Your search keyword '"Lyon, S. A."' showing total 58 results

1. Snowmass2021 Cosmic Frontier: The landscape of low-threshold dark matter direct detection in the next decade

Author

Essig, Rouven, Giovanetti, Graham K., Kurinsky, Noah, McKinsey, Dan, Ramanathan, Karthik, Stifter, Kelly, Yu, Tien-Tien, Aboubrahim, A., Adams, D., Alves, D. S. M., Aralis, T., Araújo, H. M., Baxter, D., Berghaus, K. V., Berlin, A., Blanco, C., Bloch, I. M., Bonivento, W. M., Bunker, R., Burdin, S., Caminata, A., Carmona-Benitez, M. C., Chaplinsky, L., Chen, T. Y., Derenzo, S. E., de Viveiros, L., Dick, R., Di Marco, N., Du, P., Dutta, B., Ebadi, R., Emken, T., Esposito, A., Etzion, E., Feng, J. L., Fernandez, N., Ge, S. -F., Ghosh, S., Giroux, G., Hamaide, L., Hertel, S. A., Herrera, G., Hochberg, Y., Kahn, Y., Kavanagh, B. J., Khan, A. N., Kluck, H., Kravitz, S., von Krosigk, B., Kumar, J., Lawson, I. T., Lehmann, B. V., Lin, T., Liao, J., Lyon, S. A., Majewski, P. M., Manzari, C. A., Monroe, J., Monzani, M. E., Morrissey, D. E., Norcini, D., Orly, A., Parikh, A., Park, J. -C., Patel, P. K., Paul, S., Pèrez-Ríos, J., Phipps, A., Pocar, A., Ritz, A., Sarkis, Y., Schuster, P., Schwetz, T., Shaw, S., Shin, S., Singal, A., Singh, R., Slone, O., Sorensen, P., Sun, C., Szydagis, M., Temples, D. J., Testera, G., Thieme, K., Toro, N., Trickle, T., Uemura, S., Velan, V., Vitagliano, E., Wagner, F., Wang, G., Westerdale, S., Zurek, K. M., Essig, Rouven, Giovanetti, Graham K., Kurinsky, Noah, McKinsey, Dan, Ramanathan, Karthik, Stifter, Kelly, Yu, Tien-Tien, Aboubrahim, A., Adams, D., Alves, D. S. M., Aralis, T., Araújo, H. M., Baxter, D., Berghaus, K. V., Berlin, A., Blanco, C., Bloch, I. M., Bonivento, W. M., Bunker, R., Burdin, S., Caminata, A., Carmona-Benitez, M. C., Chaplinsky, L., Chen, T. Y., Derenzo, S. E., de Viveiros, L., Dick, R., Di Marco, N., Du, P., Dutta, B., Ebadi, R., Emken, T., Esposito, A., Etzion, E., Feng, J. L., Fernandez, N., Ge, S. -F., Ghosh, S., Giroux, G., Hamaide, L., Hertel, S. A., Herrera, G., Hochberg, Y., Kahn, Y., Kavanagh, B. J., Khan, A. N., Kluck, H., Kravitz, S., von Krosigk, B., Kumar, J., Lawson, I. T., Lehmann, B. V., Lin, T., Liao, J., Lyon, S. A., Majewski, P. M., Manzari, C. A., Monroe, J., Monzani, M. E., Morrissey, D. E., Norcini, D., Orly, A., Parikh, A., Park, J. -C., Patel, P. K., Paul, S., Pèrez-Ríos, J., Phipps, A., Pocar, A., Ritz, A., Sarkis, Y., Schuster, P., Schwetz, T., Shaw, S., Shin, S., Singal, A., Singh, R., Slone, O., Sorensen, P., Sun, C., Szydagis, M., Temples, D. J., Testera, G., Thieme, K., Toro, N., Trickle, T., Uemura, S., Velan, V., Vitagliano, E., Wagner, F., Wang, G., Westerdale, S., and Zurek, K. M.

Abstract

The search for particle-like dark matter with meV-to-GeV masses has developed rapidly in the past few years. We summarize the science case for these searches, the recent progress, and the exciting upcoming opportunities. Funding for Research and Development and a portfolio of small dark matter projects will allow the community to capitalize on the substantial recent advances in theory and experiment and probe vast regions of unexplored dark-matter parameter space in the coming decade., Comment: Contribution to Snowmass 2021. v2: includes endorsers and minor changes

Published

2022

2. Single Phonon Detection for Dark Matter via Quantum Evaporation and Sensing of $^3$Helium

Author

Lyon, S. A., Castoria, Kyle, Kleinbaum, Ethan, Qin, Zhihao, Persaud, Arun, Schenkel, Thomas, Zurek, Kathryn, Lyon, S. A., Castoria, Kyle, Kleinbaum, Ethan, Qin, Zhihao, Persaud, Arun, Schenkel, Thomas, and Zurek, Kathryn

Abstract

Dark matter is five times more abundant than ordinary visible matter in our Universe. While laboratory searches hunting for dark matter have traditionally focused on the electroweak scale, theories of low mass hidden sectors motivate new detection techniques. Extending these searches to lower mass ranges, well below 1 GeV/c$^2$, poses new challenges as rare interactions with standard model matter transfer progressively less energy to electrons and nuclei in detectors. Here, we propose an approach based on phonon-assisted quantum evaporation combined with quantum sensors for detection of desorption events via tracking of spin coherence. The intent of our proposed dark matter sensors is to extend the parameter space to energy transfers in rare interactions to as low as a few meV for detection of dark matter particles in the keV/c$^2$ mass range., Comment: 8 pages, 3 figures. Updated various parts

Published

2022

3. Snowmass2021 Cosmic Frontier: The landscape of low-threshold dark matter direct detection in the next decade

Author

Essig, Rouven, Giovanetti, Graham K., Kurinsky, Noah, McKinsey, Dan, Ramanathan, Karthik, Stifter, Kelly, Yu, Tien-Tien, Aboubrahim, A., Adams, D., Alves, D. S. M., Aralis, T., Araújo, H. M., Baxter, D., Berghaus, K. V., Berlin, A., Blanco, C., Bloch, I. M., Bonivento, W. M., Bunker, R., Burdin, S., Caminata, A., Carmona-Benitez, M. C., Chaplinsky, L., Chen, T. Y., Derenzo, S. E., de Viveiros, L., Dick, R., Di Marco, N., Du, P., Dutta, B., Ebadi, R., Emken, T., Esposito, A., Etzion, E., Feng, J. L., Fernandez, N., Ge, S. -F., Ghosh, S., Giroux, G., Hamaide, L., Hertel, S. A., Herrera, G., Hochberg, Y., Kahn, Y., Kavanagh, B. J., Khan, A. N., Kluck, H., Kravitz, S., von Krosigk, B., Kumar, J., Lawson, I. T., Lehmann, B. V., Lin, T., Liao, J., Lyon, S. A., Majewski, P. M., Manzari, C. A., Monroe, J., Monzani, M. E., Morrissey, D. E., Norcini, D., Orly, A., Parikh, A., Park, J. -C., Patel, P. K., Paul, S., Pèrez-Ríos, J., Phipps, A., Pocar, A., Ritz, A., Sarkis, Y., Schuster, P., Schwetz, T., Shaw, S., Shin, S., Singal, A., Singh, R., Slone, O., Sorensen, P., Sun, C., Szydagis, M., Temples, D. J., Testera, G., Thieme, K., Toro, N., Trickle, T., Uemura, S., Velan, V., Vitagliano, E., Wagner, F., Wang, G., Westerdale, S., Zurek, K. M., Essig, Rouven, Giovanetti, Graham K., Kurinsky, Noah, McKinsey, Dan, Ramanathan, Karthik, Stifter, Kelly, Yu, Tien-Tien, Aboubrahim, A., Adams, D., Alves, D. S. M., Aralis, T., Araújo, H. M., Baxter, D., Berghaus, K. V., Berlin, A., Blanco, C., Bloch, I. M., Bonivento, W. M., Bunker, R., Burdin, S., Caminata, A., Carmona-Benitez, M. C., Chaplinsky, L., Chen, T. Y., Derenzo, S. E., de Viveiros, L., Dick, R., Di Marco, N., Du, P., Dutta, B., Ebadi, R., Emken, T., Esposito, A., Etzion, E., Feng, J. L., Fernandez, N., Ge, S. -F., Ghosh, S., Giroux, G., Hamaide, L., Hertel, S. A., Herrera, G., Hochberg, Y., Kahn, Y., Kavanagh, B. J., Khan, A. N., Kluck, H., Kravitz, S., von Krosigk, B., Kumar, J., Lawson, I. T., Lehmann, B. V., Lin, T., Liao, J., Lyon, S. A., Majewski, P. M., Manzari, C. A., Monroe, J., Monzani, M. E., Morrissey, D. E., Norcini, D., Orly, A., Parikh, A., Park, J. -C., Patel, P. K., Paul, S., Pèrez-Ríos, J., Phipps, A., Pocar, A., Ritz, A., Sarkis, Y., Schuster, P., Schwetz, T., Shaw, S., Shin, S., Singal, A., Singh, R., Slone, O., Sorensen, P., Sun, C., Szydagis, M., Temples, D. J., Testera, G., Thieme, K., Toro, N., Trickle, T., Uemura, S., Velan, V., Vitagliano, E., Wagner, F., Wang, G., Westerdale, S., and Zurek, K. M.

