen saturation. That is, nitrogen is available in excess of the amount utilized
An Integrated Assessment of the Recovery of Surface Waters from Reduced Levels of Acid Precipitation in the Catskill and Adirondack Regions, New York
Problem - Acidic precipitation has affected forested and aquatic ecosystems in New York, particularly in the Adirondack and Catskill regions. Acidification of surface waters and deleterious effects on fish and other biota have been well documented in both these regions. Despite reduced levels of acidity in atmospheric deposition over the past 20 years across New York and the northeastern United
The Effects of Watershed and Stream Liming on Mercury Dynamics at Honnedaga Lake
Problem The Adirondack region of New York has 128 lakes that are listed as impaired by acidity under section 303(d) of the Clean Water Act. Acidity can limit the survival and reproduction of native fishes such as brook trout (Salvelinus fontinalis). Chronic and episodic acidification also stresses fish, aquatic macroinvertebrates, and other biota of inflowing tributaries of these and many addition
Potential Recovery of Water Chemistry and Stream Biota from Reduced Levels of Acid Deposition at a Sensitive Watershed in the Catskill Mountains, New York
The Catskill Mountains of southeastern New York receive among the highest loads of acid deposition in New York and the northeastern U.S. Additionally, the Catskills are underlain by sandstone and conglomerate, which is base poor and weathers slowly. Thus, the Catskills contain numerous streams with low ( < 50 µeq/L) acid-neutralizing capacity (ANC) and are sensitive to impacts from atmospheric
Transport of dissolved organic matter by river networks from mountains to the sea: a re-examination of the role of flow across temporal and spatial scales
The transport of dissolved organic matter (DOM) by rivers is an important component of the global carbon cycle, affects ecosystems and water quality, and reflects biogeochemical and hydrological processes in watersheds. Understanding the fundamental relationships between discharge and DOM concentration and composition reveals important information about watershed flow paths, soil flushing, connect
Filter Total Items: 119
The impact of lime additions on mercury dynamics in stream chemistry and macroinvertebrates: A comparison of watershed and direct stream addition management strategies
Acid deposition has declined across eastern North America and northern Europe due to reduced emissions of sulfur and nitrogen oxides. Ecosystem recovery has been slow with limited improvement in surface water chemistry. Delayed recovery has encouraged acid-neutralization strategies to accelerate recovery of impaired biological communities. Lime application has been shown to increase pH and dissolv
Authors
Geoffrey D. Millard, Karen Riva-Murray, Douglas A. Burns, Mario S. Montesdeoca, Charles T. Driscoll
Mercury in fish from streams and rivers in New York State: Spatial patterns, temporal changes, and environmental drivers
Mercury (Hg) concentrations in freshwater fish across the state of New York frequently exceed guidelines considered harmful to humans and wildlife, but statewide distribution and temporal changes are not well known for the state’s streams and rivers. We analyzed existing data to describe recent spatial patterns, identify key environmental drivers, and assess temporal changes. Size classes within s
Authors
Karen Riva-Murray, Wayne Richter, N. Roxanna Razavi, Douglas A. Burns, Lisa B Cleckner, Mark Burton, Scott D. George, Douglas A. Freehafer
The response of stream ecosystems in the Adirondack region of New York to historical and future changes in atmospheric deposition of sulfur and nitrogen
The present-day acid-base chemistry of surface waters can be directly linked to contemporary observations of acid deposition; however, pre-industrial conditions are key to predicting the potential future recovery of stream ecosystems under decreasing loads of atmospheric sulfur (S) and nitrogen (N) deposition. The integrated biogeochemical model PnET-BGC was applied to 25 forest watersheds that re
Authors
Shuai Shao, Charles T. Driscoll, Timothy J. Sullivan, Douglas A. Burns, Barry P. Baldigo, Gregory B. Lawrence, Todd C. McDonnell
Chronic and episodic acidification of streams along the Appalachian Trail corridor, eastern United States
Acidic atmospheric deposition has adversely affected aquatic ecosystems globally. As emissions and deposition of sulfur (S) and nitrogen (N) have declined in recent decades across North America and Europe, ecosystem recovery is evident in many surface waters. However, persistent chronic and episodic acidification remain important concerns in vulnerable regions. We evaluated acidification in 269 he
Authors
Douglas A. Burns, Todd McDonnell, Karen C. Rice, Gregory B. Lawrence, Timothy Sullivan
A synthesis of ecosystem management strategies for forests in the face of chronic N deposition
The relative importance of nitrogen (N) deposition as a stressor to global forests is likely to increase in the future, as N deposition increases in Asia and Africa, and as sulfur declines more than nitrogen in Europe, the US, and Canada. Even so, it appears that decreased N deposition may not be sufficient to induce recovery, suggesting that management interventions may be necessary to promote re
