Emily C Palmquist, PhD
Dr. Emily Palmquist is a plant ecologist with the Southwest Biological Science Center, Grand Canyon Monitoring and Research Station. Emily studies riparian plant ecology in drylands of the western U.S. with particular emphasis on providing scientific information that addresses land management and stakeholder needs.
Emily conducts research with direct applications to improving land stewardship in a changing environment. Her research examines how environmental pressures, plant genetics, plant traits, and interactions among these factors affect plant community structure and change. This research often provides information needed to make management decisions, for example, characterizing floristic patterns, choosing plants for restoration, and evaluating taxonomic relationships. These studies also often characterize the effect of management decisions, for example, dam operations or grazing. Since her research sits at the interface of conservation and land use, she aims to contribute to creating solutions for living sustainably in drylands.
Her current research projects focus on the impact of river regulation on riparian vegetation communities, riparian plant population genetics in a restoration context, and physiological responses of riparian plants to flooding and climate.
Emily moved to the Southwest in 2006 after a variety of seasonal plant ecology positions in Minnesota, Indiana, and Western Australia. Since then, she has worked in Utah, Arizona, and New Mexico assisting with research on rare plants, dryland plant ecology, spring vegetation, grazing, and riparian vegetation. Emily has been working in the Grand Canyon region since 2011, which has included conducting upland and riparian long-term vegetation monitoring and grazing assessments.
Professional Experience
2014 – present: Ecologist, U.S. Geological Survey, Southwestern Biological Science Center, Grand Canyon Monitoring and Research Center, Flagstaff, AZ
2012 – 2014: Ecologist, U.S. Geological Survey, Southwestern Biological Science Center, Moab, UT
2011: Botanist, National Park Service, Southern Colorado Plateau Inventory & Monitoring Network, Flagstaff, AZ
2011: Botanist, Grand Canyon Trust, Flagstaff, AZ
2006 – 2009: Biological Science Technician, National Park Service, Glen Canyon National Recreation Area, Page, AZ
Education and Certifications
2022 - PhD. in Biology with Distinction, Northern Arizona University, Flagstaff, AZ. Co-advised by Drs. Kiona Ogle and Thomas Whitham
Dissertation: "Climate, genetics, and river flow interact to shape riparian plant community structure"
2010 - M.S. in Biology with Distinction, Northern Arizona University, Flagstaff, AZ. Advised by Dr. Tina Ayers.
Thesis: Phylogeny and evolutionary history of Anticlea vaginata Rydb. (Melanthiaceae): a hanging garden endemic
2005 - B.Sc. in Environmental Science: Resource Conservation and Management (Second Major: English), summa cum laude, Carroll University, Waukesha, WI
Science and Products
Filter Total Items: 18
Hydric and mesic riparian plant species data for quantifying divergent physiological responses to a Colorado River experimental flow Hydric and mesic riparian plant species data for quantifying divergent physiological responses to a Colorado River experimental flow
These data were compiled to assess physiological responses of plants to short-term changes in streamflow, both increased and decreased. Objective(s) of our study were to determine the degree to which plants with different habitat preferences and functional strategies responded to short-term increases or decreases in the elevation of the water table. These data represent streamflow rates
Arrowweed (Pluchea sericea) morphological and physiological response data from a greenhouse inundation experiment Arrowweed (Pluchea sericea) morphological and physiological response data from a greenhouse inundation experiment
These data were collected to evaluate if arrowweed (Pluchea sericea) individuals and genotypes collected from across a 5.3 degree Celsius temperature gradient and grown in a common greenhouse environment had different physiological and morphological responses to inundation. The objectives of the study were to assess if 1) individuals from climatically different provenances differ in...
Riparian vegetation data downstream of Glen Canyon Dam in Glen Canyon National Recreation Area and Grand Canyon National Park, AZ from 2014 to 2019 Riparian vegetation data downstream of Glen Canyon Dam in Glen Canyon National Recreation Area and Grand Canyon National Park, AZ from 2014 to 2019
These data were collected by the Grand Canyon Monitoring and Research Center (GCMRC) to support riparian vegetation monitoring along the Colorado River between Glen Canyon Dam and the full pool level of Lake Mead. The objectives of the GCMRC riparian vegetation monitoring program are to annually measure and summarize the status (composition and cover) of native and non-native vascular...
