Rob Striegl (Former Employee)
Science and Products
Filter Total Items: 144
Inland waters Inland waters
1. The total flux of carbon—which includes gaseous emissions, lateral flux, and burial—from inland waters across the conterminous United States (CONUS) and Alaska is 193 teragrams of carbon (Tg C) per year. The dominant pathway for carbon movement out of inland waters is the emission of carbon dioxide gas across water surfaces of streams, rivers, and lakes (110.1 Tg C per year), a flux...
Authors
David E. Butman, Robert G. Striegl, Sarah M. Stackpoole, Paul Del Giorgio, Yves Prairie, Darren Pilcher, Peter Raymond, Fernando Paz Pellat, Javier Alcocer
Ice wedge degradation and stabilization impacts water budgets and nutrient cycling in Arctic trough ponds Ice wedge degradation and stabilization impacts water budgets and nutrient cycling in Arctic trough ponds
Trough ponds are ubiquitous features of Arctic landscapes and an important component of freshwater aquatic ecosystems. Permafrost thaw causes ground subsidence, creating depressions that gather water, creating ponds. Permafrost thaw also releases solutes and nutrients, which may fertilize these newly formed ponds. We measured water budget elements and chloride, ammonium, and dissolved...
Authors
Joshua Koch, M. Torre Jorgenson, Kimberly Wickland, Mikhail Kanevskiy, Robert Striegl
Assessing historical and projected carbon balance of Alaska: A synthesis of results and policy/management implications Assessing historical and projected carbon balance of Alaska: A synthesis of results and policy/management implications
We summarize the results of a recent interagency assessment of land carbon dynamics in Alaska, in which carbon dynamics were estimated for all major terrestrial and aquatic ecosystems for the historical period (1950–2009) and a projection period (2010–2099). Between 1950 and 2009, upland and wetland (i.e., terrestrial) ecosystems of the state gained 0.4 Tg C/yr (0.1% of net primary...
Authors
A. David McGuire, Hélène Genet, Zhou Lyu, Neal J. Pastick, Sarah M. Stackpoole, Richard Birdsey, David D'Amore, Yujie He, T. Scott Rupp, Robert G. Striegl, Bruce K. Wylie, Xiaoping Zhou, Qianlai Zhuang, Zhiliang Zhu
Limited nitrate retention capacity in the Upper Mississippi River Limited nitrate retention capacity in the Upper Mississippi River
The Mississippi River and other large rivers have the potential to regulate nitrogen export from terrestrial landscapes, and thus mitigate eutrophication in downstream aquatic ecosystems. In large rivers, human-constructed impoundments and connected backwaters may facilitate nitrogen removal; however, the capacity of these features is poorly quantified and incompletely incorporated into...
Authors
Luke C. Loken, John T. Crawford, Mark M. Dornblaser, Robert G. Striegl, Jeffrey N. Houser, Peter A Turner, Emily H. Stanley
Dissolved organic carbon and nitrogen release from boreal Holocene permafrost and seasonally frozen soils of Alaska Dissolved organic carbon and nitrogen release from boreal Holocene permafrost and seasonally frozen soils of Alaska
Permafrost (perennially frozen) soils store vast amounts of organic carbon (C) and nitrogen (N) that are vulnerable to mobilization as dissolved organic carbon (DOC) and dissolved organic and inorganic nitrogen (DON, DIN) upon thaw. Such releases will affect the biogeochemistry of permafrost regions, yet little is known about the chemical composition and source variability of active...
Authors
Kimberly P. Wickland, Mark P. Waldrop, George R. Aiken, Joshua C. Koch, M. Torre Jorgenson, Robert G. Striegl
Permafrost stores a globally significant amount of mercury Permafrost stores a globally significant amount of mercury
Changing climate in northern regions is causing permafrost to thaw with major implications for the global mercury (Hg) cycle. We estimated Hg in permafrost regions based on in situ measurements of sediment total mercury (STHg), soil organic carbon (SOC), and the Hg to carbon ratio (RHgC) combined with maps of soil carbon. We measured a median STHg of 43 ± 30 ng Hg g soil−1 and a median...