Abstract

The search for particle-like dark matter with meV-to-GeV masses has developed rapidly in the past few years. We summarize the science case for these searches, the recent progress, and the exciting upcoming opportunities. Funding for Research and Development and a portfolio of small dark matter projects will allow the community to capitalize on the substantial recent advances in theory and experiment and probe vast regions of unexplored dark-matter parameter space in the coming decade., Comment: Contribution to Snowmass 2021. v2: includes endorsers and minor changes

Published

2022

4. Single Phonon Detection for Dark Matter via Quantum Evaporation and Sensing of $^3$Helium

Author

Lyon, S. A., Castoria, Kyle, Kleinbaum, Ethan, Qin, Zhihao, Persaud, Arun, Schenkel, Thomas, Zurek, Kathryn, Lyon, S. A., Castoria, Kyle, Kleinbaum, Ethan, Qin, Zhihao, Persaud, Arun, Schenkel, Thomas, and Zurek, Kathryn

Abstract

Dark matter is five times more abundant than ordinary visible matter in our Universe. While laboratory searches hunting for dark matter have traditionally focused on the electroweak scale, theories of low mass hidden sectors motivate new detection techniques. Extending these searches to lower mass ranges, well below 1 GeV/c$^2$, poses new challenges as rare interactions with standard model matter transfer progressively less energy to electrons and nuclei in detectors. Here, we propose an approach based on phonon-assisted quantum evaporation combined with quantum sensors for detection of desorption events via tracking of spin coherence. The intent of our proposed dark matter sensors is to extend the parameter space to energy transfers in rare interactions to as low as a few meV for detection of dark matter particles in the keV/c$^2$ mass range., Comment: 8 pages, 3 figures. Updated various parts

Published

2022

5. Snowmass2021 Cosmic Frontier: The landscape of low-threshold dark matter direct detection in the next decade

Author

Essig, Rouven, Giovanetti, Graham K., Kurinsky, Noah, McKinsey, Dan, Ramanathan, Karthik, Stifter, Kelly, Yu, Tien-Tien, Aboubrahim, A., Adams, D., Alves, D. S. M., Aralis, T., Araújo, H. M., Baxter, D., Berghaus, K. V., Berlin, A., Blanco, C., Bloch, I. M., Bonivento, W. M., Bunker, R., Burdin, S., Caminata, A., Carmona-Benitez, M. C., Chaplinsky, L., Chen, T. Y., Derenzo, S. E., de Viveiros, L., Dick, R., Di Marco, N., Du, P., Dutta, B., Ebadi, R., Emken, T., Esposito, A., Etzion, E., Feng, J. L., Fernandez, N., Ge, S. -F., Ghosh, S., Giroux, G., Hamaide, L., Hertel, S. A., Herrera, G., Hochberg, Y., Kahn, Y., Kavanagh, B. J., Khan, A. N., Kluck, H., Kravitz, S., von Krosigk, B., Kumar, J., Lawson, I. T., Lehmann, B. V., Lin, T., Liao, J., Lyon, S. A., Majewski, P. M., Manzari, C. A., Monroe, J., Monzani, M. E., Morrissey, D. E., Norcini, D., Orly, A., Parikh, A., Park, J. -C., Patel, P. K., Paul, S., Pèrez-Ríos, J., Phipps, A., Pocar, A., Ritz, A., Sarkis, Y., Schuster, P., Schwetz, T., Shaw, S., Shin, S., Singal, A., Singh, R., Slone, O., Sorensen, P., Sun, C., Szydagis, M., Temples, D. J., Testera, G., Thieme, K., Toro, N., Trickle, T., Uemura, S., Velan, V., Vitagliano, E., Wagner, F., Wang, G., Westerdale, S., Zurek, K. M., Essig, Rouven, Giovanetti, Graham K., Kurinsky, Noah, McKinsey, Dan, Ramanathan, Karthik, Stifter, Kelly, Yu, Tien-Tien, Aboubrahim, A., Adams, D., Alves, D. S. M., Aralis, T., Araújo, H. M., Baxter, D., Berghaus, K. V., Berlin, A., Blanco, C., Bloch, I. M., Bonivento, W. M., Bunker, R., Burdin, S., Caminata, A., Carmona-Benitez, M. C., Chaplinsky, L., Chen, T. Y., Derenzo, S. E., de Viveiros, L., Dick, R., Di Marco, N., Du, P., Dutta, B., Ebadi, R., Emken, T., Esposito, A., Etzion, E., Feng, J. L., Fernandez, N., Ge, S. -F., Ghosh, S., Giroux, G., Hamaide, L., Hertel, S. A., Herrera, G., Hochberg, Y., Kahn, Y., Kavanagh, B. J., Khan, A. N., Kluck, H., Kravitz, S., von Krosigk, B., Kumar, J., Lawson, I. T., Lehmann, B. V., Lin, T., Liao, J., Lyon, S. A., Majewski, P. M., Manzari, C. A., Monroe, J., Monzani, M. E., Morrissey, D. E., Norcini, D., Orly, A., Parikh, A., Park, J. -C., Patel, P. K., Paul, S., Pèrez-Ríos, J., Phipps, A., Pocar, A., Ritz, A., Sarkis, Y., Schuster, P., Schwetz, T., Shaw, S., Shin, S., Singal, A., Singh, R., Slone, O., Sorensen, P., Sun, C., Szydagis, M., Temples, D. J., Testera, G., Thieme, K., Toro, N., Trickle, T., Uemura, S., Velan, V., Vitagliano, E., Wagner, F., Wang, G., Westerdale, S., and Zurek, K. M.

Abstract

The search for particle-like dark matter with meV-to-GeV masses has developed rapidly in the past few years. We summarize the science case for these searches, the recent progress, and the exciting upcoming opportunities. Funding for Research and Development and a portfolio of small dark matter projects will allow the community to capitalize on the substantial recent advances in theory and experiment and probe vast regions of unexplored dark-matter parameter space in the coming decade., Comment: Contribution to Snowmass 2021. v2: includes endorsers and minor changes

Published

2022

6. Do you pass it on? An examination of the consequences of perceived cyber incivility

Author

McCarthy, K, McCarthy, K, Pearce, JL, Morton, J, Lyon, S, McCarthy, K, McCarthy, K, Pearce, JL, Morton, J, and Lyon, S

Abstract

Purpose: The emerging literature on computer-mediated communication at the study lacks depth in terms of elucidating the consequences of the effects of incivility on employees. This study aims to compare face-to-face incivility with incivility encountered via e-mail on both task performance and performance evaluation. Design/methodology/approach: In two experimental studies, the authors test whether exposure to incivility via e-mail reduces individual task performance beyond that of face-to-face incivility and weather exposure to that incivility results in lower performance evaluations for third-parties. Findings: The authors show that being exposed to cyber incivility does decrease performance on a subsequent task. The authors also find that exposure to rudeness, both face-to-face and via e-mail, is contagious and results in lower performance evaluation scores for an uninvolved third party. Originality/value: This research comprises an empirically grounded study of incivility in the context of e-mail at study, highlights distinctions between it and face-to-face rudeness and reveals the potential risks that cyber incivility poses for employees.

Published

2020

7. Do you pass it on? An examination of the consequences of perceived cyber incivility

Author

McCarthy, K, McCarthy, K, Pearce, JL, Morton, J, Lyon, S, McCarthy, K, McCarthy, K, Pearce, JL, Morton, J, and Lyon, S

Abstract

Purpose: The emerging literature on computer-mediated communication at the study lacks depth in terms of elucidating the consequences of the effects of incivility on employees. This study aims to compare face-to-face incivility with incivility encountered via e-mail on both task performance and performance evaluation. Design/methodology/approach: In two experimental studies, the authors test whether exposure to incivility via e-mail reduces individual task performance beyond that of face-to-face incivility and weather exposure to that incivility results in lower performance evaluations for third-parties. Findings: The authors show that being exposed to cyber incivility does decrease performance on a subsequent task. The authors also find that exposure to rudeness, both face-to-face and via e-mail, is contagious and results in lower performance evaluation scores for an uninvolved third party. Originality/value: This research comprises an empirically grounded study of incivility in the context of e-mail at study, highlights distinctions between it and face-to-face rudeness and reveals the potential risks that cyber incivility poses for employees.

Published

2020

8. Wetlands as large-scale nature-based solutions : Status and challenges for research, engineering and management

Author

Thorslund, J., Jarsjo, J., Jaramillo, F., Jawitz, J. W., Manzoni, S., Basu, N. B., Chalov, S. R., Cohen, M. J., Creed, I. F., Goldenberg, R., Hylin, A., Kalantari, Z., Koussis, A. D., Lyon, S. W., Mazi, K., Mard, J., Persson, K., Pietro, J., Prieto, C., Quin, A., Van Meter, K., Destouni, G., Thorslund, J., Jarsjo, J., Jaramillo, F., Jawitz, J. W., Manzoni, S., Basu, N. B., Chalov, S. R., Cohen, M. J., Creed, I. F., Goldenberg, R., Hylin, A., Kalantari, Z., Koussis, A. D., Lyon, S. W., Mazi, K., Mard, J., Persson, K., Pietro, J., Prieto, C., Quin, A., Van Meter, K., and Destouni, G.

Abstract

QC 20210112

Published

2017

9. Characterization of 475 degrees C Embrittlement of Duplex Stainless Steel Microstructure via Scanning Kelvin Probe Force Microscopy and Magnetic Force Microscopy

Author

Örnek, Cem, Walton, J., Hashimoto, T., Ladwein, T. L., Lyon, S. B., Engelberg, D. L., Örnek, Cem, Walton, J., Hashimoto, T., Ladwein, T. L., Lyon, S. B., and Engelberg, D. L.

Abstract

Scanning Kelvin probe force microscopy (SKPFM) measured local Volta potentials in microstructure of 22Cr-5Ni duplex stainless steel have been correlated to microstructure development with aging treatments at 475 degrees C. Magnetic force microscopy (MFM) was employed to differentiate crystallographic phases to provide complementary information. The absolute Volta potentials of both ferrite and austenite increased after 5 hours of aging, indicating electrochemical ennoblement of the entire microstructure. Longer aging resulted in a gradual decrease of measured Volta potentials in both phases. The microstructure showed after 255 hours aging up to 2.5-times larger potential differences than in the as-received condition, indicating impaired electrochemical nobility. In the as-received microstructure, the ferrite phase was less noble than the austenite, whereas after 5 hours aging both phases had similar, balanced Volta potentials which indicated a balanced nobility of ferrite and austenite. Longer aging treatment caused severe loss of nobility for the entiremicrostructure, with ferrite showing larger changes in Volta potential than the austenite. Spinodal microstructure decomposition and associated phase reactions of the ferrite, with elemental redistribution in the austenite, are the reason for the observed changes in microstructure nobility., QC 20170609

Published

2017

10. Geophysical mapping of palsa peatland permafrost

Author

Sjoberg, Y., Marklund, P., Pettersson, Rickard, Lyon, S. W., Sjoberg, Y., Marklund, P., Pettersson, Rickard, and Lyon, S. W.

Abstract

Permafrost peatlands are hydrological and biogeochemical hotspots in the discontinuous permafrost zone. Non-intrusive geophysical methods offer a possibility to map current permafrost spatial distributions in these environments. In this study, we estimate the depths to the permafrost table and base across a peatland in northern Sweden, using ground penetrating radar and electrical resistivity tomography. Seasonal thaw frost tables (at similar to 0.5 m depth), taliks (2.1-6.7 m deep), and the permafrost base (at similar to 16 m depth) could be detected. Higher occurrences of taliks were discovered at locations with a lower relative height of permafrost landforms, which is indicative of lower ground ice content at these locations. These results highlight the added value of combining geophysical techniques for assessing spatial distributions of permafrost within the rapidly changing sporadic permafrost zone. For example, based on a back-of-the-envelope calculation for the site considered here, we estimated that the permafrost could thaw completely within the next 3 centuries. Thus there is a clear need to benchmark current permafrost distributions and characteristics, particularly in under studied regions of the pan-Arctic.