Southwestern Riparian Plant Trait Matrix, Colorado River, Grand Canyon, Arizona (ver. 2.0, 2022) Southwestern Riparian Plant Trait Matrix, Colorado River, Grand Canyon, Arizona (ver. 2.0, 2022)
Trait-based approaches to vegetation analyses are becoming more prevalent in studies of riparian vegetation dynamics, including responses to flow regulation, groundwater pumping, and climate change. These analyses require species trait data compiled from the literature and floras or original field measurements. Gathering such data makes trait-based research time intensive at best and...
Rangeland Ecosystem Data, Grand Canyon - Parashant National Monument, AZ, USA Rangeland Ecosystem Data, Grand Canyon - Parashant National Monument, AZ, USA
These data were compiled for an assessment of rangeland ecosystem conditions of the Grand Canyon - Parashant National Monument. The approximately one-million-acre Grand Canyon-Parashant National Monument (PARA) is located in the northwest corner of Arizona and co-managed by the Bureau of Land Management (BLM) and National Park Service (NPS). This report is focused on the ca. 200,000...
Riparian vegetation data used for comparing sampling methods along the Colorado River, Grand Canyon, Arizona Riparian vegetation data used for comparing sampling methods along the Colorado River, Grand Canyon, Arizona
These data were collected as part of a methodologial comparison for collecting riparian vegetation data. Two common methods for collecting vegetation data were used: line-point intercept and 1m2 ocular quadrats (visual cover estimates). At each site and transect, both methods were used to collect cover and composition data by four different observers. The same transects and quadrats were...
Filter Total Items: 27
U.S. Geological Survey Grand Canyon Monitoring and Research Center: Proceedings of the fiscal year 2023 annual reporting meeting to the Glen Canyon Dam Adaptive Management Program U.S. Geological Survey Grand Canyon Monitoring and Research Center: Proceedings of the fiscal year 2023 annual reporting meeting to the Glen Canyon Dam Adaptive Management Program
This proceedings is prepared for the USBR and Glen Canyon Dam Adaptive Management Program (GCDAMP) to account for work conducted and products delivered in FY 2023 by SBSC's Grand Canyon Monitoring and Research Center (GCMRC) and to inform the Technical Work Group of science conducted by GCMRC and its cooperators in support of the GCDAMP. It includes a summary of accomplishments...
Authors
Andrew Alan Schultz, Gregory Mark Anderson, David J. Topping, Ronald E. Griffiths, David J. Dean, Paul E. Grams, Keith Kohl, Gerard Lewis Salter, Matthew A. Kaplinski, Katherine Chapman, Erich R. Mueller, Emily C. Palmquist, Bradley J. Butterfield, Joel B. Sankey, Bridget Deemer, Charles Yackulic, Lindsay Erika Hansen, Drew Elliot Eppehimer, Theodore Kennedy, Anya Metcalfe, Jeffrey Muehlbauer, Morgan Ford, Michael Dodrill, Maria C. Dzul, Pilar Rinker, Michael J. Pillow, David Ward, Josh Korman, Molly A.H. Webb, James A. Crossman, Eric J Frye, David L. Rogowski, Kimberley Dibble, Lucas Bair, Joshua Abbott, Thomas M. Gushue, Erica Paige Byerley, Joseph E Thomas, Thomas A. Sabol, Bryce Anthony Mihalevich
Divergent physiological responses of hydric and mesic riparian plant species to a Colorado River experimental flow Divergent physiological responses of hydric and mesic riparian plant species to a Colorado River experimental flow
Riparian plant species can differ in their responses to streamflow variation in ways that strongly influence the composition and functioning of riparian plant communities. Quantifying these differences and the potential asymmetry of responses to low- versus high-flow phases of stream fluctuations is important for predicting and managing vegetation responses to variation in flow regimes...
