Prioritization of Research on Drought Assessment in a Changing Climate

Joel Lisonbee; Britt Parker; Erica Fleishman; Trent W. Ford; R. Kyle Bocinsky; Gretel Follingstad; Abby G. Frazier; Zachary H. Hoylman; Amy R. Hudson; John W. Nielsen-Gammon; Natalie A. Umphlett; Elliot Wickham; Aparna Bamzai-Dodson; Royce Fontenot; Brian Fuchs; John Hammond; Jeffrey E. Herrick; Mike Hobbins; Andrew Hoell; Jacob Jones; Erin Lane; Zachary Leasor; Yongqiang Liu; Jason A. Otkin; Amanda Sheffield; Dennis Todey; Roger Pulwarty

doi:10.1029/2024EF005276

Prioritization of Research on Drought Assessment in a Changing Climate

Joel Lisonbee
, Britt Parker
, Erica Fleishman
, Trent W. Ford
, R. Kyle Bocinsky
, Gretel Follingstad
, Abby G. Frazier
, Zachary H. Hoylman
, Amy R. Hudson
, John W. Nielsen-Gammon
, Natalie A. Umphlett
, Elliot Wickham
, Aparna Bamzai-Dodson
, Royce Fontenot
, Brian Fuchs
, John Hammond
, Jeffrey E. Herrick
, Mike Hobbins
, Andrew Hoell
, Jacob Jones

Erin Lane, Zachary Leasor, Yongqiang Liu, Jason A. Otkin, Amanda Sheffield, Dennis Todey, Roger Pulwarty

University of Colorado Boulder
National Oceanic and Atmospheric Administration
Oregon State University
University of Illinois at Urbana-Champaign
Clark University
United States Department of Agriculture
Texas A&M University
Cornell University
South Carolina Department of Natural Resources
United States Geological Survey
University of Nebraska-Lincoln
University of California at Los Angeles
University of Missouri
University of Wisconsin-Madison

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

Drought is a period of abnormally dry weather that leads to hydrological imbalance. Drought assessments determine the characteristics, severity, and impacts of a drought. Climate change adds conceptual and quantitative challenges to traditional drought assessments. This paper highlights the challenges of assessing drought in a climate made non-stationary by human activities or natural variability. To address these challenges, we then identify 10 key research priorities for advancing drought science and improving assessments in a changing climate. The priorities focus on improving drought indicators to account for non-stationarity, evaluating drought impacts and their trends, addressing regional differences in non-stationarity, determining the physical drivers of drought and how they are changing, capturing precipitation variability, and understanding the drivers of aridification. Ultimately, improved drought assessments will inform better risk management, adaptation strategies, and planning, especially in areas where climate change significantly alters drought dynamics. This perspective offers a path toward more accurate and effective drought management in a non-stationary climate system.

Original language	English
Article number	e2024EF005276
Journal	Earth's Future
Volume	13
Issue number	3
DOIs	https://doi.org/10.1029/2024EF005276
State	Published - Mar 2025

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 13 Climate Action

Keywords

climate change
drought
non-stationarity
research priorities

Access to Document

10.1029/2024EF005276

Cite this

Lisonbee, J., Parker, B., Fleishman, E., Ford, T. W., Bocinsky, R. K., Follingstad, G., Frazier, A. G., Hoylman, Z. H., Hudson, A. R., Nielsen-Gammon, J. W., Umphlett, N. A., Wickham, E., Bamzai-Dodson, A., Fontenot, R., Fuchs, B., Hammond, J., Herrick, J. E., Hobbins, M., Hoell, A., ... Pulwarty, R. (2025). Prioritization of Research on Drought Assessment in a Changing Climate. Earth's Future, 13(3), Article e2024EF005276. https://doi.org/10.1029/2024EF005276

@article{882be63ca44a45aab014d5d1f2fd155d,

title = "Prioritization of Research on Drought Assessment in a Changing Climate",

abstract = "Drought is a period of abnormally dry weather that leads to hydrological imbalance. Drought assessments determine the characteristics, severity, and impacts of a drought. Climate change adds conceptual and quantitative challenges to traditional drought assessments. This paper highlights the challenges of assessing drought in a climate made non-stationary by human activities or natural variability. To address these challenges, we then identify 10 key research priorities for advancing drought science and improving assessments in a changing climate. The priorities focus on improving drought indicators to account for non-stationarity, evaluating drought impacts and their trends, addressing regional differences in non-stationarity, determining the physical drivers of drought and how they are changing, capturing precipitation variability, and understanding the drivers of aridification. Ultimately, improved drought assessments will inform better risk management, adaptation strategies, and planning, especially in areas where climate change significantly alters drought dynamics. This perspective offers a path toward more accurate and effective drought management in a non-stationary climate system.",