Published

2015

11. Geophysical mapping of palsa peatland permafrost

Author

Sjoberg, Y., Marklund, P., Pettersson, Rickard, Lyon, S. W., Sjoberg, Y., Marklund, P., Pettersson, Rickard, and Lyon, S. W.

Abstract

Permafrost peatlands are hydrological and biogeochemical hotspots in the discontinuous permafrost zone. Non-intrusive geophysical methods offer a possibility to map current permafrost spatial distributions in these environments. In this study, we estimate the depths to the permafrost table and base across a peatland in northern Sweden, using ground penetrating radar and electrical resistivity tomography. Seasonal thaw frost tables (at similar to 0.5 m depth), taliks (2.1-6.7 m deep), and the permafrost base (at similar to 16 m depth) could be detected. Higher occurrences of taliks were discovered at locations with a lower relative height of permafrost landforms, which is indicative of lower ground ice content at these locations. These results highlight the added value of combining geophysical techniques for assessing spatial distributions of permafrost within the rapidly changing sporadic permafrost zone. For example, based on a back-of-the-envelope calculation for the site considered here, we estimated that the permafrost could thaw completely within the next 3 centuries. Thus there is a clear need to benchmark current permafrost distributions and characteristics, particularly in under studied regions of the pan-Arctic.

Published

2015

12. Geophysical mapping of palsa peatland permafrost

Author

Sjoberg, Y., Marklund, P., Pettersson, Rickard, Lyon, S. W., Sjoberg, Y., Marklund, P., Pettersson, Rickard, and Lyon, S. W.

Abstract

Permafrost peatlands are hydrological and biogeochemical hotspots in the discontinuous permafrost zone. Non-intrusive geophysical methods offer a possibility to map current permafrost spatial distributions in these environments. In this study, we estimate the depths to the permafrost table and base across a peatland in northern Sweden, using ground penetrating radar and electrical resistivity tomography. Seasonal thaw frost tables (at similar to 0.5 m depth), taliks (2.1-6.7 m deep), and the permafrost base (at similar to 16 m depth) could be detected. Higher occurrences of taliks were discovered at locations with a lower relative height of permafrost landforms, which is indicative of lower ground ice content at these locations. These results highlight the added value of combining geophysical techniques for assessing spatial distributions of permafrost within the rapidly changing sporadic permafrost zone. For example, based on a back-of-the-envelope calculation for the site considered here, we estimated that the permafrost could thaw completely within the next 3 centuries. Thus there is a clear need to benchmark current permafrost distributions and characteristics, particularly in under studied regions of the pan-Arctic.

Published

2015

13. Laser vision : lidar as a transformative tool to advance critical zone science

Author

Harpold, A. A., Marshall, J. A., Lyon, S. W., Barnhart, T. B., Fisher, B. A., Donovan, M., Brubaker, K. M., Crosby, C. J., Glenn, N. F., Glennie, C. L., Kirchner, P. B., Lam, N., Mankoff, Kenneth D., McCreight, J. L., Molotch, N. P., Musselman, K. N., Pelletier, J., Russo, T., Sangireddy, H., Sjooberg, Y., Swetnam, T., West, N., Harpold, A. A., Marshall, J. A., Lyon, S. W., Barnhart, T. B., Fisher, B. A., Donovan, M., Brubaker, K. M., Crosby, C. J., Glenn, N. F., Glennie, C. L., Kirchner, P. B., Lam, N., Mankoff, Kenneth D., McCreight, J. L., Molotch, N. P., Musselman, K. N., Pelletier, J., Russo, T., Sangireddy, H., Sjooberg, Y., Swetnam, T., and West, N.

Abstract

© The Author(s), 2015. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Hydrology and Earth System Sciences 19 (2015): 2881-2897, doi:10.5194/hess-19-2881-2015., Observation and quantification of the Earth's surface is undergoing a revolutionary change due to the increased spatial resolution and extent afforded by light detection and ranging (lidar) technology. As a consequence, lidar-derived information has led to fundamental discoveries within the individual disciplines of geomorphology, hydrology, and ecology. These disciplines form the cornerstones of critical zone (CZ) science, where researchers study how interactions among the geosphere, hydrosphere, and biosphere shape and maintain the "zone of life", which extends from the top of unweathered bedrock to the top of the vegetation canopy. Fundamental to CZ science is the development of transdisciplinary theories and tools that transcend disciplines and inform other's work, capture new levels of complexity, and create new intellectual outcomes and spaces. Researchers are just beginning to use lidar data sets to answer synergistic, transdisciplinary questions in CZ science, such as how CZ processes co-evolve over long timescales and interact over shorter timescales to create thresholds, shifts in states and fluxes of water, energy, and carbon. The objective of this review is to elucidate the transformative potential of lidar for CZ science to simultaneously allow for quantification of topographic, vegetative, and hydrological processes. A review of 147 peer-reviewed lidar studies highlights a lack of lidar applications for CZ studies as 38 % of the studies were focused in geomorphology, 18 % in hydrology, 32 % in ecology, and the remaining 12 % had an interdisciplinary focus. A handful of exemplar transdisciplinary studies demonstrate lidar data sets that are well-integrated with other observations can lead to fundamental advances in CZ science, such as identification of feedbacks between hydrological and ecological processes over hillslope scales and the synergistic co-evolution of landscape-scale CZ structure due to interactions amongst carbon, energy, and water cycles., The workshop forming the impetus for this paper was funded by the National Science Foundation (EAR 1406031). Additional funding for the workshop and planning was provided to S. W. Lyon by the Swedish Foundation for International Cooperation in Research and Higher Education (STINT grant no. 2013-5261). A. A. Harpold was supported by an NSF fellowship (EAR 1144894).

Published

2015

14. Corrigendum to 'Laser vision: lidar as a transformative tool to advance critical zone science' published in Hydrol. Earth Syst. Sci., 19, 2881–2897, 2015

Author

Harpold, A. A., Marshall, J. A., Lyon, S. W., Barnhart, T. B., Fisher, B. A., Donovan, M., Brubaker, K. M., Crosby, C. J., Glenn, N. F., Glennie, C. L., Kirchner, P. B., Lam, N., Mankoff, Kenneth D., McCreight, J. L., Molotch, N. P., Musselman, K. N., Pelletier, J., Russo, T., Sangireddy, H., Sjooberg, Y., Swetnam, N., Harpold, A. A., Marshall, J. A., Lyon, S. W., Barnhart, T. B., Fisher, B. A., Donovan, M., Brubaker, K. M., Crosby, C. J., Glenn, N. F., Glennie, C. L., Kirchner, P. B., Lam, N., Mankoff, Kenneth D., McCreight, J. L., Molotch, N. P., Musselman, K. N., Pelletier, J., Russo, T., Sangireddy, H., Sjooberg, Y., and Swetnam, N.

Abstract

© The Author(s), 2015. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Hydrology and Earth System Sciences 19 (2015): 2943, doi:10.5194/hess-19-2943-2015.

Published

2015

15. Laser vision : lidar as a transformative tool to advance critical zone science

Author

Harpold, A. A., Marshall, J. A., Lyon, S. W., Barnhart, T. B., Fisher, B. A., Donovan, M., Brubaker, K. M., Crosby, C. J., Glenn, N. F., Glennie, C. L., Kirchner, P. B., Lam, N., Mankoff, Kenneth D., McCreight, J. L., Molotch, N. P., Musselman, K. N., Pelletier, J., Russo, T., Sangireddy, H., Sjooberg, Y., Swetnam, T., West, N., Harpold, A. A., Marshall, J. A., Lyon, S. W., Barnhart, T. B., Fisher, B. A., Donovan, M., Brubaker, K. M., Crosby, C. J., Glenn, N. F., Glennie, C. L., Kirchner, P. B., Lam, N., Mankoff, Kenneth D., McCreight, J. L., Molotch, N. P., Musselman, K. N., Pelletier, J., Russo, T., Sangireddy, H., Sjooberg, Y., Swetnam, T., and West, N.

Abstract

© The Author(s), 2015. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Hydrology and Earth System Sciences 19 (2015): 2881-2897, doi:10.5194/hess-19-2881-2015., Observation and quantification of the Earth's surface is undergoing a revolutionary change due to the increased spatial resolution and extent afforded by light detection and ranging (lidar) technology. As a consequence, lidar-derived information has led to fundamental discoveries within the individual disciplines of geomorphology, hydrology, and ecology. These disciplines form the cornerstones of critical zone (CZ) science, where researchers study how interactions among the geosphere, hydrosphere, and biosphere shape and maintain the "zone of life", which extends from the top of unweathered bedrock to the top of the vegetation canopy. Fundamental to CZ science is the development of transdisciplinary theories and tools that transcend disciplines and inform other's work, capture new levels of complexity, and create new intellectual outcomes and spaces. Researchers are just beginning to use lidar data sets to answer synergistic, transdisciplinary questions in CZ science, such as how CZ processes co-evolve over long timescales and interact over shorter timescales to create thresholds, shifts in states and fluxes of water, energy, and carbon. The objective of this review is to elucidate the transformative potential of lidar for CZ science to simultaneously allow for quantification of topographic, vegetative, and hydrological processes. A review of 147 peer-reviewed lidar studies highlights a lack of lidar applications for CZ studies as 38 % of the studies were focused in geomorphology, 18 % in hydrology, 32 % in ecology, and the remaining 12 % had an interdisciplinary focus. A handful of exemplar transdisciplinary studies demonstrate lidar data sets that are well-integrated with other observations can lead to fundamental advances in CZ science, such as identification of feedbacks between hydrological and ecological processes over hillslope scales and the synergistic co-evolution of landscape-scale CZ structure due to interactions amongst carbon, energy, and water cycles., The workshop forming the impetus for this paper was funded by the National Science Foundation (EAR 1406031). Additional funding for the workshop and planning was provided to S. W. Lyon by the Swedish Foundation for International Cooperation in Research and Higher Education (STINT grant no. 2013-5261). A. A. Harpold was supported by an NSF fellowship (EAR 1144894).

