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44 results on '"Miner, Kimberley"'

1. Error and Uncertainty Degrade Topographic Corrections of Remotely Sensed Data

Author

Dozier, Jeff, Bair, Edward H, Baskaran, Latha, Brodrick, Philip G, Carmon, Nimrod, Kokaly, Raymond F, Miller, Charles E, Miner, Kimberley R, Painter, Thomas H, and Thompson, David R

Subjects
topography, remote sensing, solar radiation, Geophysics
Abstract

Abstract: Chemical and biological composition of surface materials and physical structure and arrangement of those materials determine the intrinsic reflectance of Earth's land surface. The apparent reflectance—as measured by a spaceborne or airborne sensor that has been corrected for atmospheric attenuation—depends also on topography, surface roughness, and the atmosphere. Especially in Earth's mountains, estimating properties of scientific interest from remotely sensed data requires compensation for topography. Doing so requires information from digital elevation models (DEMs). Available DEMs with global coverage are derived from spaceborne interferometric radar and stereo‐photogrammetry at ∼30 m spatial resolution. Locally or regionally, lidar altimetry, interferometric radar, or stereo‐photogrammetry produces DEMs with finer resolutions. Characterization of their quality typically expresses the root‐mean‐square (RMS) error of the elevation, but the accuracy of remotely sensed retrievals is sensitive to uncertainties in topographic properties that affect incoming and reflected radiation and that are inadequately represented by the RMS error of the elevation. The most essential variables are the cosine of the local solar illumination angle on a slope, the shadows cast by neighboring terrain, and the view factor, the fraction of the overlying hemisphere open to the sky. Comparison of global DEMs with locally available fine‐scale DEMs shows that calculations with the global products consistently underestimate the cosine of the solar angle and underrepresent shadows. Analyzing imagery of Earth's mountains from current and future spaceborne missions requires addressing the uncertainty introduced by errors in DEMs on algorithms that analyze remotely sensed data to produce information about Earth's surface.

Published
2022

3. Invasive species, extreme fire risk, and toxin release under a changing climate

Author

Miner, Kimberley, Meyerson, Laura, Institute, . Climate Change, Earth, School of, Sciences, Climate, Maine, University of, Orono, Science, ME 04469 2. Department of Natural Resources, Island, University of Rhode, and Kingston

Subjects
Quantitative Biology - Populations and Evolution, Physics - Biological Physics, A.1, A.m
Abstract

Mediterranean ecosystems such as those found in California, Central Chile, Southern Europe, and Southwest Australia host numerous, diverse, fire-adapted micro-ecosystems. These micro-ecosystems are as diverse as mountainous conifer to desert-like chaparral communities. Over the last few centuries, human intervention, invasive species, and climate warming have drastically affected the composition and health of Mediterranean ecosystems on almost every continent. Increased fuel load from fire suppression policies and the continued range expansion of non-native insects and plants, some driven by long-term drought, produced the deadliest wildfire season on record in 2018. As a consequence of these fires, a large number of structures are destroyed, releasing household chemicals into the environment as uncontrolled toxins. The mobilization of these materials can lead to health risks and disruption in both human and natural systems. This article identifies drivers that led to a structural weakening of the mosaic of fire-adapted ecosystems in California, and subsequently increased the risk of destructive and explosive wildfires throughout the state. Under a new climate regime, managing the impacts on systems moving out-of-phase with natural processes may protect lives and ensure the stability of ecosystem services., Comment: 13 pages, one image

Published
2020

4. Emergent risks in the Mt. Everest region in the time of anthropogenic climate change

Author

Miner, Kimberley R., Mayewski, Paul A., Baidya, Saraju K., Broad, Kenneth, Clifford, Heather, Gajurel, Ananta P., Giri, Bibek, Hubbard, Mary, Jaskolski, Corey, Koldewey, Heather, Li, Wei, Matthews, Tom, Napper, Imogen, Perry, Baker, Potocki, Mariusz, Priscu, John C., Tait, Alex, Thompson, Richard, and Tuladhar, Subash

Subjects
Physics - Geophysics, Physics - Atmospheric and Oceanic Physics, A.1, A.m
Abstract