Authors
Paul F. Schuster, Kevin Schaefer, George R. Aiken, Ronald C. Antweiler, John F. DeWild, Joshua D. Gryziec, Alessio Gusmeroli, Gustaf Hugelius, Elchin E. Jafarov, David P. Krabbenhoft, Lin Liu, Nicole M. Herman-Mercer, Cuicui Mu, David A. Roth, Tim Schaefer, Robert G. Striegl, Kimberly P. Wickland, Tingjun Zhang
Size, age, renewal, and discharge of groundwater carbon Size, age, renewal, and discharge of groundwater carbon
Groundwater carbon (C) supply to lakes and streams is important to understanding the role of inland waters in global and regional cycles and in the functioning of aquatic ecosystems. We provide new estimates of the size and discharge of the groundwater C pool using data from a broad survey of groundwater C, information on the depth distribution of groundwater, and data on groundwater age...
Authors
John A. Downing, Robert G. Striegl
Biological and land use controls on the isotopic composition of aquatic carbon in the Upper Mississippi River Basin Biological and land use controls on the isotopic composition of aquatic carbon in the Upper Mississippi River Basin
Riverine ecosystems receive organic matter (OM) from terrestrial sources, internally produce new OM, and biogeochemically cycle and modify organic and inorganic carbon. Major gaps remain in the understanding of the relationships between carbon sources and processing in river systems. Here we synthesize isotopic, elemental, and molecular properties of dissolved organic carbon (DOC)...
Authors
Britta Voss, Kimberly P. Wickland, George R. Aiken, Robert G. Striegl
Spatial heterogeneity of within-stream methane concentrations Spatial heterogeneity of within-stream methane concentrations
Streams, rivers, and other freshwater features may be significant sources of CH4 to the atmosphere. However, high spatial and temporal variabilities hinder our ability to understand the underlying processes of CH4 production and delivery to streams and also challenge the use of scaling approaches across large areas. We studied a stream having high geomorphic variability to assess the...
Authors
John T. Crawford, Luke C. Loken, William E. West, Benjamin Crary, Seth A. Spawn, Nicholas Gubbins, Stuart E. Jones, Robert G. Striegl, Emily H. Stanley
CO2 time series patterns in contrasting headwater streams of North America CO2 time series patterns in contrasting headwater streams of North America
We explored the underlying patterns of temporal stream CO2 partial pressure (pCO2) variability using highfrequency sensors in seven disparate headwater streams distributed across the northern hemisphere. We also compared this dataset of [40,000 pCO2 records with other published records from lotic systems. Individual stream sites exhibited relatively distinct pCO2 patterns over time with...
Authors
John T. Crawford, Emily H. Stanley, Mark M. Dornblaser, Robert G. Striegl
Inland waters and their role in the carbon cycle of Alaska Inland waters and their role in the carbon cycle of Alaska
The magnitude of Alaska (AK) inland waters carbon (C) fluxes is likely to change in the future due to amplified climate warming impacts on the hydrology and biogeochemical processes in high latitude regions. Although current estimates of major aquatic C fluxes represent an essential baseline against which future change can be compared, a comprehensive assessment for AK has not yet been...
Authors
Sarah M. Stackpoole, David E. Butman, David W. Clow, Kristine L. Verdin, Benjamin V. Gaglioti, Hélène Genet, Robert G. Striegl
Carbonate buffering and metabolic controls on carbon dioxide in rivers Carbonate buffering and metabolic controls on carbon dioxide in rivers
Multiple processes support the significant efflux of carbon dioxide (CO2) from rivers and streams. Attribution of CO2 oversaturation will lead to better quantification of the freshwater carbon cycle and provide insights into the net cycling of nutrients and pollutants. CO2 production is closely related to O2consumption because of the metabolic linkage of these gases. However, this...