keywords = "climate change, drought, non-stationarity, research priorities",

author = "Joel Lisonbee and Britt Parker and Erica Fleishman and Ford, \{Trent W.\} and Bocinsky, \{R. Kyle\} and Gretel Follingstad and Frazier, \{Abby G.\} and Hoylman, \{Zachary H.\} and Hudson, \{Amy R.\} and Nielsen-Gammon, \{John W.\} and Umphlett, \{Natalie A.\} and Elliot Wickham and Aparna Bamzai-Dodson and Royce Fontenot and Brian Fuchs and John Hammond and Herrick, \{Jeffrey E.\} and Mike Hobbins and Andrew Hoell and Jacob Jones and Erin Lane and Zachary Leasor and Yongqiang Liu and Otkin, \{Jason A.\} and Amanda Sheffield and Dennis Todey and Roger Pulwarty",

note = "Publisher Copyright: {\textcopyright} 2025. The Author(s).",

year = "2025",

month = mar,

doi = "10.1029/2024EF005276",

language = "English",

volume = "13",

journal = "Earth's Future",

issn = "2328-4277",

publisher = "John Wiley \& Sons Inc.",

number = "3",

}

Lisonbee, J, Parker, B, Fleishman, E, Ford, TW, Bocinsky, RK, Follingstad, G, Frazier, AG, Hoylman, ZH, Hudson, AR, Nielsen-Gammon, JW, Umphlett, NA, Wickham, E, Bamzai-Dodson, A, Fontenot, R, Fuchs, B, Hammond, J, Herrick, JE, Hobbins, M, Hoell, A, Jones, J, Lane, E, Leasor, Z, Liu, Y, Otkin, JA, Sheffield, A, Todey, D & Pulwarty, R 2025, 'Prioritization of Research on Drought Assessment in a Changing Climate', Earth's Future, vol. 13, no. 3, e2024EF005276. https://doi.org/10.1029/2024EF005276

TY - JOUR

T1 - Prioritization of Research on Drought Assessment in a Changing Climate

AU - Lisonbee, Joel

AU - Parker, Britt

AU - Fleishman, Erica

AU - Ford, Trent W.

AU - Bocinsky, R. Kyle

AU - Follingstad, Gretel

AU - Frazier, Abby G.

AU - Hoylman, Zachary H.

AU - Hudson, Amy R.

AU - Nielsen-Gammon, John W.

AU - Umphlett, Natalie A.

AU - Wickham, Elliot

AU - Bamzai-Dodson, Aparna

AU - Fontenot, Royce

AU - Fuchs, Brian

AU - Hammond, John

AU - Herrick, Jeffrey E.

AU - Hobbins, Mike

AU - Hoell, Andrew

AU - Jones, Jacob

AU - Lane, Erin

AU - Leasor, Zachary

AU - Liu, Yongqiang

AU - Otkin, Jason A.

AU - Sheffield, Amanda

AU - Todey, Dennis

AU - Pulwarty, Roger

PY - 2025/3

Y1 - 2025/3

N2 - Drought is a period of abnormally dry weather that leads to hydrological imbalance. Drought assessments determine the characteristics, severity, and impacts of a drought. Climate change adds conceptual and quantitative challenges to traditional drought assessments. This paper highlights the challenges of assessing drought in a climate made non-stationary by human activities or natural variability. To address these challenges, we then identify 10 key research priorities for advancing drought science and improving assessments in a changing climate. The priorities focus on improving drought indicators to account for non-stationarity, evaluating drought impacts and their trends, addressing regional differences in non-stationarity, determining the physical drivers of drought and how they are changing, capturing precipitation variability, and understanding the drivers of aridification. Ultimately, improved drought assessments will inform better risk management, adaptation strategies, and planning, especially in areas where climate change significantly alters drought dynamics. This perspective offers a path toward more accurate and effective drought management in a non-stationary climate system.

AB - Drought is a period of abnormally dry weather that leads to hydrological imbalance. Drought assessments determine the characteristics, severity, and impacts of a drought. Climate change adds conceptual and quantitative challenges to traditional drought assessments. This paper highlights the challenges of assessing drought in a climate made non-stationary by human activities or natural variability. To address these challenges, we then identify 10 key research priorities for advancing drought science and improving assessments in a changing climate. The priorities focus on improving drought indicators to account for non-stationarity, evaluating drought impacts and their trends, addressing regional differences in non-stationarity, determining the physical drivers of drought and how they are changing, capturing precipitation variability, and understanding the drivers of aridification. Ultimately, improved drought assessments will inform better risk management, adaptation strategies, and planning, especially in areas where climate change significantly alters drought dynamics. This perspective offers a path toward more accurate and effective drought management in a non-stationary climate system.

KW - climate change

KW - drought

KW - non-stationarity

KW - research priorities

UR - https://www.scopus.com/pages/publications/86000113975

U2 - 10.1029/2024EF005276

DO - 10.1029/2024EF005276

M3 - Article

AN - SCOPUS:86000113975

SN - 2328-4277

VL - 13

JO - Earth's Future

JF - Earth's Future

IS - 3

M1 - e2024EF005276

ER -

Prioritization of Research on Drought Assessment in a Changing Climate

Abstract

UN SDGs

Keywords

Access to Document

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