Thomas Loveland (Former Employee)
Science and Products
Filter Total Items: 143
Drought and land-cover conditions in the Great Plains Drought and land-cover conditions in the Great Plains
Land–atmosphere interactions play a critical role in the Earth system, and a better understanding of these interactions could improve weather and climate models. The interaction among drought, vegetation productivity, and land cover is of particular significance. In a semiarid environment, such as the U.S. Great Plains, droughts can have a large influence on the productivity of...
Authors
Heather Tollerud, Jesslyn Brown, Thomas Loveland, Rezaul Mahmood, Norman Bliss
Effects of contemporary land-use and land-cover change on the carbon balance of terrestrial ecosystems in the United States Effects of contemporary land-use and land-cover change on the carbon balance of terrestrial ecosystems in the United States
Changes in land use and land cover (LULC) can have profound effects on terrestrial carbon dynamics, yet their effects on the global carbon budget remain uncertain. While land change impacts on ecosystem carbon dynamics have been the focus of numerous studies, few efforts have been based on observational data incorporating multiple ecosystem types spanning large geographic areas over long...
Authors
Benjamin Sleeter, Jinxun Liu, Colin Daniel, Bronwyn Rayfield, Jason Sherba, Todd Hawbaker, Zhiliang Zhu, Paul Selmants, Thomas R. Loveland
2017 Landsat Science Team Summer Meeting Summary 2017 Landsat Science Team Summer Meeting Summary
The summer meeting of the U.S. Geological Survey (USGS)-NASA Landsat Science Team (LST) was held June 11-13, 2017, at the USGS’s Earth Resources Observation and Science (EROS) Center near Sioux Falls, SD. This was the final meeting of the Second (2012-2017) LST.1 Frank Kelly [EROS—Center Director] welcomed the attendees and expressed his thanks to the LST members for their contributions...
Authors
Christopher Crawford, Thomas Loveland, Michael Wulder, James Irons
Mapping forest change using stacked generalization: An ensemble approach Mapping forest change using stacked generalization: An ensemble approach
The ever-increasing volume and accessibility of remote sensing data has spawned many alternative approaches for mapping important environmental features and processes. For example, there are several viable but highly varied strategies for using time series of Landsat imagery to detect changes in forest cover. Performance among algorithms varies across complex natural systems, and it is...
Authors
Sean Healey, Warren B. Cohen, Zhiqiang Yang, C. Brewer, Evan Brooks, Noel Gorelick, Alexander Hernandez, Chengquan Huang, M. Hughes, Robert Kennedy, Thomas Loveland, Gretchen Moisen, Todd Schroeder, Stephen Stehman, James Vogelmann, Curtis Woodcock, Limin Yang, Zhe Zhu
Land cover and land use change Land cover and land use change
Climate can affect and be affected by changes in land cover (the physical features that cover the land such as trees or pavement) and land use (human management and activities on land, such as mining or recreation). A forest, for instance, would likely include tree cover but could also include areas of recent tree removals currently covered by open grass areas. Land cover and use are...
Authors
Benjamin Sleeter, Thomas Loveland, Grant Domke, Nate Herold, James Wickham, Nathan Wood
How similar are forest disturbance maps derived from different Landsat time series algorithms? How similar are forest disturbance maps derived from different Landsat time series algorithms?
Disturbance is a critical ecological process in forested systems, and disturbance maps are important for understanding forest dynamics. Landsat data are a key remote sensing dataset for monitoring forest disturbance and there recently has been major growth in the development of disturbance mapping algorithms. Many of these algorithms take advantage of the high temporal data volume to...
Authors
Warren B. Cohen, Sean Healey, Zhiqiang Yang, Stephen Stehman, C. Brewer, Evan Brooks, Noel Gorelick, Chengquan Huang, M. Hughes, Robert Kennedy, Thomas Loveland, Gretchen Moisen, Todd Schroeder, James Vogelmann, Curtis Woodcock, Limin Yang, Zhe Zhu
Landsat Science Team: 2017 Winter meeting summary Landsat Science Team: 2017 Winter meeting summary
The winter meeting of the NASA-U.S. Geological Survey (USGS) Landsat Science Team (LST) was held January 10-12, 2017, at Boston University. LST co-chairs Tom Loveland [USGS’s Earth Resources Observation and Science Center (EROS)—Senior Scientist], Jim Irons [NASA’s Goddard Space Flight Center (GSFC)—Deputy Director, Earth Sciences Division], and Curtis Woodcock [Boston University...
Authors
Thomas Loveland, Michael Wulder, James Irons
Grand challenges in understanding the interplay of climate and land changes Grand challenges in understanding the interplay of climate and land changes
Half of Earth’s land surface has been altered by human activities, creating various consequences on the climate and weather systems at local to global scales, which in turn affect a myriad of land surface processes and the adaptation behaviors. This study reviews the status and major knowledge gaps in the interactions of land and atmospheric changes and present 11 grand challenge areas...