Authors
Edward G. Stets, David Butman, Cory P. McDonald, Sarah M. Stackpoole, Michael D. DeGrandpre, Robert G. Striegl
Science and Products
Filter Total Items: 144
Inland waters Inland waters
1. The total flux of carbon—which includes gaseous emissions, lateral flux, and burial—from inland waters across the conterminous United States (CONUS) and Alaska is 193 teragrams of carbon (Tg C) per year. The dominant pathway for carbon movement out of inland waters is the emission of carbon dioxide gas across water surfaces of streams, rivers, and lakes (110.1 Tg C per year), a flux...
Authors
David E. Butman, Robert G. Striegl, Sarah M. Stackpoole, Paul Del Giorgio, Yves Prairie, Darren Pilcher, Peter Raymond, Fernando Paz Pellat, Javier Alcocer
Ice wedge degradation and stabilization impacts water budgets and nutrient cycling in Arctic trough ponds Ice wedge degradation and stabilization impacts water budgets and nutrient cycling in Arctic trough ponds
Trough ponds are ubiquitous features of Arctic landscapes and an important component of freshwater aquatic ecosystems. Permafrost thaw causes ground subsidence, creating depressions that gather water, creating ponds. Permafrost thaw also releases solutes and nutrients, which may fertilize these newly formed ponds. We measured water budget elements and chloride, ammonium, and dissolved...
Authors
Joshua Koch, M. Torre Jorgenson, Kimberly Wickland, Mikhail Kanevskiy, Robert Striegl
Assessing historical and projected carbon balance of Alaska: A synthesis of results and policy/management implications Assessing historical and projected carbon balance of Alaska: A synthesis of results and policy/management implications
We summarize the results of a recent interagency assessment of land carbon dynamics in Alaska, in which carbon dynamics were estimated for all major terrestrial and aquatic ecosystems for the historical period (1950–2009) and a projection period (2010–2099). Between 1950 and 2009, upland and wetland (i.e., terrestrial) ecosystems of the state gained 0.4 Tg C/yr (0.1% of net primary...
Authors
A. David McGuire, Hélène Genet, Zhou Lyu, Neal J. Pastick, Sarah M. Stackpoole, Richard Birdsey, David D'Amore, Yujie He, T. Scott Rupp, Robert G. Striegl, Bruce K. Wylie, Xiaoping Zhou, Qianlai Zhuang, Zhiliang Zhu
Limited nitrate retention capacity in the Upper Mississippi River Limited nitrate retention capacity in the Upper Mississippi River
The Mississippi River and other large rivers have the potential to regulate nitrogen export from terrestrial landscapes, and thus mitigate eutrophication in downstream aquatic ecosystems. In large rivers, human-constructed impoundments and connected backwaters may facilitate nitrogen removal; however, the capacity of these features is poorly quantified and incompletely incorporated into...
Authors
Luke C. Loken, John T. Crawford, Mark M. Dornblaser, Robert G. Striegl, Jeffrey N. Houser, Peter A Turner, Emily H. Stanley
Dissolved organic carbon and nitrogen release from boreal Holocene permafrost and seasonally frozen soils of Alaska Dissolved organic carbon and nitrogen release from boreal Holocene permafrost and seasonally frozen soils of Alaska
Permafrost (perennially frozen) soils store vast amounts of organic carbon (C) and nitrogen (N) that are vulnerable to mobilization as dissolved organic carbon (DOC) and dissolved organic and inorganic nitrogen (DON, DIN) upon thaw. Such releases will affect the biogeochemistry of permafrost regions, yet little is known about the chemical composition and source variability of active...
Authors
Kimberly P. Wickland, Mark P. Waldrop, George R. Aiken, Joshua C. Koch, M. Torre Jorgenson, Robert G. Striegl
Permafrost stores a globally significant amount of mercury Permafrost stores a globally significant amount of mercury
Changing climate in northern regions is causing permafrost to thaw with major implications for the global mercury (Hg) cycle. We estimated Hg in permafrost regions based on in situ measurements of sediment total mercury (STHg), soil organic carbon (SOC), and the Hg to carbon ratio (RHgC) combined with maps of soil carbon. We measured a median STHg of 43 ± 30 ng Hg g soil−1 and a median...