Authors
Bradley J. Butterfield, Emily C. Palmquist
Inundation tolerance, rather than drought tolerance, predicts riparian plant distributions along a local hydrologic gradient Inundation tolerance, rather than drought tolerance, predicts riparian plant distributions along a local hydrologic gradient
Riparian vegetation varies along hydrologic gradients, along which inundation and drought tend to be inversely correlated. Differentiating effects of inundation and drought on plant distributions is critical for predicting impacts of changes to baseflows and designing flow patterns to achieve vegetation objectives in regulated river systems. To this end, we conducted a greenhouse...
Authors
Bradley J. Butterfield, Emily C. Palmquist
Assessment of riparian vegetation patterns and change downstream from Glen Canyon Dam from 2014 to 2019 Assessment of riparian vegetation patterns and change downstream from Glen Canyon Dam from 2014 to 2019
Changes in riparian vegetation cover and composition occur in relation to flow regime, geomorphic template, and climate, and can have cascading effects on aquatic and terrestrial ecosystems. Tracking such changes over time is therefore an important part of monitoring the condition and trajectory of riparian ecosystems. Maintaining diverse, self-sustaining riparian vegetation comprised of...
Authors
Emily C. Palmquist, Bradley J. Butterfield, Barbara E. Ralston
Proceedings of the Fiscal Year 2022 Annual Reporting Meeting to the Glen Canyon Dam Adaptive Management Program Proceedings of the Fiscal Year 2022 Annual Reporting Meeting to the Glen Canyon Dam Adaptive Management Program
(Hartwell) This report is prepared primarily to account for work conducted and products delivered in FY 2022 by GCMRC and to inform the Technical Work Group of science conducted by GCMRC and its cooperators in support of the Glen Canyon Dam Adaptive Management Program (GCDAMP). It includes a summary of accomplishments, modifications to work plans, results, and recommendations related to...
Authors
David J. Topping, Paul E. Grams, Emily C. Palmquist, Joel B. Sankey, Helen C. Fairley, Bridget Deemer, Charles Yackulic, Theodore Kennedy, Anya Metcalfe, Maria C. Dzul, David Ward, Mariah Aurelia Giardina, Lucas Bair, Thomas M. Gushue, Caitlin M. Andrews, Ronald E. Griffiths, David J. Dean, Keith Kohl, Michael J Moran, Nicholas Voichick, Thomas A. Sabol, Laura A. Tennant, Kimberly Dibble, Michael C. Runge
Provenance, genotype, and flooding influence growth and resource acquisition characteristics in a clonal, riparian shrub Provenance, genotype, and flooding influence growth and resource acquisition characteristics in a clonal, riparian shrub
Premise Riparian plants can exhibit intraspecific phenotypic variability across the landscape related to temperature and flooding gradients. Phenotypes that vary across a climate gradient are often partly genetically determined and may differ in their response to inundation. Changes to inundation patterns across a climate gradient could thus result in site-specific inundation responses...
Authors
Emily C. Palmquist, Kiona Ogle, Thomas G. Whitham, Gerard J. Allan, Patrick B. Shafroth, Bradley J. Butterfield
Non-USGS Publications**
Palmquist, E., Ayers, T. and Allan, G., 2015. Genetic and morphometric assessment of the origin, population structure, and taxonomic status of Anticlea vaginata (Melanthiaceae). Systematic Botany, 40(1), pp.56-68.
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.
Science and Products
Filter Total Items: 18
Hydric and mesic riparian plant species data for quantifying divergent physiological responses to a Colorado River experimental flow Hydric and mesic riparian plant species data for quantifying divergent physiological responses to a Colorado River experimental flow
These data were compiled to assess physiological responses of plants to short-term changes in streamflow, both increased and decreased. Objective(s) of our study were to determine the degree to which plants with different habitat preferences and functional strategies responded to short-term increases or decreases in the elevation of the water table. These data represent streamflow rates
Arrowweed (Pluchea sericea) morphological and physiological response data from a greenhouse inundation experiment Arrowweed (Pluchea sericea) morphological and physiological response data from a greenhouse inundation experiment
These data were collected to evaluate if arrowweed (Pluchea sericea) individuals and genotypes collected from across a 5.3 degree Celsius temperature gradient and grown in a common greenhouse environment had different physiological and morphological responses to inundation. The objectives of the study were to assess if 1) individuals from climatically different provenances differ in...