Authors
Shuguang Liu, Ben Bond-Lamberty, Lena Boysen, James Ford, Andrew Fox, Kevin Gallo, Jerry Hatfield, Geoffrey Henebry, Thomas Huntington, Zhihua Liu, Thomas Loveland, Richard Norby, Terry Sohl, Allison Steiner, Wenping Yuan, Zhao Zhang, Shuqing Zhao
Optimizing selection of training and auxiliary data for operational land cover classification for the LCMAP initiative Optimizing selection of training and auxiliary data for operational land cover classification for the LCMAP initiative
The U.S. Geological Survey’s Land Change Monitoring, Assessment, and Projection (LCMAP) initiative is a new end-to-end capability to continuously track and characterize changes in land cover, use, and condition to better support research and applications relevant to resource management and environmental change. Among the LCMAP product suite are annual land cover maps that will be...
Authors
Zhe Zhu, Alisa Gallant, Curtis Woodcock, Bruce Pengra, Pontus Olofsson, Thomas R. Loveland, Suming Jin, Devendra Dahal, Limin Yang, Roger Auch
Landsat 8: The plans, the reality, and the legacy Landsat 8: The plans, the reality, and the legacy
Landsat 8, originally known as the Landsat Data Continuity Mission (LDCM), is a National Aeronautics and Space Administration (NASA)-U.S. Geological Survey (USGS) partnership that continues the legacy of continuous moderate resolution observations started in 1972. The conception of LDCM to the reality of Landsat 8 followed an arduous path extending over nearly 13 years, but the...
Authors
Thomas Loveland, James Irons
Mapping annual forest cover in sub-humid and semi-arid regions through analysis of landsat and PALSAR imagery Mapping annual forest cover in sub-humid and semi-arid regions through analysis of landsat and PALSAR imagery
Accurately mapping the spatial distribution of forests in sub-humid to semi-arid regions over years is a challenging task and causes difficulty to forest management. Relatively large uncertainties still exist in the spatial distribution of forests and deforestation in the sub-humid and semi-arid regions. Numerous publications have used either optical or synthetic aperture radar (SAR)...
Authors
Yuanwei Qin, Xiangming Xiao, Jie Wang, Jinwei Dong, Kayti Ewing, Bruce Hoagland, Daniel Hough, Todd Fagin, Zhenhua Zou, George Geissler, George Xian, Thomas Loveland
Landsat Science Team: 2016 Winter meeting summary Landsat Science Team: 2016 Winter meeting summary
No abstract available.
Authors
Todd Schroeder, Thomas Loveland, Mike Wulder, James Irons
Science and Products
Filter Total Items: 143
Drought and land-cover conditions in the Great Plains Drought and land-cover conditions in the Great Plains
Land–atmosphere interactions play a critical role in the Earth system, and a better understanding of these interactions could improve weather and climate models. The interaction among drought, vegetation productivity, and land cover is of particular significance. In a semiarid environment, such as the U.S. Great Plains, droughts can have a large influence on the productivity of...
Authors
Heather Tollerud, Jesslyn Brown, Thomas Loveland, Rezaul Mahmood, Norman Bliss
Effects of contemporary land-use and land-cover change on the carbon balance of terrestrial ecosystems in the United States Effects of contemporary land-use and land-cover change on the carbon balance of terrestrial ecosystems in the United States
Changes in land use and land cover (LULC) can have profound effects on terrestrial carbon dynamics, yet their effects on the global carbon budget remain uncertain. While land change impacts on ecosystem carbon dynamics have been the focus of numerous studies, few efforts have been based on observational data incorporating multiple ecosystem types spanning large geographic areas over long...
Authors
Benjamin Sleeter, Jinxun Liu, Colin Daniel, Bronwyn Rayfield, Jason Sherba, Todd Hawbaker, Zhiliang Zhu, Paul Selmants, Thomas R. Loveland
2017 Landsat Science Team Summer Meeting Summary 2017 Landsat Science Team Summer Meeting Summary
The summer meeting of the U.S. Geological Survey (USGS)-NASA Landsat Science Team (LST) was held June 11-13, 2017, at the USGS’s Earth Resources Observation and Science (EROS) Center near Sioux Falls, SD. This was the final meeting of the Second (2012-2017) LST.1 Frank Kelly [EROS—Center Director] welcomed the attendees and expressed his thanks to the LST members for their contributions...
Authors
Christopher Crawford, Thomas Loveland, Michael Wulder, James Irons
Mapping forest change using stacked generalization: An ensemble approach Mapping forest change using stacked generalization: An ensemble approach
The ever-increasing volume and accessibility of remote sensing data has spawned many alternative approaches for mapping important environmental features and processes. For example, there are several viable but highly varied strategies for using time series of Landsat imagery to detect changes in forest cover. Performance among algorithms varies across complex natural systems, and it is...