In April and May 2019, as a part of the National Geographic and Roxel Perpetual Planet Everest Expedition, the most interdisciplinary scientific ever was launched. This research identified changing dynamics, including emergent risks resulting from natural and anthropogenic change to the natural system. We have identified compounded risks to ecosystem and human health, geologic hazards, and changing climate conditions that impact the local community, climbers, and trekkeers in the future. This review brings together perspectives from across the biological, geological, and health sciences to better understand emergent risks on Mt. Everest and in the Khumbu region. Understanding and mitigating these risks is critical for the ~10,000 people living in the Khumbu region, as well as the thousands of visiting trekkers and the hundreds of climbers who attempt to summit each year., Comment: 21 pages, 2 figures

Published
2020

7. Frozen no more, a case study of Arctic permafrost impacts of oil and gas withdrawal.

Author

Miner, Kimberley, Baskaran, Latha, Gay, Bradley, Sousa, Daniel, and Miller, Charles

Abstract

Approximately 8100 km2 of Alaska are leased to the oil and gas industry for exploration and extraction. According to industry estimates, subsurface expansion from these leases could cover up to 130.2 km2 per pad. As industrial oil extraction activities increase across the thawing Alaskan permafrost, impacts on the permafrost environment will include rapid thaw, increased hydrological flux, and the release of climate warming greenhouse gases. Here, we use remote sensing and field observations to provide a first-order comparison of the direct impacts to the permafrost tundra from oil well pads, and the long-term consequences of a legacy oil pads on the warming North Slope of Alaska. We find that oil well pads on the permafrost accelerate permafrost degradation and persist despite remediation. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Permafrost Carbon : Progress on Understanding Stocks and Fluxes Across Northern Terrestrial Ecosystems

Author

Treat, Claire C., Virkkala, Anna-Maria, Burke, Eleanor, Bruhwiler, Lori, Chatterjee, Abhishek, Fisher, Joshua B., Hashemi, Josh, Parmentier, Frans-Jan W., Rogers, Brendan M., Westermann, Sebastian, Watts, Jennifer D., Blanc-Betes, Elena, Fuchs, Matthias, Kruse, Stefan, Malhotra, Avni, Miner, Kimberley, Strauss, Jens, Armstrong, Amanda, Epstein, Howard E., Gay, Bradley, Goeckede, Mathias, Kalhori, Aram, Kou, Dan, Miller, Charles E., Natali, Susan M., Oh, Youmi, Shakil, Sarah, Sonnentag, Oliver, Varner, Ruth K., Zolkos, Scott, Schuur, Edward A. G., Hugelius, Gustaf, Treat, Claire C., Virkkala, Anna-Maria, Burke, Eleanor, Bruhwiler, Lori, Chatterjee, Abhishek, Fisher, Joshua B., Hashemi, Josh, Parmentier, Frans-Jan W., Rogers, Brendan M., Westermann, Sebastian, Watts, Jennifer D., Blanc-Betes, Elena, Fuchs, Matthias, Kruse, Stefan, Malhotra, Avni, Miner, Kimberley, Strauss, Jens, Armstrong, Amanda, Epstein, Howard E., Gay, Bradley, Goeckede, Mathias, Kalhori, Aram, Kou, Dan, Miller, Charles E., Natali, Susan M., Oh, Youmi, Shakil, Sarah, Sonnentag, Oliver, Varner, Ruth K., Zolkos, Scott, Schuur, Edward A. G., and Hugelius, Gustaf

Abstract

Significant progress in permafrost carbon science made over the past decades include the identification of vast permafrost carbon stocks, the development of new pan-Arctic permafrost maps, an increase in terrestrial measurement sites for CO2 and methane fluxes, and important factors affecting carbon cycling, including vegetation changes, periods of soil freezing and thawing, wildfire, and other disturbance events. Process-based modeling studies now include key elements of permafrost carbon cycling and advances in statistical modeling and inverse modeling enhance understanding of permafrost region C budgets. By combining existing data syntheses and model outputs, the permafrost region is likely a wetland methane source and small terrestrial ecosystem CO2 sink with lower net CO2 uptake toward higher latitudes, excluding wildfire emissions. For 2002–2014, the strongest CO2 sink was located in western Canada (median: −52 g C m−2 y−1) and smallest sinks in Alaska, Canadian tundra, and Siberian tundra (medians: −5 to −9 g C m−2 y−1). Eurasian regions had the largest median wetland methane fluxes (16–18 g CH4 m−2 y−1). Quantifying the regional scale carbon balance remains challenging because of high spatial and temporal variability and relatively low density of observations. More accurate permafrost region carbon fluxes require: (a) the development of better maps characterizing wetlands and dynamics of vegetation and disturbances, including abrupt permafrost thaw; (b) the establishment of new year-round CO2 and methane flux sites in underrepresented areas; and (c) improved models that better represent important permafrost carbon cycle dynamics, including non-growing season emissions and disturbance effects.