Riparian vegetation data downstream of Glen Canyon Dam in Glen Canyon National Recreation Area and Grand Canyon National Park, AZ from 2014 to 2019 Riparian vegetation data downstream of Glen Canyon Dam in Glen Canyon National Recreation Area and Grand Canyon National Park, AZ from 2014 to 2019
These data were collected by the Grand Canyon Monitoring and Research Center (GCMRC) to support riparian vegetation monitoring along the Colorado River between Glen Canyon Dam and the full pool level of Lake Mead. The objectives of the GCMRC riparian vegetation monitoring program are to annually measure and summarize the status (composition and cover) of native and non-native vascular...
Southwestern Riparian Plant Trait Matrix, Colorado River, Grand Canyon, Arizona (ver. 2.0, 2022) Southwestern Riparian Plant Trait Matrix, Colorado River, Grand Canyon, Arizona (ver. 2.0, 2022)
Trait-based approaches to vegetation analyses are becoming more prevalent in studies of riparian vegetation dynamics, including responses to flow regulation, groundwater pumping, and climate change. These analyses require species trait data compiled from the literature and floras or original field measurements. Gathering such data makes trait-based research time intensive at best and...
Rangeland Ecosystem Data, Grand Canyon - Parashant National Monument, AZ, USA Rangeland Ecosystem Data, Grand Canyon - Parashant National Monument, AZ, USA
These data were compiled for an assessment of rangeland ecosystem conditions of the Grand Canyon - Parashant National Monument. The approximately one-million-acre Grand Canyon-Parashant National Monument (PARA) is located in the northwest corner of Arizona and co-managed by the Bureau of Land Management (BLM) and National Park Service (NPS). This report is focused on the ca. 200,000...
Riparian vegetation data used for comparing sampling methods along the Colorado River, Grand Canyon, Arizona Riparian vegetation data used for comparing sampling methods along the Colorado River, Grand Canyon, Arizona
These data were collected as part of a methodologial comparison for collecting riparian vegetation data. Two common methods for collecting vegetation data were used: line-point intercept and 1m2 ocular quadrats (visual cover estimates). At each site and transect, both methods were used to collect cover and composition data by four different observers. The same transects and quadrats were...
Filter Total Items: 27
U.S. Geological Survey Grand Canyon Monitoring and Research Center: Proceedings of the fiscal year 2023 annual reporting meeting to the Glen Canyon Dam Adaptive Management Program U.S. Geological Survey Grand Canyon Monitoring and Research Center: Proceedings of the fiscal year 2023 annual reporting meeting to the Glen Canyon Dam Adaptive Management Program
This proceedings is prepared for the USBR and Glen Canyon Dam Adaptive Management Program (GCDAMP) to account for work conducted and products delivered in FY 2023 by SBSC's Grand Canyon Monitoring and Research Center (GCMRC) and to inform the Technical Work Group of science conducted by GCMRC and its cooperators in support of the GCDAMP. It includes a summary of accomplishments...
Authors
Andrew Alan Schultz, Gregory Mark Anderson, David J. Topping, Ronald E. Griffiths, David J. Dean, Paul E. Grams, Keith Kohl, Gerard Lewis Salter, Matthew A. Kaplinski, Katherine Chapman, Erich R. Mueller, Emily C. Palmquist, Bradley J. Butterfield, Joel B. Sankey, Bridget Deemer, Charles Yackulic, Lindsay Erika Hansen, Drew Elliot Eppehimer, Theodore Kennedy, Anya Metcalfe, Jeffrey Muehlbauer, Morgan Ford, Michael Dodrill, Maria C. Dzul, Pilar Rinker, Michael J. Pillow, David Ward, Josh Korman, Molly A.H. Webb, James A. Crossman, Eric J Frye, David L. Rogowski, Kimberley Dibble, Lucas Bair, Joshua Abbott, Thomas M. Gushue, Erica Paige Byerley, Joseph E Thomas, Thomas A. Sabol, Bryce Anthony Mihalevich
Divergent physiological responses of hydric and mesic riparian plant species to a Colorado River experimental flow Divergent physiological responses of hydric and mesic riparian plant species to a Colorado River experimental flow
Riparian plant species can differ in their responses to streamflow variation in ways that strongly influence the composition and functioning of riparian plant communities. Quantifying these differences and the potential asymmetry of responses to low- versus high-flow phases of stream fluctuations is important for predicting and managing vegetation responses to variation in flow regimes...