Published

2015

16. Geophysical mapping of palsa peatland permafrost

Author

Sjoberg, Y., Marklund, P., Pettersson, Rickard, Lyon, S. W., Sjoberg, Y., Marklund, P., Pettersson, Rickard, and Lyon, S. W.

Abstract

Permafrost peatlands are hydrological and biogeochemical hotspots in the discontinuous permafrost zone. Non-intrusive geophysical methods offer a possibility to map current permafrost spatial distributions in these environments. In this study, we estimate the depths to the permafrost table and base across a peatland in northern Sweden, using ground penetrating radar and electrical resistivity tomography. Seasonal thaw frost tables (at similar to 0.5 m depth), taliks (2.1-6.7 m deep), and the permafrost base (at similar to 16 m depth) could be detected. Higher occurrences of taliks were discovered at locations with a lower relative height of permafrost landforms, which is indicative of lower ground ice content at these locations. These results highlight the added value of combining geophysical techniques for assessing spatial distributions of permafrost within the rapidly changing sporadic permafrost zone. For example, based on a back-of-the-envelope calculation for the site considered here, we estimated that the permafrost could thaw completely within the next 3 centuries. Thus there is a clear need to benchmark current permafrost distributions and characteristics, particularly in under studied regions of the pan-Arctic.

Published

2015

17. Laser vision:lidar as a transformative tool to advance critical zone science

Author

Harpold, A. A., Marshall, J. A., Lyon, S. W., Barnhart, T. B., Fisher, B. A., Donovan, M., Brubaker, K. M., Crosby, C. J., Glenn, N. F., Glennie, C. L., Kirchner, P. B., Lam, N., Mankoff, K. D., McCreight, J. L., Molotch, N. P., Musselman, K. N., Pelletier, J., Russo, T., Sangireddy, H., Sjöberg, Y., Swetnam, T., West, N., Harpold, A. A., Marshall, J. A., Lyon, S. W., Barnhart, T. B., Fisher, B. A., Donovan, M., Brubaker, K. M., Crosby, C. J., Glenn, N. F., Glennie, C. L., Kirchner, P. B., Lam, N., Mankoff, K. D., McCreight, J. L., Molotch, N. P., Musselman, K. N., Pelletier, J., Russo, T., Sangireddy, H., Sjöberg, Y., Swetnam, T., and West, N.

Abstract

Observation and quantification of the Earth's surface is undergoing a revolutionary change due to the increased spatial resolution and extent afforded by light detection and ranging (lidar) technology. As a consequence, lidar-derived information has led to fundamental discoveries within the individual disciplines of geomorphology, hydrology, and ecology. These disciplines form the cornerstones of critical zone (CZ) science, where researchers study how interactions among the geosphere, hydrosphere, and biosphere shape and maintain the "zone of life", which extends from the top of unweathered bedrock to the top of the vegetation canopy. Fundamental to CZ science is the development of transdisciplinary theories and tools that transcend disciplines and inform other's work, capture new levels of complexity, and create new intellectual outcomes and spaces. Researchers are just beginning to use lidar data sets to answer synergistic, transdisciplinary questions in CZ science, such as how CZ processes co-evolve over long timescales and interact over shorter timescales to create thresholds, shifts in states and fluxes of water, energy, and carbon. The objective of this review is to elucidate the transformative potential of lidar for CZ science to simultaneously allow for quantification of topographic, vegetative, and hydrological processes. A review of 147 peer-reviewed lidar studies highlights a lack of lidar applications for CZ studies as 38% of the studies were focused in geomorphology, 18% in hydrology, 32% in ecology, and the remaining 12% had an interdisciplinary focus. A handful of exemplar transdisciplinary studies demonstrate lidar data sets that are well-integrated with other observations can lead to fundamental advances in CZ science, such as identification of feedbacks between hydrological and ecological processes over hillslope scales and the synergistic co-evolution of landscape-scale CZ structure due to interactions amongst carbon, energy, and water cycles.

Published

2015

18. Geophysical mapping of palsa peatland permafrost

Author

Sjöberg, Y., Marklund, P., Pettersson, R., Lyon, S. W., Sjöberg, Y., Marklund, P., Pettersson, R., and Lyon, S. W.

Abstract

Permafrost peatlands are hydrological and biogeochemical hotspots in the discontinuous permafrost zone. Non-intrusive geophysical methods offer a possibility to map current permafrost spatial distributions in these environments. In this study, we estimate the depths to the permafrost table and base across a peatland in northern Sweden, using ground penetrating radar and electrical resistivity tomography. Seasonal thaw frost tables (at ∼0.5 m depth), taliks (2.1-6.7 m deep), and the permafrost base (at ∼16 m depth) could be detected. Higher occurrences of taliks were discovered at locations with a lower relative height of permafrost landforms, which is indicative of lower ground ice content at these locations. These results highlight the added value of combining geophysical techniques for assessing spatial distributions of permafrost within the rapidly changing sporadic permafrost zone. For example, based on a back-of-the-envelope calculation for the site considered here, we estimated that the permafrost could thaw completely within the next 3 centuries. Thus there is a clear need to benchmark current permafrost distributions and characteristics, particularly in under studied regions of the pan-Arctic.

Published

2015

19. Geophysical mapping of palsa peatland permafrost

Author

Sjoberg, Y., Marklund, P., Pettersson, Rickard, Lyon, S. W., Sjoberg, Y., Marklund, P., Pettersson, Rickard, and Lyon, S. W.

Abstract

Permafrost peatlands are hydrological and biogeochemical hotspots in the discontinuous permafrost zone. Non-intrusive geophysical methods offer a possibility to map current permafrost spatial distributions in these environments. In this study, we estimate the depths to the permafrost table and base across a peatland in northern Sweden, using ground penetrating radar and electrical resistivity tomography. Seasonal thaw frost tables (at similar to 0.5 m depth), taliks (2.1-6.7 m deep), and the permafrost base (at similar to 16 m depth) could be detected. Higher occurrences of taliks were discovered at locations with a lower relative height of permafrost landforms, which is indicative of lower ground ice content at these locations. These results highlight the added value of combining geophysical techniques for assessing spatial distributions of permafrost within the rapidly changing sporadic permafrost zone. For example, based on a back-of-the-envelope calculation for the site considered here, we estimated that the permafrost could thaw completely within the next 3 centuries. Thus there is a clear need to benchmark current permafrost distributions and characteristics, particularly in under studied regions of the pan-Arctic.

Published

2015

20. Laser vision:lidar as a transformative tool to advance critical zone science

Author

Harpold, A. A., Marshall, J. A., Lyon, S. W., Barnhart, T. B., Fisher, B. A., Donovan, M., Brubaker, K. M., Crosby, C. J., Glenn, N. F., Glennie, C. L., Kirchner, P. B., Lam, N., Mankoff, K. D., McCreight, J. L., Molotch, N. P., Musselman, K. N., Pelletier, J., Russo, T., Sangireddy, H., Sjöberg, Y., Swetnam, T., West, N., Harpold, A. A., Marshall, J. A., Lyon, S. W., Barnhart, T. B., Fisher, B. A., Donovan, M., Brubaker, K. M., Crosby, C. J., Glenn, N. F., Glennie, C. L., Kirchner, P. B., Lam, N., Mankoff, K. D., McCreight, J. L., Molotch, N. P., Musselman, K. N., Pelletier, J., Russo, T., Sangireddy, H., Sjöberg, Y., Swetnam, T., and West, N.

Abstract

Observation and quantification of the Earth's surface is undergoing a revolutionary change due to the increased spatial resolution and extent afforded by light detection and ranging (lidar) technology. As a consequence, lidar-derived information has led to fundamental discoveries within the individual disciplines of geomorphology, hydrology, and ecology. These disciplines form the cornerstones of critical zone (CZ) science, where researchers study how interactions among the geosphere, hydrosphere, and biosphere shape and maintain the "zone of life", which extends from the top of unweathered bedrock to the top of the vegetation canopy. Fundamental to CZ science is the development of transdisciplinary theories and tools that transcend disciplines and inform other's work, capture new levels of complexity, and create new intellectual outcomes and spaces. Researchers are just beginning to use lidar data sets to answer synergistic, transdisciplinary questions in CZ science, such as how CZ processes co-evolve over long timescales and interact over shorter timescales to create thresholds, shifts in states and fluxes of water, energy, and carbon. The objective of this review is to elucidate the transformative potential of lidar for CZ science to simultaneously allow for quantification of topographic, vegetative, and hydrological processes. A review of 147 peer-reviewed lidar studies highlights a lack of lidar applications for CZ studies as 38% of the studies were focused in geomorphology, 18% in hydrology, 32% in ecology, and the remaining 12% had an interdisciplinary focus. A handful of exemplar transdisciplinary studies demonstrate lidar data sets that are well-integrated with other observations can lead to fundamental advances in CZ science, such as identification of feedbacks between hydrological and ecological processes over hillslope scales and the synergistic co-evolution of landscape-scale CZ structure due to interactions amongst carbon, energy, and water cycles.

Published

2015

21. Geophysical mapping of palsa peatland permafrost

Author

Sjöberg, Y., Marklund, P., Pettersson, R., Lyon, S. W., Sjöberg, Y., Marklund, P., Pettersson, R., and Lyon, S. W.

Abstract

Permafrost peatlands are hydrological and biogeochemical hotspots in the discontinuous permafrost zone. Non-intrusive geophysical methods offer a possibility to map current permafrost spatial distributions in these environments. In this study, we estimate the depths to the permafrost table and base across a peatland in northern Sweden, using ground penetrating radar and electrical resistivity tomography. Seasonal thaw frost tables (at ∼0.5 m depth), taliks (2.1-6.7 m deep), and the permafrost base (at ∼16 m depth) could be detected. Higher occurrences of taliks were discovered at locations with a lower relative height of permafrost landforms, which is indicative of lower ground ice content at these locations. These results highlight the added value of combining geophysical techniques for assessing spatial distributions of permafrost within the rapidly changing sporadic permafrost zone. For example, based on a back-of-the-envelope calculation for the site considered here, we estimated that the permafrost could thaw completely within the next 3 centuries. Thus there is a clear need to benchmark current permafrost distributions and characteristics, particularly in under studied regions of the pan-Arctic.

Published

2015

22. Catchment-scale dissolved carbon concentrations and export estimates across six subarctic streams in northern Sweden

Author

Giesler, Reiner, Lyon, S. W., Morth, C-M, Karlsson, Jan, Karlsson, E. M., Jantze, E. J., Destouni, G., Humborg, C., Giesler, Reiner, Lyon, S. W., Morth, C-M, Karlsson, Jan, Karlsson, E. M., Jantze, E. J., Destouni, G., and Humborg, C.