Authors
Christopher M. Clark, J. Richkus, Philip W Jones, Jennifer Phelan, Douglas A. Burns, Wim deVries, Enzai Du, Mark E. Fenn, Laurence Jones, Shaun A. Watmough
Historical changes in New York State streamflow: Attribution of temporal shifts and spatial patterns from 1961 to 2016
To better understand the effects of climate change on streamflow, the hydrologic response to both temperature and precipitation needs to be examined at the mesoscale. New York State provides a hydrologically diverse mesoscale region, where sub-regional clusters of watersheds may respond differently to changes in temperature and in seasonal precipitation rates. Connections between streamflow and cl
Authors
Robin Glas, Douglas A. Burns, Laura K. Lautz
Monitoring the Riverine Pulse: Applying high-frequency nitrate data to advance integrative understanding of biogeochemical and hydrological processes
Widespread deployment of sensors that measure river nitrate (NO3-) concentrations has led to many recent publications in water resources journals including review papers focused on data quality assurance, improved load calculations, and better nutrient management. The principal objective of this paper is to review and synthesize studies of high-frequency NO3- data that have aimed to improve unders
Authors
Douglas A. Burns, Brian A. Pellerin, Matthew P. Miller, Paul Capel, Anthony J. Tesoriero, Jonathan M. Duncan
Unprocessed atmospheric nitrate in waters of the Northern Forest Region in the USA and Canada
Little is known about the regional extent and variability of nitrate from atmospheric deposition that is transported to streams without biological processing in forests. We measured water chemistry and isotopic tracers (δ18O and δ15N) of nitrate sources across the Northern Forest Region of the U.S. and Canada and reanalyzed data from other studies to determine when, where, and how unprocessed atmo
Authors
Stepen D Sebestyen, Donald D Ross, James B. Shanley, Emily M. Elliott, Carol Kendall, John L. Campbell, D Bryan Dail, Ivan J Fernandez, Christine L Goodale, Gregory B. Lawrence, Gary M. Lovett, Patrick J McHale, Myron J Mitchell, Sarah J. Nelson, Michelle D Shattuck, Trent R Wickman, Rebecca T. Barnes, Joel T. Bostic, Anthony R Buda, Douglas A Burns, Keith N. Eshleman, Jacques C. Finlay, David M. Nelson, Nobuhito Ohte, Linda H Pardo, Lucy A Rose, Robert J Sabo, Sherry L. Schiff, John Spoelstra, Karl W Williard
Probabilistic relationships between acid-base chemistry and fish assemblages in streams of the western Adirondack Mountains, New York, USA
Surface waters across much of the Adirondacks of New York were acidified in the late 20th century but began to recover after the 1990 amendments to the Clean Air Act. Little data, however, were available to characterize biological impacts and predict recovery of fish assemblages in regional streams. Quantitative fish and chemistry surveys were completed in 47 headwater streams during summer 2014-1
Authors
Barry Baldigo, Scott George, Timothy J. Sullivan, Charles T. Driscoll, Douglas A. Burns, Shuai Shoa, Gregory B. Lawrence
Temporal variability in nitrate – discharge relationships in large rivers as revealed by high frequency data
Little is known about temporal variability in nitrate concentration responses to changes in discharge on intraannual time scales in large rivers. To investigate this knowledge gap, we used a six‐year data set of daily surface water nitrate concentration and discharge averaged from near‐continuous monitoring at U.S. Geological Survey gaging stations on the Connecticut, Potomac, and Mississippi Rive
Authors
Margaret Zimmer, Brian A. Pellerin, Douglas A. Burns, Gregory Paul Petrochenkov
Systematic variation in evapotranspiration trends and drivers across the Northeastern United States
The direction and magnitude of responses of evapotranspiration (ET) to climate change are important to understand, as ET represents a major water and energy flux from terrestrial ecosystems, with consequences that feed back to the climate system. We inferred multidecadal trends in water balance in 11 river basins (1940–2012) and eight smaller watersheds (with records ranging from 18 to 61 years in
Authors
Matthew A Vadeboncoeur, Mark B. Green, Heidi Asbjornsen, John L. Campbell, Mary Beth Adams, Elizabeth W. Boyer, Douglas A. Burns, Ivan J Fernandez, Myron J Mitchell, James B. Shanley
River network saturation concept: factors influencing the balance of biogeochemical supply and demand of river networks
River networks modify material transfer from land to ocean. Understanding the factors regulating this function for different gaseous, dissolved, and particulate constituents is critical to quantify the local and global effects of climate and land use change. We propose the River Network Saturation (RNS) concept as a generalization of how river network regulation of material fluxes declines with in
Authors
W.M. Wollheim, S. Bernal, Douglas A. Burns, J.A. Czuba, C.T. Driscoll, A.T. Hansen, R.T. Hensley, J.D. Hosen, Shreeram Inamdar, S.S. Kaushall, L. E. Koenig, Y. H. Lu, A. Marzadri, P. A. Raymond, D. Scott, R.J. Stewart, P.G. Vidon, E. Wohl
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.