Advancing the science of headwater streamflow for global water protection

Heather E. Golden; Jay R. Christensen; Hilary K. McMillan; Christa A. Kelleher; Charles R. Lane; Admin Husic; Li Li; Adam S. Ward; John Hammond; Erin C. Seybold; Kristin L. Jaeger; Margaret Zimmer; Roy Sando; C. Nathan Jones; Catalina Segura; D. Tyler Mahoney; Adam N. Price; Frederick Cheng

doi:10.1038/s44221-024-00351-1

Advancing the science of headwater streamflow for global water protection

Heather E. Golden
, Jay R. Christensen
, Hilary K. McMillan
, Christa A. Kelleher
, Charles R. Lane
, Admin Husic
, Li Li
, Adam S. Ward
, John Hammond
, Erin C. Seybold
, Kristin L. Jaeger
, Margaret Zimmer
, Roy Sando
, C. Nathan Jones
, Catalina Segura
, D. Tyler Mahoney
, Adam N. Price
, Frederick Cheng

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

17 Scopus citations

Abstract

The protection of headwater streams faces increasing challenges, exemplified by limited global recognition of headwater contributions to watershed resiliency and a recent US Supreme Court decision limiting federal safeguards. Despite accounting for ~77% of global river networks, the lack of adequate headwaters protections is caused, in part, by limited information on their extent and functions—in particular, their flow regimes, which form the foundation for decision-making regarding their protection. Yet, headwater streamflow is challenging to comprehensively measure and model; it is highly variable and sensitive to changes in land use, management and climate. Modelling headwater streamflow to quantify its cumulative contributions to downstream river networks requires an integrative understanding across local hillslope and channel (that is, watershed) processes. Here we begin to address this challenge by proposing a consistent definition for headwater systems and streams, evaluating how headwater streamflow is characterized and advocating for closing gaps in headwater streamflow data collection, modelling and synthesis.

Original language	English (US)
Pages (from-to)	16-26
Number of pages	11
Journal	Nature Water
Volume	3
Issue number	1
DOIs	https://doi.org/10.1038/s44221-024-00351-1
State	Published - Jan 2025

All Science Journal Classification (ASJC) codes

Environmental Engineering
Environmental Science (miscellaneous)
Water Science and Technology

UN SDGs

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

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10.1038/s44221-024-00351-1

Cite this

Golden, H. E., Christensen, J. R., McMillan, H. K., Kelleher, C. A., Lane, C. R., Husic, A., Li, L., Ward, A. S., Hammond, J., Seybold, E. C., Jaeger, K. L., Zimmer, M., Sando, R., Jones, C. N., Segura, C., Mahoney, D. T., Price, A. N., & Cheng, F. (2025). Advancing the science of headwater streamflow for global water protection. Nature Water, 3(1), 16-26. https://doi.org/10.1038/s44221-024-00351-1

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title = "Advancing the science of headwater streamflow for global water protection",

abstract = "The protection of headwater streams faces increasing challenges, exemplified by limited global recognition of headwater contributions to watershed resiliency and a recent US Supreme Court decision limiting federal safeguards. Despite accounting for \textasciitilde{}77\% of global river networks, the lack of adequate headwaters protections is caused, in part, by limited information on their extent and functions—in particular, their flow regimes, which form the foundation for decision-making regarding their protection. Yet, headwater streamflow is challenging to comprehensively measure and model; it is highly variable and sensitive to changes in land use, management and climate. Modelling headwater streamflow to quantify its cumulative contributions to downstream river networks requires an integrative understanding across local hillslope and channel (that is, watershed) processes. Here we begin to address this challenge by proposing a consistent definition for headwater systems and streams, evaluating how headwater streamflow is characterized and advocating for closing gaps in headwater streamflow data collection, modelling and synthesis.",

author = "Golden, \{Heather E.\} and Christensen, \{Jay R.\} and McMillan, \{Hilary K.\} and Kelleher, \{Christa A.\} and Lane, \{Charles R.\} and Admin Husic and Li Li and Ward, \{Adam S.\} and John Hammond and Seybold, \{Erin C.\} and Jaeger, \{Kristin L.\} and Margaret Zimmer and Roy Sando and Jones, \{C. Nathan\} and Catalina Segura and Mahoney, \{D. Tyler\} and Price, \{Adam N.\} and Frederick Cheng",

note = "Publisher Copyright: {\textcopyright} This is a U.S. Government work and not under copyright protection in the US; foreign copyright protection may apply 2025.",

year = "2025",

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doi = "10.1038/s44221-024-00351-1",

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Golden, HE, Christensen, JR, McMillan, HK, Kelleher, CA, Lane, CR, Husic, A, Li, L, Ward, AS, Hammond, J, Seybold, EC, Jaeger, KL, Zimmer, M, Sando, R, Jones, CN, Segura, C, Mahoney, DT, Price, AN & Cheng, F 2025, 'Advancing the science of headwater streamflow for global water protection', Nature Water, vol. 3, no. 1, pp. 16-26. https://doi.org/10.1038/s44221-024-00351-1

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AU - Christensen, Jay R.

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AU - Lane, Charles R.

AU - Husic, Admin

AU - Li, Li

AU - Ward, Adam S.

AU - Hammond, John

AU - Seybold, Erin C.

AU - Jaeger, Kristin L.

AU - Zimmer, Margaret

AU - Sando, Roy

AU - Jones, C. Nathan

AU - Segura, Catalina

AU - Mahoney, D. Tyler

AU - Price, Adam N.

AU - Cheng, Frederick

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Advancing the science of headwater streamflow for global water protection

Abstract

All Science Journal Classification (ASJC) codes

UN SDGs

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