Abstract

Climatic change is currently enhancing permafrost thawing and the flow of water through the landscape in subarctic and arctic catchments, with major consequences for the carbon export to aquatic ecosystems. We studied stream water carbon export in several tundra-dominated catchments in northern Sweden. There were clear seasonal differences in both dissolved organic carbon (DOC) and dissolved inorganic carbon (DIC) concentrations. The highest DOC concentrations occurred during the spring freshet while the highest DIC concentrations were always observed during winter baseflow conditions for the six catchments considered in this study. Long-term trends for the period 1982 to 2010 for one of the streams showed that DIC concentrations has increased by 9% during the 28 yr of measurement while no clear trend was found for DOC. Similar increasing trends were also found for conductivity, Ca and Mg. When trends were discretized into individual months, we found a significant linear increase in DIC concentrations with time for September, November and December. In these subarctic catchments, the annual mass of C exported as DIC was in the same order of magnitude as DOC; the average proportion of DIC to the total dissolved C exported was 61% for the six streams. Furthermore, there was a direct relationship between total runoff and annual dissolved carbon fluxes for these six catchments. These relationships were more prevalent for annual DIC exports than annual DOC exports in this region. Our results also highlight that both DOC and DIC can be important in high-latitude ecosystems. This is particularly relevant in environments where thawing permafrost and changes to subsurface ice due to global warming can influence stream water fluxes of C. The large proportion of stream water DIC flux also has implications on regional C budgets and needs to be considered in order to understand climate-induced feedback mechanisms across the landscape.

Published

2014

23. Catchment-scale dissolved carbon concentrations and export estimates across six subarctic streams in northern Sweden

Author

Giesler, Reiner, Lyon, S. W., Morth, C-M, Karlsson, Jan, Karlsson, E. M., Jantze, E. J., Destouni, G., Humborg, C., Giesler, Reiner, Lyon, S. W., Morth, C-M, Karlsson, Jan, Karlsson, E. M., Jantze, E. J., Destouni, G., and Humborg, C.

Abstract

Climatic change is currently enhancing permafrost thawing and the flow of water through the landscape in subarctic and arctic catchments, with major consequences for the carbon export to aquatic ecosystems. We studied stream water carbon export in several tundra-dominated catchments in northern Sweden. There were clear seasonal differences in both dissolved organic carbon (DOC) and dissolved inorganic carbon (DIC) concentrations. The highest DOC concentrations occurred during the spring freshet while the highest DIC concentrations were always observed during winter baseflow conditions for the six catchments considered in this study. Long-term trends for the period 1982 to 2010 for one of the streams showed that DIC concentrations has increased by 9% during the 28 yr of measurement while no clear trend was found for DOC. Similar increasing trends were also found for conductivity, Ca and Mg. When trends were discretized into individual months, we found a significant linear increase in DIC concentrations with time for September, November and December. In these subarctic catchments, the annual mass of C exported as DIC was in the same order of magnitude as DOC; the average proportion of DIC to the total dissolved C exported was 61% for the six streams. Furthermore, there was a direct relationship between total runoff and annual dissolved carbon fluxes for these six catchments. These relationships were more prevalent for annual DIC exports than annual DOC exports in this region. Our results also highlight that both DOC and DIC can be important in high-latitude ecosystems. This is particularly relevant in environments where thawing permafrost and changes to subsurface ice due to global warming can influence stream water fluxes of C. The large proportion of stream water DIC flux also has implications on regional C budgets and needs to be considered in order to understand climate-induced feedback mechanisms across the landscape.

Published

2014

24. Catchment-scale dissolved carbon concentrations and export estimates across six subarctic streams in northern Sweden

Author

Giesler, Reiner, Lyon, S. W., Morth, C-M, Karlsson, Jan, Karlsson, E. M., Jantze, E. J., Destouni, G., Humborg, C., Giesler, Reiner, Lyon, S. W., Morth, C-M, Karlsson, Jan, Karlsson, E. M., Jantze, E. J., Destouni, G., and Humborg, C.

Abstract

Climatic change is currently enhancing permafrost thawing and the flow of water through the landscape in subarctic and arctic catchments, with major consequences for the carbon export to aquatic ecosystems. We studied stream water carbon export in several tundra-dominated catchments in northern Sweden. There were clear seasonal differences in both dissolved organic carbon (DOC) and dissolved inorganic carbon (DIC) concentrations. The highest DOC concentrations occurred during the spring freshet while the highest DIC concentrations were always observed during winter baseflow conditions for the six catchments considered in this study. Long-term trends for the period 1982 to 2010 for one of the streams showed that DIC concentrations has increased by 9% during the 28 yr of measurement while no clear trend was found for DOC. Similar increasing trends were also found for conductivity, Ca and Mg. When trends were discretized into individual months, we found a significant linear increase in DIC concentrations with time for September, November and December. In these subarctic catchments, the annual mass of C exported as DIC was in the same order of magnitude as DOC; the average proportion of DIC to the total dissolved C exported was 61% for the six streams. Furthermore, there was a direct relationship between total runoff and annual dissolved carbon fluxes for these six catchments. These relationships were more prevalent for annual DIC exports than annual DOC exports in this region. Our results also highlight that both DOC and DIC can be important in high-latitude ecosystems. This is particularly relevant in environments where thawing permafrost and changes to subsurface ice due to global warming can influence stream water fluxes of C. The large proportion of stream water DIC flux also has implications on regional C budgets and needs to be considered in order to understand climate-induced feedback mechanisms across the landscape.

Published

2014

25. Stark shift and field ionization of arsenic donors in 28Si-silicon-on-insulator structures

Author

Lo, C. C., Lo Nardo, R., Simmons, S., Weis, C. D., Tyryshkin, A. M., Meijer, Jan Berend, Rogalla, D., Lyon, S. A., Bokor, J., Schenkel, T., Morton, J. J. L., Lo, C. C., Lo Nardo, R., Simmons, S., Weis, C. D., Tyryshkin, A. M., Meijer, Jan Berend, Rogalla, D., Lyon, S. A., Bokor, J., Schenkel, T., and Morton, J. J. L.

Abstract

We develop an efficient back gate for silicon-on-insulator (SOI) devices operating at cryogenic temperatures and measure the quadratic hyperfine Stark shift parameter of arsenic donors in isotopically purified 28Si-SOI layers using such structures. The back gate is implemented using MeV ion implantation through the SOI layer forming a metallic electrode in the handle wafer, enabling large and uniform electric fields up to 2V/lm to be applied across the SOI layer. Utilizing this structure, we measure the Stark shift parameters of arsenic donors embedded in the 28Si-SOI layer and find a contact hyperfine Stark parameter of na=-1.9+/-0.7x10-3 lm2/V2. We also demonstrate electric-field driven dopant ionization in the SOI device layer, measured by electron spin resonance.

Published

2014

26. Stark shift and field ionization of arsenic donors in 28Si-silicon-on-insulator structures

Author

Lo, C. C., Lo Nardo, R., Simmons, S., Weis, C. D., Tyryshkin, A. M., Meijer, Jan Berend, Rogalla, D., Lyon, S. A., Bokor, J., Schenkel, T., Morton, J. J. L., Lo, C. C., Lo Nardo, R., Simmons, S., Weis, C. D., Tyryshkin, A. M., Meijer, Jan Berend, Rogalla, D., Lyon, S. A., Bokor, J., Schenkel, T., and Morton, J. J. L.

Abstract

We develop an efficient back gate for silicon-on-insulator (SOI) devices operating at cryogenic temperatures and measure the quadratic hyperfine Stark shift parameter of arsenic donors in isotopically purified 28Si-SOI layers using such structures. The back gate is implemented using MeV ion implantation through the SOI layer forming a metallic electrode in the handle wafer, enabling large and uniform electric fields up to 2V/lm to be applied across the SOI layer. Utilizing this structure, we measure the Stark shift parameters of arsenic donors embedded in the 28Si-SOI layer and find a contact hyperfine Stark parameter of na=-1.9+/-0.7x10-3 lm2/V2. We also demonstrate electric-field driven dopant ionization in the SOI device layer, measured by electron spin resonance.

Published

2014

27. Stark shift and field ionization of arsenic donors in 28Si-silicon-on-insulator structures

Author

Lo, C. C., Lo Nardo, R., Simmons, S., Weis, C. D., Tyryshkin, A. M., Meijer, Jan Berend, Rogalla, D., Lyon, S. A., Bokor, J., Schenkel, T., Morton, J. J. L., Lo, C. C., Lo Nardo, R., Simmons, S., Weis, C. D., Tyryshkin, A. M., Meijer, Jan Berend, Rogalla, D., Lyon, S. A., Bokor, J., Schenkel, T., and Morton, J. J. L.

Abstract

We develop an efficient back gate for silicon-on-insulator (SOI) devices operating at cryogenic temperatures and measure the quadratic hyperfine Stark shift parameter of arsenic donors in isotopically purified 28Si-SOI layers using such structures. The back gate is implemented using MeV ion implantation through the SOI layer forming a metallic electrode in the handle wafer, enabling large and uniform electric fields up to 2V/lm to be applied across the SOI layer. Utilizing this structure, we measure the Stark shift parameters of arsenic donors embedded in the 28Si-SOI layer and find a contact hyperfine Stark parameter of na=-1.9+/-0.7x10-3 lm2/V2. We also demonstrate electric-field driven dopant ionization in the SOI device layer, measured by electron spin resonance.

Published

2014

28. Stark shift and field ionization of arsenic donors in 28Si-silicon-on-insulator structures

Author

Lo, C. C., Lo Nardo, R., Simmons, S., Weis, C. D., Tyryshkin, A. M., Meijer, Jan Berend, Rogalla, D., Lyon, S. A., Bokor, J., Schenkel, T., Morton, J. J. L., Lo, C. C., Lo Nardo, R., Simmons, S., Weis, C. D., Tyryshkin, A. M., Meijer, Jan Berend, Rogalla, D., Lyon, S. A., Bokor, J., Schenkel, T., and Morton, J. J. L.

Abstract

We develop an efficient back gate for silicon-on-insulator (SOI) devices operating at cryogenic temperatures and measure the quadratic hyperfine Stark shift parameter of arsenic donors in isotopically purified 28Si-SOI layers using such structures. The back gate is implemented using MeV ion implantation through the SOI layer forming a metallic electrode in the handle wafer, enabling large and uniform electric fields up to 2V/lm to be applied across the SOI layer. Utilizing this structure, we measure the Stark shift parameters of arsenic donors embedded in the 28Si-SOI layer and find a contact hyperfine Stark parameter of na=-1.9+/-0.7x10-3 lm2/V2. We also demonstrate electric-field driven dopant ionization in the SOI device layer, measured by electron spin resonance.