Published
2024
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23. Simulating Global Dynamic Surface Reflectances for Imaging Spectroscopy Spaceborne Missions: LPJ‐PROSAIL

Author

Poulter, Benjamin, primary, Currey, Bryce, additional, Calle, Leonardo, additional, Shiklomanov, Alexey N., additional, Amaral, Cibele H., additional, Brookshire, E. N. Jack, additional, Campbell, Petya, additional, Chlus, Adam, additional, Cawse‐Nicholson, Kerry, additional, Huemmrich, Fred, additional, Miller, Charles E., additional, Miner, Kimberley, additional, Pierrat, Zoe, additional, Raiho, Ann M., additional, Schimel, David, additional, Serbin, Shawn, additional, Smith, William K., additional, Stavros, Natasha, additional, Stutz, Jochen, additional, Townsend, Phil, additional, Thompson, David R., additional, and Zhang, Zhen, additional

Published
2023
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24. Prefacing unexplored archives from Central Andean surface-to-bedrock ice cores through a multifaceted investigation of regional firn and ice core glaciochemistry

Author

Clifford, Heather M., primary, Potocki, Mariusz, additional, Rodda, Charles, additional, Dixon, Daniel, additional, Birkel, Sean, additional, Handley, Michael, additional, Korotkikh, Elena, additional, Introne, Douglas, additional, Schwanck, Franciele, additional, Tavares, Flavia A., additional, Bernardo, Ronaldo T., additional, Lindau, Filipe G. L., additional, Gomez, Oscar Vilca, additional, Jara-Infantes, Harrison, additional, Urviola, Victor Bustínza, additional, Perry, L. Baker, additional, Maurer, Jonathan, additional, Seimon, Anton, additional, Schwikowski, Margit, additional, Casassa, Gino, additional, Hou, Shugui, additional, Kurbatov, Andrei V., additional, Miner, Kimberley R., additional, Simões, Jefferson C., additional, and Mayewski, Paul A., additional

Published
2022
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25. Disturbances in North American boreal forest and Arctic tundra: impacts, interactions, and responses

Author

Foster, Adrianna C, primary, Wang, Jonathan A, additional, Frost, Gerald V, additional, Davidson, Scott J, additional, Hoy, Elizabeth, additional, Turner, Kevin W, additional, Sonnentag, Oliver, additional, Epstein, Howard, additional, Berner, Logan T, additional, Armstrong, Amanda H, additional, Kang, Mary, additional, Rogers, Brendan M, additional, Campbell, Elizabeth, additional, Miner, Kimberley R, additional, Orndahl, Kathleen M, additional, Bourgeau-Chavez, Laura L, additional, Lutz, David A, additional, French, Nancy, additional, Chen, Dong, additional, Du, Jinyang, additional, Shestakova, Tatiana A, additional, Shuman, Jacquelyn K, additional, Tape, Ken, additional, Virkkala, Anna-Maria, additional, Potter, Christopher, additional, and Goetz, Scott, additional

Published
2022
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28. Ongoing Progress Toward NASA's Surface Biology and Geology Mission

Author

Thompson, David R., primary, Basilio, Ralph, additional, Brosnan, Ian, additional, Cawse-Nicholson, Kerry, additional, Chadwick, K. Dana, additional, Guild, Liane, additional, Gierach, Michelle, additional, Green, Robert O., additional, Hook, Simon, additional, Horner, Scott D., additional, Hulley, Glynn, additional, Kokaly, Raymond, additional, Miller, Charles E., additional, Miner, Kimberley R., additional, Lee, Christine, additional, Limonadi, Daniel, additional, Luvall, Jeffrey, additional, Pavlick, Ryan, additional, Phillips, Benjamin, additional, Poulter, Benjamin, additional, Raiho, Ann, additional, Reath, Kevin, additional, Uz, Stephanie Schollaert, additional, Sen, Amit, additional, Serbin, Shawn, additional, Schimel, David, additional, Townsend, Philip, additional, Turner, Woody, additional, and Turpie, Kevin, additional

Published
2022
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29. Simulating global dynamic surface reflectances for imaging spectroscopy spaceborne missions - LPJ-PROSAIL