Authors
Sean Healey, Warren B. Cohen, Zhiqiang Yang, C. Brewer, Evan Brooks, Noel Gorelick, Alexander Hernandez, Chengquan Huang, M. Hughes, Robert Kennedy, Thomas Loveland, Gretchen Moisen, Todd Schroeder, Stephen Stehman, James Vogelmann, Curtis Woodcock, Limin Yang, Zhe Zhu
Land cover and land use change Land cover and land use change
Climate can affect and be affected by changes in land cover (the physical features that cover the land such as trees or pavement) and land use (human management and activities on land, such as mining or recreation). A forest, for instance, would likely include tree cover but could also include areas of recent tree removals currently covered by open grass areas. Land cover and use are...
Authors
Benjamin Sleeter, Thomas Loveland, Grant Domke, Nate Herold, James Wickham, Nathan Wood
How similar are forest disturbance maps derived from different Landsat time series algorithms? How similar are forest disturbance maps derived from different Landsat time series algorithms?
Disturbance is a critical ecological process in forested systems, and disturbance maps are important for understanding forest dynamics. Landsat data are a key remote sensing dataset for monitoring forest disturbance and there recently has been major growth in the development of disturbance mapping algorithms. Many of these algorithms take advantage of the high temporal data volume to...
Authors
Warren B. Cohen, Sean Healey, Zhiqiang Yang, Stephen Stehman, C. Brewer, Evan Brooks, Noel Gorelick, Chengquan Huang, M. Hughes, Robert Kennedy, Thomas Loveland, Gretchen Moisen, Todd Schroeder, James Vogelmann, Curtis Woodcock, Limin Yang, Zhe Zhu
Landsat Science Team: 2017 Winter meeting summary Landsat Science Team: 2017 Winter meeting summary
The winter meeting of the NASA-U.S. Geological Survey (USGS) Landsat Science Team (LST) was held January 10-12, 2017, at Boston University. LST co-chairs Tom Loveland [USGS’s Earth Resources Observation and Science Center (EROS)—Senior Scientist], Jim Irons [NASA’s Goddard Space Flight Center (GSFC)—Deputy Director, Earth Sciences Division], and Curtis Woodcock [Boston University...
Authors
Thomas Loveland, Michael Wulder, James Irons
Grand challenges in understanding the interplay of climate and land changes Grand challenges in understanding the interplay of climate and land changes
Half of Earth’s land surface has been altered by human activities, creating various consequences on the climate and weather systems at local to global scales, which in turn affect a myriad of land surface processes and the adaptation behaviors. This study reviews the status and major knowledge gaps in the interactions of land and atmospheric changes and present 11 grand challenge areas...
Authors
Shuguang Liu, Ben Bond-Lamberty, Lena Boysen, James Ford, Andrew Fox, Kevin Gallo, Jerry Hatfield, Geoffrey Henebry, Thomas Huntington, Zhihua Liu, Thomas Loveland, Richard Norby, Terry Sohl, Allison Steiner, Wenping Yuan, Zhao Zhang, Shuqing Zhao
Optimizing selection of training and auxiliary data for operational land cover classification for the LCMAP initiative Optimizing selection of training and auxiliary data for operational land cover classification for the LCMAP initiative
The U.S. Geological Survey’s Land Change Monitoring, Assessment, and Projection (LCMAP) initiative is a new end-to-end capability to continuously track and characterize changes in land cover, use, and condition to better support research and applications relevant to resource management and environmental change. Among the LCMAP product suite are annual land cover maps that will be...
Authors
Zhe Zhu, Alisa Gallant, Curtis Woodcock, Bruce Pengra, Pontus Olofsson, Thomas R. Loveland, Suming Jin, Devendra Dahal, Limin Yang, Roger Auch
Landsat 8: The plans, the reality, and the legacy Landsat 8: The plans, the reality, and the legacy
Landsat 8, originally known as the Landsat Data Continuity Mission (LDCM), is a National Aeronautics and Space Administration (NASA)-U.S. Geological Survey (USGS) partnership that continues the legacy of continuous moderate resolution observations started in 1972. The conception of LDCM to the reality of Landsat 8 followed an arduous path extending over nearly 13 years, but the...
Authors
Thomas Loveland, James Irons
Mapping annual forest cover in sub-humid and semi-arid regions through analysis of landsat and PALSAR imagery Mapping annual forest cover in sub-humid and semi-arid regions through analysis of landsat and PALSAR imagery
Accurately mapping the spatial distribution of forests in sub-humid to semi-arid regions over years is a challenging task and causes difficulty to forest management. Relatively large uncertainties still exist in the spatial distribution of forests and deforestation in the sub-humid and semi-arid regions. Numerous publications have used either optical or synthetic aperture radar (SAR)...
Authors
Yuanwei Qin, Xiangming Xiao, Jie Wang, Jinwei Dong, Kayti Ewing, Bruce Hoagland, Daniel Hough, Todd Fagin, Zhenhua Zou, George Geissler, George Xian, Thomas Loveland
Landsat Science Team: 2016 Winter meeting summary Landsat Science Team: 2016 Winter meeting summary
No abstract available.
Authors
Todd Schroeder, Thomas Loveland, Mike Wulder, James Irons