Published

2014

29. Catchment-scale dissolved carbon concentrations and export estimates across six subarctic streams in northern Sweden

Author

Giesler, Reiner, Lyon, S. W., Morth, C-M, Karlsson, Jan, Karlsson, E. M., Jantze, E. J., Destouni, G., Humborg, C., Giesler, Reiner, Lyon, S. W., Morth, C-M, Karlsson, Jan, Karlsson, E. M., Jantze, E. J., Destouni, G., and Humborg, C.

Abstract

Climatic change is currently enhancing permafrost thawing and the flow of water through the landscape in subarctic and arctic catchments, with major consequences for the carbon export to aquatic ecosystems. We studied stream water carbon export in several tundra-dominated catchments in northern Sweden. There were clear seasonal differences in both dissolved organic carbon (DOC) and dissolved inorganic carbon (DIC) concentrations. The highest DOC concentrations occurred during the spring freshet while the highest DIC concentrations were always observed during winter baseflow conditions for the six catchments considered in this study. Long-term trends for the period 1982 to 2010 for one of the streams showed that DIC concentrations has increased by 9% during the 28 yr of measurement while no clear trend was found for DOC. Similar increasing trends were also found for conductivity, Ca and Mg. When trends were discretized into individual months, we found a significant linear increase in DIC concentrations with time for September, November and December. In these subarctic catchments, the annual mass of C exported as DIC was in the same order of magnitude as DOC; the average proportion of DIC to the total dissolved C exported was 61% for the six streams. Furthermore, there was a direct relationship between total runoff and annual dissolved carbon fluxes for these six catchments. These relationships were more prevalent for annual DIC exports than annual DOC exports in this region. Our results also highlight that both DOC and DIC can be important in high-latitude ecosystems. This is particularly relevant in environments where thawing permafrost and changes to subsurface ice due to global warming can influence stream water fluxes of C. The large proportion of stream water DIC flux also has implications on regional C budgets and needs to be considered in order to understand climate-induced feedback mechanisms across the landscape.

Published

2014

30. Celebrating 40 years of progress in bone marrow transplantation: a report from the 40th Annual Meeting of the European Society for Blood and Marrow Transplantation

Author

Pagano, Livio, Lyon, S., Pagano, Livio (ORCID:0000-0001-8287-928X), Pagano, Livio, Lyon, S., and Pagano, Livio (ORCID:0000-0001-8287-928X)

Abstract

The European Society for Blood and Marrow Transplantation was established in 1974 to enable scientists and physicians involved in clinical bone marrow transplantation to share their experience and develop cooperative studies. The organization celebrated its 40th anniversary with a meeting that considered hematopoietic stem cell transplantation not as a standalone procedure, but as part of a complex therapeutic program managed by a multidisciplinary professional team. The role of antifungal prophylaxis, emerging resistance in Aspergillus, the management of mucormycosis and new guidelines on antifungal therapy were among the topics discussed by the physicians, nurses, allied health professionals and scientists attending the 40th Annual Meeting of the European Society for Blood and Marrow Transplantation.

Published

2014

31. Catchment-scale dissolved carbon concentrations and export estimates across six subarctic streams in northern Sweden

Author

Giesler, Reiner, Lyon, S. W., Morth, C-M, Karlsson, Jan, Karlsson, E. M., Jantze, E. J., Destouni, G., Humborg, C., Giesler, Reiner, Lyon, S. W., Morth, C-M, Karlsson, Jan, Karlsson, E. M., Jantze, E. J., Destouni, G., and Humborg, C.

Abstract

Climatic change is currently enhancing permafrost thawing and the flow of water through the landscape in subarctic and arctic catchments, with major consequences for the carbon export to aquatic ecosystems. We studied stream water carbon export in several tundra-dominated catchments in northern Sweden. There were clear seasonal differences in both dissolved organic carbon (DOC) and dissolved inorganic carbon (DIC) concentrations. The highest DOC concentrations occurred during the spring freshet while the highest DIC concentrations were always observed during winter baseflow conditions for the six catchments considered in this study. Long-term trends for the period 1982 to 2010 for one of the streams showed that DIC concentrations has increased by 9% during the 28 yr of measurement while no clear trend was found for DOC. Similar increasing trends were also found for conductivity, Ca and Mg. When trends were discretized into individual months, we found a significant linear increase in DIC concentrations with time for September, November and December. In these subarctic catchments, the annual mass of C exported as DIC was in the same order of magnitude as DOC; the average proportion of DIC to the total dissolved C exported was 61% for the six streams. Furthermore, there was a direct relationship between total runoff and annual dissolved carbon fluxes for these six catchments. These relationships were more prevalent for annual DIC exports than annual DOC exports in this region. Our results also highlight that both DOC and DIC can be important in high-latitude ecosystems. This is particularly relevant in environments where thawing permafrost and changes to subsurface ice due to global warming can influence stream water fluxes of C. The large proportion of stream water DIC flux also has implications on regional C budgets and needs to be considered in order to understand climate-induced feedback mechanisms across the landscape.

Published

2014

32. Riparian zone hydrology and soil water total organic carbon (TOC) : implications for spatial variability and upscaling of lateral riparian TOC exports

Author

Grabs, Thomas, Bishop, Kevin, Laudon, H., Lyon, S. W., Seibert, Jan, Grabs, Thomas, Bishop, Kevin, Laudon, H., Lyon, S. W., and Seibert, Jan

Abstract

Groundwater flowing from hillslopes through riparian (near-stream) soils often undergoes chemical transformations that can substantially influence stream water chemistry. We used landscape analysis to predict total organic carbon (TOC) concentration profiles and groundwater levels measured in the riparian zone (RZ) of a 67 km2 catchment in Sweden. TOC exported laterally from 13 riparian soil profiles was then estimated based on the riparian flow-concentration integration model (RIM). Much of the observed spatial variability of riparian TOC concentrations in this system could be predicted from groundwater levels and the topographic wetness index (TWI). Organic riparian peat soils in forested areas emerged as hotspots exporting large amounts of TOC. These TOC fluxes were subject to considerable temporal variations caused by a combination of variable flow conditions and changing soil water TOC concentrations. Mineral riparian gley soils, on the other hand, were related to rather small TOC export rates and were characterized by relatively time-invariant TOC concentration profiles. Organic and mineral soils in RZs constitute a heterogeneous landscape mosaic that potentially controls much of the spatial variability of stream water TOC. We developed an empirical regression model based on the TWI to move beyond the plot scale and to predict spatially variable riparian TOC concentration profiles for RZs underlain by glacial till.

Published

2012

33. Trials of vertebroplasty for vertebral fractures.

Author

Burnes J., Clark W., Lyon S., Burnes J., Clark W., and Lyon S.

Published

2012

34. Riparian zone hydrology and soil water total organic carbon (TOC): implications for spatial variability and upscaling of lateral riparian TOC exports

Author

Grabs, T, Bishop, K, Laudon, H, Lyon, S W, Seibert, Jan; https://orcid.org/0000-0002-6314-2124, Grabs, T, Bishop, K, Laudon, H, Lyon, S W, and Seibert, Jan; https://orcid.org/0000-0002-6314-2124

Abstract

Groundwater flowing from hillslopes through riparian (near-stream) soils often undergoes chemical transformations that can substantially influence stream water chemistry. We used landscape analysis to predict total organic carbon (TOC) concentration profiles and groundwater levels measured in the riparian zone (RZ) of a 67 km2 catchment in Sweden. TOC exported laterally from 13 riparian soil profiles was then estimated based on the riparian flow–concentration integration model (RIM). Much of the observed spatial variability of riparian TOC concentrations in this system could be predicted from groundwater levels and the topographic wetness index (TWI). Organic riparian peat soils in forested areas emerged as hotspots exporting large amounts of TOC. These TOC fluxes were subject to considerable temporal variations caused by a combination of variable flow conditions and changing soil water TOC concentrations. Mineral riparian gley soils, on the other hand, were related to rather small TOC export rates and were characterized by relatively time-invariant TOC concentration profiles. Organic and mineral soils in RZs constitute a heterogeneous landscape mosaic that potentially controls much of the spatial variability of stream water TOC. We developed an empirical regression model based on the TWI to move beyond the plot scale and to predict spatially variable riparian TOC concentration profiles for RZs underlain by glacial till.

Published

2012

35. Variability of groundwater levels and total organic carbon in the riparian zone of a boreal catchment

Author

Lyon, S. W., Grabs, T., Laudon, H., Bishop, K. H., Seibert, J., Lyon, S. W., Grabs, T., Laudon, H., Bishop, K. H., and Seibert, J.

Abstract

The riparian zone is a narrow corridor where hillslopes (and their associated hydrobiogeochemical processes) interface with the river system. As such, the riparian zone serves as the last piece of landscape with which water interacts as it transitions from being water flowing primarily through the landscape (i.e., shallow groundwater) to water flowing primarily on the landscape (i.e., stream water). This study investigates the spatiotemporal variability in riparian-zone soil water total organic carbon (TOC) and its relation to the shallow groundwater table using observations from the recently instrumented riparian observatory in the Krycklan catchment study area located in boreal northern Sweden. In general, there is a decrease in TOC concentration with depth down through the soil profile. The rate of this decrease was variable among the six monthly samplings used in this study. The spatial variability of soil water TOC in the riparian zone was connected to the spatial variability of the shallow groundwater levels. This demonstrated the importance of the temporal variation of flow pathways and the mixing of waters from different sources of TOC moving into and through the riparian zone. The coupled variation of the hydrologic and biogeochemical systems raised questions about the ability of simple lumped approaches to accurately predict how in-stream TOC concentrations will change with climate and/or land use. The integrated sampling approach in the riparian observatory covers both hydrologic and biogeochemical aspects of soil water TOC and provides a basis for development and testing of distributed, physically based transport models., 727NY Times Cited:0 Cited References Count:49

Published

2011

36. Dissecting the variable source area – Four dimensional characterization of flow pathways and water mixing processes in VSAs

Author

Steenhuis, T., Dahlke, H., Easton, Z., Lyon, S., Destouni, G., Brown, L., Walte, T., Steenhuis, T., Dahlke, H., Easton, Z., Lyon, S., Destouni, G., Brown, L., and Walte, T.