Authors
Bradley J. Butterfield, Emily C. Palmquist
Inundation tolerance, rather than drought tolerance, predicts riparian plant distributions along a local hydrologic gradient Inundation tolerance, rather than drought tolerance, predicts riparian plant distributions along a local hydrologic gradient
Riparian vegetation varies along hydrologic gradients, along which inundation and drought tend to be inversely correlated. Differentiating effects of inundation and drought on plant distributions is critical for predicting impacts of changes to baseflows and designing flow patterns to achieve vegetation objectives in regulated river systems. To this end, we conducted a greenhouse...
Authors
Bradley J. Butterfield, Emily C. Palmquist
Assessment of riparian vegetation patterns and change downstream from Glen Canyon Dam from 2014 to 2019 Assessment of riparian vegetation patterns and change downstream from Glen Canyon Dam from 2014 to 2019
Changes in riparian vegetation cover and composition occur in relation to flow regime, geomorphic template, and climate, and can have cascading effects on aquatic and terrestrial ecosystems. Tracking such changes over time is therefore an important part of monitoring the condition and trajectory of riparian ecosystems. Maintaining diverse, self-sustaining riparian vegetation comprised of...
Authors
Emily C. Palmquist, Bradley J. Butterfield, Barbara E. Ralston
Proceedings of the Fiscal Year 2022 Annual Reporting Meeting to the Glen Canyon Dam Adaptive Management Program Proceedings of the Fiscal Year 2022 Annual Reporting Meeting to the Glen Canyon Dam Adaptive Management Program
(Hartwell) This report is prepared primarily to account for work conducted and products delivered in FY 2022 by GCMRC and to inform the Technical Work Group of science conducted by GCMRC and its cooperators in support of the Glen Canyon Dam Adaptive Management Program (GCDAMP). It includes a summary of accomplishments, modifications to work plans, results, and recommendations related to...
Authors
David J. Topping, Paul E. Grams, Emily C. Palmquist, Joel B. Sankey, Helen C. Fairley, Bridget Deemer, Charles Yackulic, Theodore Kennedy, Anya Metcalfe, Maria C. Dzul, David Ward, Mariah Aurelia Giardina, Lucas Bair, Thomas M. Gushue, Caitlin M. Andrews, Ronald E. Griffiths, David J. Dean, Keith Kohl, Michael J Moran, Nicholas Voichick, Thomas A. Sabol, Laura A. Tennant, Kimberly Dibble, Michael C. Runge
Provenance, genotype, and flooding influence growth and resource acquisition characteristics in a clonal, riparian shrub Provenance, genotype, and flooding influence growth and resource acquisition characteristics in a clonal, riparian shrub
Premise Riparian plants can exhibit intraspecific phenotypic variability across the landscape related to temperature and flooding gradients. Phenotypes that vary across a climate gradient are often partly genetically determined and may differ in their response to inundation. Changes to inundation patterns across a climate gradient could thus result in site-specific inundation responses...
Authors
Emily C. Palmquist, Kiona Ogle, Thomas G. Whitham, Gerard J. Allan, Patrick B. Shafroth, Bradley J. Butterfield
Non-USGS Publications**
Palmquist, E., Ayers, T. and Allan, G., 2015. Genetic and morphometric assessment of the origin, population structure, and taxonomic status of Anticlea vaginata (Melanthiaceae). Systematic Botany, 40(1), pp.56-68.
**Disclaimer: The views expressed in Non-USGS publications are those of the author and do not represent the views of the USGS, Department of the Interior, or the U.S. Government.