Author

Poulter, Benjamin, primary, Currey, Bryce, additional, Calle, Leonardo, additional, Brookshire, Jack, additional, Campbell, Petya, additional, Chlus, Adam, additional, Cawse-Nicholson, Kerry, additional, Huemmrich, Karl Fred, additional, Miller, Charles E., additional, Miner, Kimberley, additional, Pierrat, Zoe Amie, additional, Schimel, David, additional, Serbin, Shawn Paul, additional, Shiklomanov, Alexey N, additional, Stavros, E. Natasha, additional, Townsend, Philip A, additional, Thompson, David Ray, additional, Zhang, Zhen, additional, Amaral, Cibele, additional, Raiho, Ann, additional, and Stutz, Jochen, additional

Published
2022
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30. Exploring mission design for imaging spectroscopy retrievals for land and aquatic ecosystems

Author

Raiho, Ann, primary, Cawse-Nicholson, Kerry, additional, Chlus, Adam, additional, Dozier, Jeff, additional, Gierach, Michelle M., additional, Miner, Kimberley, additional, Serbin, Shawn Paul, additional, Schimel, David, additional, Schneider, Fabian, additional, Shiklomanov, Alexey N, additional, Skiles, S. McKenzie, additional, Thompson, David Ray, additional, Townsend, Philip, additional, Zareh, Shannon-Kian, additional, and Poulter, Benjamin, additional

Published
2022
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34. A case study using 2019 pre-monsoon snow and stream chemistry in the Khumbu region, Nepal

Author

Clifford, Heather M., primary, Potocki, Mariusz, additional, Koch, Inka, additional, Sherpa, Tenzing, additional, Handley, Mike, additional, Korotkikh, Elena, additional, Introne, Douglas, additional, Kaspari, Susan, additional, Miner, Kimberley, additional, Matthews, Tom, additional, Perry, Baker, additional, Guy, Heather, additional, Gajurel, Ananta, additional, Singh, Praveen Kumar, additional, Elvin, Sandra, additional, Elmore, Aurora C., additional, Tait, Alex, additional, and Mayewski, Paul A., additional

Published
2021
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35. Emergent risks in the Mt. Everest region in the time of anthropogenic climate change

Author

Miner, Kimberley, Mayewski, Paul, Saraju Baidya, Broad, Kenneth, Clifford, Heather, Anata Gajurel, Bibek Giri, Hubbard, Mary, Jaskolski, Corey, Koldeway, Heather, Li, Wei, Matthews, Tom, Napper, Imogen, Baker Perry, Potocki, Mariusz, Priscu, John, Tait, Alex, Thompson, Richard, and Subash Tuladhar

Subjects
Physics - Geophysics, Physics - Atmospheric and Oceanic Physics, glacier, climate change, A.1, A.m, Atmospheric and Oceanic Physics (physics.ao-ph), everest, FOS: Physical sciences, Geophysics (physics.geo-ph)
Abstract

In April and May 2019, as a part of the National Geographic and Roxel Perpetual Planet Everest Expedition, the most interdisciplinary scientific ever was launched. This research identified changing dynamics, including emergent risks resulting from natural and anthropogenic change to the natural system. We have identified compounded risks to ecosystem and human health, geologic hazards, and changing climate conditions that impact the local community, climbers, and trekkeers in the future. This review brings together perspectives from across the biological, geological, and health sciences to better understand emergent risks on Mt. Everest and in the Khumbu region. Understanding and mitigating these risks is critical for the ~10,000 people living in the Khumbu region, as well as the thousands of visiting trekkers and the hundreds of climbers who attempt to summit each year., Comment: 21 pages, 2 figures

Published
2020
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37. An Overview of Physical Risks in the Mt. Everest Region

Author

Miner, Kimberley R., primary, Mayewski, Paul A., additional, Baidya, Saraju K., additional, Broad, Kenneth, additional, Clifford, Heather, additional, Elmore, Aurora, additional, Gajurel, Ananta P., additional, Giri, Bibek, additional, Guilford, Sam, additional, Hubbard, Mary, additional, Jaskolski, Corey, additional, Koldewey, Heather, additional, Li, Wei, additional, Matthews, Tom, additional, Napper, Imogen, additional, Perry, L. Baker, additional, Potocki, Mariusz, additional, Priscu, John C., additional, Tait, Alex, additional, Thompson, Richard, additional, and Tuladhar, Subash, additional

Published
2020
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