Published

2011

37. Variability of groundwater levels and total organic carbon in the riparian zone of a boreal catchment

Author

Lyon, S W, Grabs, T, Laudon, H, Bishop, K H, Seibert, Jan; https://orcid.org/0000-0002-6314-2124, Lyon, S W, Grabs, T, Laudon, H, Bishop, K H, and Seibert, Jan; https://orcid.org/0000-0002-6314-2124

Abstract

The riparian zone is a narrow corridor where hillslopes (and their associated hydrobiogeochemical processes) interface with the river system. As such, the riparian zone serves as the last piece of landscape with which water interacts as it transitions from being water flowing primarily through the landscape (i.e., shallow groundwater) to water flowing primarily on the landscape (i.e., stream water). This study investigates the spatiotemporal variability in riparian-zone soil water total organic carbon (TOC) and its relation to the shallow groundwater table using observations from the recently instrumented riparian observatory in the Krycklan catchment study area located in boreal northern Sweden. In general, there is a decrease in TOC concentration with depth down through the soil profile. The rate of this decrease was variable among the six monthly samplings used in this study. The spatial variability of soil water TOC in the riparian zone was connected to the spatial variability of the shallow groundwater levels. This demonstrated the importance of the temporal variation of flow pathways and the mixing of waters from different sources of TOC moving into and through the riparian zone. The coupled variation of the hydrologic and biogeochemical systems raised questions about the ability of simple lumped approaches to accurately predict how in-stream TOC concentrations will change with climate and/or land use. The integrated sampling approach in the riparian observatory covers both hydrologic and biogeochemical aspects of soil water TOC and provides a basis for development and testing of distributed, physically based transport models.

Published

2011

38. How old is streamwater? : Open questions in catchment transit time conceptualization, modelling and analysis

Author

McDonnell, J. J., McGuire, K., Aggarwal, P., Beven, Keith, Biondi, D., Destouni, G., Dunn, S., James, A., Kirchner, J., Kraft, P., Lyon, S., Maloszewski, P., Newman, B., Pfister, L., Rinaldo, A., Rodhe, A., Seibert, J., Solomon, K., Soulsby, C., Stewart, M., Tetzlaff, D., Tobin, C., Troch, P., Weiler, M., Western, A., Worman, A., Wrede, S., McDonnell, J. J., McGuire, K., Aggarwal, P., Beven, Keith, Biondi, D., Destouni, G., Dunn, S., James, A., Kirchner, J., Kraft, P., Lyon, S., Maloszewski, P., Newman, B., Pfister, L., Rinaldo, A., Rodhe, A., Seibert, J., Solomon, K., Soulsby, C., Stewart, M., Tetzlaff, D., Tobin, C., Troch, P., Weiler, M., Western, A., Worman, A., and Wrede, S.

Published

2010

39. Using landscape characteristics to define an adjusted distance metric for improving kriging interpolations

Author

Lyon, S. W., Sorensen, R., Stendahl, J., Seibert, J., Lyon, S. W., Sorensen, R., Stendahl, J., and Seibert, J.

Abstract

Interpolation of point measurements using geostatistical techniques such as kriging can be used to estimate values at non-sampled locations in space. Traditional geostatistics are based on the spatial autocorrelation concept that nearby things are more related than distant things. In this study, additional information was used to modify the traditional Euclidean concept of distance into an adjusted distance metric that incorporates similarity in terms of quantifiable landscape characteristics such as topography or land use. This new approach was tested by interpolating soil moisture content, pH and carbon-tonitrogen (C:N) ratio measured in both the mineral and the organic soil layers at a field site in central Sweden. Semivariograms were created using both the traditional distance metrics and the proposed adjusted distance metrics to carry out ordinary kriging (OK) interpolations between sampling points. In addition, kriging with external drift (KED) was used to interpolate soil properties to evaluate the ability of the adjusted distance metric to incorporate secondary data into interpolations. The new adjusted distance metric typically lowered the nugget associated with the semivariogram, thereby better representing small-scale variability in the measured data compared to semivariograms based on the traditional distance metric. The pattern of the resulting kriging interpolations using KED and OK based on the adjusted distance metric were similar because they represented secondary data and, thus, enhanced small-scale variability compared to traditional distance OK. This created interpolations that agreed better with what is expected for the real-world spatial variation of the measured properties. Based on cross-validation error, OK interpolations using the adjusted distance metric better fit observed data than either OK interpolations using traditional distance or KED. © 2010 Taylor & Francis.

Published

2010

40. How old is streamwater? : Open questions in catchment transit time conceptualization, modelling and analysis

Author

McDonnell, J.J., McGuire, K., Aggarwal, P., Beven, K., Biondi, D., Destouni, G., Dunn, S., James, A., Kirchner, J., Kraft, P., Lyon, S., Maloszewski, P., Newman, B., Pfister, L., Rinaldo, A., Rodhe, A., Sayama, T., Seibert, J., Solomon, K., Soulsby, C., Stewart, M., Tetzlaff, D., Tobin, C., Troch, P., Weiler, M., Western, A., Wörman, Anders, Wrede, S., McDonnell, J.J., McGuire, K., Aggarwal, P., Beven, K., Biondi, D., Destouni, G., Dunn, S., James, A., Kirchner, J., Kraft, P., Lyon, S., Maloszewski, P., Newman, B., Pfister, L., Rinaldo, A., Rodhe, A., Sayama, T., Seibert, J., Solomon, K., Soulsby, C., Stewart, M., Tetzlaff, D., Tobin, C., Troch, P., Weiler, M., Western, A., Wörman, Anders, and Wrede, S.

Abstract

The time water spends travelling subsurface through a catchment to the stream network (i.e. the catchment water transit time) fundamentally describes the storage, flow pathway heterogeneity and sources of water in a catchment. The distribution of transit times reflects how catchments retain and release water and solutes that in turn set biogeochemical conditions and affect contamination release or persistence. Thus, quan- tifying the transit time distribution provides an important constraint on biogeochemical processes and catchment sensitivity to anthropogenic inputs, contamination and land-use change. Although the assumptions and limitations of past and present transit time modelling approaches have been recently reviewed (McGuire and McDonnell, 2006), there remain many fundamental research challenges for understanding how transit time can be used to quantify catchment flow processes and aid in the development and testing of rainfall–runoff models. In this Commen- tary study, we summarize what we think are the open research questions in transit time research. These thoughts come from a 3-day workshop in January 2009 at the International Atomic Energy Agency in Vienna. We attempt to lay out a roadmap for this work for the hydrological commu- nity over the next 10 years. We do this by first defining what we mean (qualitatively and quantitatively) by transit time and then organize our vision around needs in transit time theory, needs in field studies of tran- sit time and needs in rainfall – runoff modelling. Our goal in presenting this material is to encourage widespread use of transit time information in process studies to provide new insights to catchment function and to inform the structural development and testing of hydrologic models., QC 20120120

Published

2010

41. Controls on snowmelt water mean transit times in northern boreal catchments

Author

Lyon, S. W., Laudon, H., Seibert, Jan, Morth, M., Tetzlaff, D., Bishop, K. H., Lyon, S. W., Laudon, H., Seibert, Jan, Morth, M., Tetzlaff, D., and Bishop, K. H.

Abstract

Catchment-scale transit times for water are increasingly being recognized as an important control on geochemical processes. In this study, snowmelt water mean transit times (MTTs) were estimated for the 15 Krycklan research catchments in northern boreal Sweden. The snowmelt water MTTs were assumed to be representative of the catchment-scale hydrologic response during the spring thaw period and, as such, may be considered to be a component of the catchment's overall MTT. These snowmelt water MTTs were empirically related to catchment characteristics and landscape structure represented by using different indices of soil cover, topography and catchment similarity. Mire wetlands were shown to be significantly correlated to snowmelt MTTs for the studied catchments. In these wetlands, shallow ice layers form that have been shown to serve as impervious boundaries to vertical infiltration during snowmelt periods and, thus, alter the flow pathways of water in the landscape. Using a simple thought experiment, we could estimate the potential effect of thawing of ice layers on snowmelt hydrologic response using the empirical relationship between landscape structure (represented using a catchment-scale Pe number) and hydrologic response. The result of this thought experiment was that there could be a potential increase of 20-45% in catchment snowmelt water MTTs for the Krycklan experimental catchments. It is therefore possible that climatic changes present competing influences on the hydrologic response of northern boreal catchments that need to be considered. For example, MTTs may tend to decrease during some times of the year due to an acceleration in the hydrologic cycle, while they tend to increase MTTs during other times of the year due to shifts in hydrologic flow pathways. The balance between the competing influences on a catchment's MTT has consequences on climatic feedbacks as it could influence hydrological and biogeochemical cycles at the catchment scale for northern

Published

2010

42. How old is streamwater? Open questions in catchment transit time conceptualization, modelling and analysis

Author

McDonnell, J. J., McGuire, K., Aggarwal, P., Beven, K. J., Biondi, D., Destouni, G., Dunn, S., James, A., Kirchner, J., Kraft, P., Lyon, S., Maloszewski, P., Newman, B., Pfister, L., Rinaldo, A., Rodhe, A., Sayama, T., Seibert, J., Solomon, K., Soulsby, C., Stewart, M., Tetzlaff, D., Tobin, C., Troch, P., Weiler, M., Western, A., Worman, A., Wrede, S., McDonnell, J. J., McGuire, K., Aggarwal, P., Beven, K. J., Biondi, D., Destouni, G., Dunn, S., James, A., Kirchner, J., Kraft, P., Lyon, S., Maloszewski, P., Newman, B., Pfister, L., Rinaldo, A., Rodhe, A., Sayama, T., Seibert, J., Solomon, K., Soulsby, C., Stewart, M., Tetzlaff, D., Tobin, C., Troch, P., Weiler, M., Western, A., Worman, A., and Wrede, S.

Published

2010

43. Controls on snowmelt water mean transit times in northern boreal catchments

Author

Lyon, S. W., Laudon, H., Seibert, Jan, Morth, M., Tetzlaff, D., Bishop, K. H., Lyon, S. W., Laudon, H., Seibert, Jan, Morth, M., Tetzlaff, D., and Bishop, K. H.