Authors
Paul F. Schuster, Kevin Schaefer, George R. Aiken, Ronald C. Antweiler, John F. DeWild, Joshua D. Gryziec, Alessio Gusmeroli, Gustaf Hugelius, Elchin E. Jafarov, David P. Krabbenhoft, Lin Liu, Nicole M. Herman-Mercer, Cuicui Mu, David A. Roth, Tim Schaefer, Robert G. Striegl, Kimberly P. Wickland, Tingjun Zhang
Size, age, renewal, and discharge of groundwater carbon Size, age, renewal, and discharge of groundwater carbon
Groundwater carbon (C) supply to lakes and streams is important to understanding the role of inland waters in global and regional cycles and in the functioning of aquatic ecosystems. We provide new estimates of the size and discharge of the groundwater C pool using data from a broad survey of groundwater C, information on the depth distribution of groundwater, and data on groundwater age...
Authors
John A. Downing, Robert G. Striegl
Biological and land use controls on the isotopic composition of aquatic carbon in the Upper Mississippi River Basin Biological and land use controls on the isotopic composition of aquatic carbon in the Upper Mississippi River Basin
Riverine ecosystems receive organic matter (OM) from terrestrial sources, internally produce new OM, and biogeochemically cycle and modify organic and inorganic carbon. Major gaps remain in the understanding of the relationships between carbon sources and processing in river systems. Here we synthesize isotopic, elemental, and molecular properties of dissolved organic carbon (DOC)...
Authors
Britta Voss, Kimberly P. Wickland, George R. Aiken, Robert G. Striegl
Spatial heterogeneity of within-stream methane concentrations Spatial heterogeneity of within-stream methane concentrations
Streams, rivers, and other freshwater features may be significant sources of CH4 to the atmosphere. However, high spatial and temporal variabilities hinder our ability to understand the underlying processes of CH4 production and delivery to streams and also challenge the use of scaling approaches across large areas. We studied a stream having high geomorphic variability to assess the...
Authors
John T. Crawford, Luke C. Loken, William E. West, Benjamin Crary, Seth A. Spawn, Nicholas Gubbins, Stuart E. Jones, Robert G. Striegl, Emily H. Stanley
CO2 time series patterns in contrasting headwater streams of North America CO2 time series patterns in contrasting headwater streams of North America
We explored the underlying patterns of temporal stream CO2 partial pressure (pCO2) variability using highfrequency sensors in seven disparate headwater streams distributed across the northern hemisphere. We also compared this dataset of [40,000 pCO2 records with other published records from lotic systems. Individual stream sites exhibited relatively distinct pCO2 patterns over time with...
Authors
John T. Crawford, Emily H. Stanley, Mark M. Dornblaser, Robert G. Striegl
Inland waters and their role in the carbon cycle of Alaska Inland waters and their role in the carbon cycle of Alaska
The magnitude of Alaska (AK) inland waters carbon (C) fluxes is likely to change in the future due to amplified climate warming impacts on the hydrology and biogeochemical processes in high latitude regions. Although current estimates of major aquatic C fluxes represent an essential baseline against which future change can be compared, a comprehensive assessment for AK has not yet been...
Authors
Sarah M. Stackpoole, David E. Butman, David W. Clow, Kristine L. Verdin, Benjamin V. Gaglioti, Hélène Genet, Robert G. Striegl
Carbonate buffering and metabolic controls on carbon dioxide in rivers Carbonate buffering and metabolic controls on carbon dioxide in rivers
Multiple processes support the significant efflux of carbon dioxide (CO2) from rivers and streams. Attribution of CO2 oversaturation will lead to better quantification of the freshwater carbon cycle and provide insights into the net cycling of nutrients and pollutants. CO2 production is closely related to O2consumption because of the metabolic linkage of these gases. However, this...
Authors
Edward G. Stets, David Butman, Cory P. McDonald, Sarah M. Stackpoole, Michael D. DeGrandpre, Robert G. Striegl