Abstract

Catchment-scale transit times for water are increasingly being recognized as an important control on geochemical processes. In this study, snowmelt water mean transit times (MTTs) were estimated for the 15 Krycklan research catchments in northern boreal Sweden. The snowmelt water MTTs were assumed to be representative of the catchment-scale hydrologic response during the spring thaw period and, as such, may be considered to be a component of the catchment's overall MTT. These snowmelt water MTTs were empirically related to catchment characteristics and landscape structure represented by using different indices of soil cover, topography and catchment similarity. Mire wetlands were shown to be significantly correlated to snowmelt MTTs for the studied catchments. In these wetlands, shallow ice layers form that have been shown to serve as impervious boundaries to vertical infiltration during snowmelt periods and, thus, alter the flow pathways of water in the landscape. Using a simple thought experiment, we could estimate the potential effect of thawing of ice layers on snowmelt hydrologic response using the empirical relationship between landscape structure (represented using a catchment-scale Pe number) and hydrologic response. The result of this thought experiment was that there could be a potential increase of 20-45% in catchment snowmelt water MTTs for the Krycklan experimental catchments. It is therefore possible that climatic changes present competing influences on the hydrologic response of northern boreal catchments that need to be considered. For example, MTTs may tend to decrease during some times of the year due to an acceleration in the hydrologic cycle, while they tend to increase MTTs during other times of the year due to shifts in hydrologic flow pathways. The balance between the competing influences on a catchment's MTT has consequences on climatic feedbacks as it could influence hydrological and biogeochemical cycles at the catchment scale for northern

Published

2010

44. How old is streamwater? Open questions in catchment transit time conceptualization, modelling and analysis

Author

McDonnell, J. J., McGuire, K., Aggarwal, P., Beven, K. J., Biondi, D., Destouni, G., Dunn, S., James, A., Kirchner, J., Kraft, P., Lyon, S., Maloszewski, P., Newman, B., Pfister, L., Rinaldo, A., Rodhe, A., Sayama, T., Seibert, J., Solomon, K., Soulsby, C., Stewart, M., Tetzlaff, D., Tobin, C., Troch, P., Weiler, M., Western, A., Worman, A., Wrede, S., McDonnell, J. J., McGuire, K., Aggarwal, P., Beven, K. J., Biondi, D., Destouni, G., Dunn, S., James, A., Kirchner, J., Kraft, P., Lyon, S., Maloszewski, P., Newman, B., Pfister, L., Rinaldo, A., Rodhe, A., Sayama, T., Seibert, J., Solomon, K., Soulsby, C., Stewart, M., Tetzlaff, D., Tobin, C., Troch, P., Weiler, M., Western, A., Worman, A., and Wrede, S.

Published

2010

45. How old is streamwater? Open questions in catchment transit time conceptualization, modelling and analysis

Author

McDonnell, J. J., McGuire, K., Aggarwal, P., Beven, K. J., Biondi, D., Destouni, G., Dunn, S., James, A., Kirchner, J., Kraft, P., Lyon, S., Maloszewski, P., Newman, B., Pfister, L., Rinaldo, A., Rodhe, A., Sayama, T., Seibert, J., Solomon, K., Soulsby, C., Stewart, M., Tetzlaff, D., Tobin, C., Troch, P., Weiler, M., Western, A., Worman, A., Wrede, S., McDonnell, J. J., McGuire, K., Aggarwal, P., Beven, K. J., Biondi, D., Destouni, G., Dunn, S., James, A., Kirchner, J., Kraft, P., Lyon, S., Maloszewski, P., Newman, B., Pfister, L., Rinaldo, A., Rodhe, A., Sayama, T., Seibert, J., Solomon, K., Soulsby, C., Stewart, M., Tetzlaff, D., Tobin, C., Troch, P., Weiler, M., Western, A., Worman, A., and Wrede, S.

Published

2010

46. Controls on snowmelt water mean transit times in northern boreal catchments

Author

Lyon, S. W., Laudon, H., Seibert, Jan, Morth, M., Tetzlaff, D., Bishop, K. H., Lyon, S. W., Laudon, H., Seibert, Jan, Morth, M., Tetzlaff, D., and Bishop, K. H.

Abstract

Catchment-scale transit times for water are increasingly being recognized as an important control on geochemical processes. In this study, snowmelt water mean transit times (MTTs) were estimated for the 15 Krycklan research catchments in northern boreal Sweden. The snowmelt water MTTs were assumed to be representative of the catchment-scale hydrologic response during the spring thaw period and, as such, may be considered to be a component of the catchment's overall MTT. These snowmelt water MTTs were empirically related to catchment characteristics and landscape structure represented by using different indices of soil cover, topography and catchment similarity. Mire wetlands were shown to be significantly correlated to snowmelt MTTs for the studied catchments. In these wetlands, shallow ice layers form that have been shown to serve as impervious boundaries to vertical infiltration during snowmelt periods and, thus, alter the flow pathways of water in the landscape. Using a simple thought experiment, we could estimate the potential effect of thawing of ice layers on snowmelt hydrologic response using the empirical relationship between landscape structure (represented using a catchment-scale Pe number) and hydrologic response. The result of this thought experiment was that there could be a potential increase of 20-45% in catchment snowmelt water MTTs for the Krycklan experimental catchments. It is therefore possible that climatic changes present competing influences on the hydrologic response of northern boreal catchments that need to be considered. For example, MTTs may tend to decrease during some times of the year due to an acceleration in the hydrologic cycle, while they tend to increase MTTs during other times of the year due to shifts in hydrologic flow pathways. The balance between the competing influences on a catchment's MTT has consequences on climatic feedbacks as it could influence hydrological and biogeochemical cycles at the catchment scale for northern

Published

2010

47. Controls on snowmelt water mean transit times in northern boreal catchments

Author

Lyon, S. W., Laudon, H., Seibert, Jan, Morth, M., Tetzlaff, D., Bishop, K. H., Lyon, S. W., Laudon, H., Seibert, Jan, Morth, M., Tetzlaff, D., and Bishop, K. H.

Abstract

Catchment-scale transit times for water are increasingly being recognized as an important control on geochemical processes. In this study, snowmelt water mean transit times (MTTs) were estimated for the 15 Krycklan research catchments in northern boreal Sweden. The snowmelt water MTTs were assumed to be representative of the catchment-scale hydrologic response during the spring thaw period and, as such, may be considered to be a component of the catchment's overall MTT. These snowmelt water MTTs were empirically related to catchment characteristics and landscape structure represented by using different indices of soil cover, topography and catchment similarity. Mire wetlands were shown to be significantly correlated to snowmelt MTTs for the studied catchments. In these wetlands, shallow ice layers form that have been shown to serve as impervious boundaries to vertical infiltration during snowmelt periods and, thus, alter the flow pathways of water in the landscape. Using a simple thought experiment, we could estimate the potential effect of thawing of ice layers on snowmelt hydrologic response using the empirical relationship between landscape structure (represented using a catchment-scale Pe number) and hydrologic response. The result of this thought experiment was that there could be a potential increase of 20-45% in catchment snowmelt water MTTs for the Krycklan experimental catchments. It is therefore possible that climatic changes present competing influences on the hydrologic response of northern boreal catchments that need to be considered. For example, MTTs may tend to decrease during some times of the year due to an acceleration in the hydrologic cycle, while they tend to increase MTTs during other times of the year due to shifts in hydrologic flow pathways. The balance between the competing influences on a catchment's MTT has consequences on climatic feedbacks as it could influence hydrological and biogeochemical cycles at the catchment scale for northern

Published

2010

48. How old is streamwater? Open questions in catchment transit time conceptualization, modelling and analysis

Author

McDonnell, J. J., McGuire, K., Aggarwal, P., Beven, K. J., Biondi, D., Destouni, G., Dunn, S., James, A., Kirchner, J., Kraft, P., Lyon, S., Maloszewski, P., Newman, B., Pfister, L., Rinaldo, A., Rodhe, A., Sayama, T., Seibert, J., Solomon, K., Soulsby, C., Stewart, M., Tetzlaff, D., Tobin, C., Troch, P., Weiler, M., Western, A., Worman, A., Wrede, S., McDonnell, J. J., McGuire, K., Aggarwal, P., Beven, K. J., Biondi, D., Destouni, G., Dunn, S., James, A., Kirchner, J., Kraft, P., Lyon, S., Maloszewski, P., Newman, B., Pfister, L., Rinaldo, A., Rodhe, A., Sayama, T., Seibert, J., Solomon, K., Soulsby, C., Stewart, M., Tetzlaff, D., Tobin, C., Troch, P., Weiler, M., Western, A., Worman, A., and Wrede, S.

Published

2010

49. How old is streamwater?:Open questions in catchment transit time conceptualization, modelling and analysis

Author

McDonnell, J. J., McGuire, K., Aggarwal, P., Beven, K. J., Biondi, D., Destouni, G., Dunn, S., James, A., Kirchner, J., Kraft, P., Lyon, S., Maloszewski, P., Newman, B., Pfister, L., Rinaldo, A., Rodhe, A., Sayama, T., Seibert, J., Solomon, K., Soulsby, C., Stewart, M., Tetzlaff, D., Tobin, C., Troch, P., Weiler, M., Western, A., Worman, A., Wrede, S., McDonnell, J. J., McGuire, K., Aggarwal, P., Beven, K. J., Biondi, D., Destouni, G., Dunn, S., James, A., Kirchner, J., Kraft, P., Lyon, S., Maloszewski, P., Newman, B., Pfister, L., Rinaldo, A., Rodhe, A., Sayama, T., Seibert, J., Solomon, K., Soulsby, C., Stewart, M., Tetzlaff, D., Tobin, C., Troch, P., Weiler, M., Western, A., Worman, A., and Wrede, S.

Published

2010

50. How old is streamwater? : Open questions in catchment transit time conceptualization, modelling and analysis

Author

McDonnell, J. J., McGuire, K., Aggarwal, P., Beven, K. J., Biondi, D., Destouni, G., Dunn, S., James, A., Kirchner, J., Kraft, P., Lyon, S., Maloszewski, P., Newman, B., Pfister, L., Rinaldo, A., Rodhe, A., Sayama, T., Seibert, J., Solomon, K., Soulsby, C., Stewart, M., Tetzlaff, D., Tobin, C., Troch, P., Weiler, M., Western, A., Worman, A., Wrede, S., McDonnell, J. J., McGuire, K., Aggarwal, P., Beven, K. J., Biondi, D., Destouni, G., Dunn, S., James, A., Kirchner, J., Kraft, P., Lyon, S., Maloszewski, P., Newman, B., Pfister, L., Rinaldo, A., Rodhe, A., Sayama, T., Seibert, J., Solomon, K., Soulsby, C., Stewart, M., Tetzlaff, D., Tobin, C., Troch, P., Weiler, M., Western, A., Worman, A., and Wrede, S.

Published

2010