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Data for "Natural Fluvial Connection across Watersheds"

Topographically defined drainage boundaries typically enclose natural drainage systems, which eradicate surface-water transfer across drainage divides. With this ingrained perception, cases of inter-watershed fluvial connection were overlooked or regarded as “geographic errors”. For the first time, we discuss different scenarios that may be viewed as inter-watershed fluvial connections in a global scale, collect their occurrences, assess the formative and evolutionary processes, and quantify their drainage and channel properties. By categorizing all cases into three primary classes, we demonstrate that, despite their relative rarity, these occurrences are not random phenomena. Instead, they embody a comparatively unique assemblage of scenarios governed by established hydrogeomorphic theories and understanding. Reported and known cases are found to develop as an intermediate stage of river piracy. They may also form in various avulsive settings, including alluvial fan, inland delta, anabranching river, and sand-silt bed river, as well as in headwater topography under the impact of Late Pleistocene glaciers. The wide variety of their morphologic outcomes, underlying processes, and environmental impacts through inter-watershed dispersal of water, sediment, nutrients, and species highlights the diversity and complexity of natural fluvial systems, calling for the inclusion of inter-watershed connections in future assessments of Earth's surface dynamics.

Citation

Guo, Xiwei; Piliouras, Anastasia; Lin, Peirong; Yao, Weiwei (2025). Data for "Natural Fluvial Connection across Watersheds" [Data set]. Scholarsphere. https://doi.org/10.26207/shp3-sj33

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Work Title Data for "Natural Fluvial Connection across Watersheds"
Access
Open Access
Creators
  1. Xiwei Guo
  2. Anastasia Piliouras
  3. Peirong Lin
  4. Weiwei Yao
License CC BY 4.0 (Attribution)
Work Type Dataset
Publication Date 2025
DOI doi:10.26207/shp3-sj33
Related URLs
  1. https://doi.org/10.1016/j.earscirev.2025.105203
  2. https://doi.org/10.1029/2019WR024873
  3. https://doi.org/10.6084/m9.figshare.c.5052635.v1
Deposited June 21, 2025

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Version 1
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  • Created

    June 21, 2025 15:41 by xjg5071

  • Updated

    June 21, 2025 15:41 by [unknown user]

  • Updated Description, Publication Date Show Changes

    June 21, 2025 15:53 by xjg5071

    Description
    • Topographically defined drainage boundaries typically enclose natural drainage systems, which eradicate surface-water transfer across drainage divides. With this ingrained perception, cases of inter-watershed fluvial connection were overlooked or regarded as “geographic errors”. For the first time, we discuss different scenarios that may be viewed as inter-watershed fluvial connections in a global scale, collect their occurrences, assess the formative and evolutionary processes, and quantify their drainage and channel properties. By categorizing all cases into three primary classes, we demonstrate that, despite their relative rarity, these occurrences are not random phenomena. Instead, they embody a comparatively unique assemblage of scenarios governed by established hydrogeomorphic theories and understanding. Reported and known cases are found to develop as an intermediate stage of river piracy. They may also form in various avulsive settings, including alluvial fan, inland delta, anabranching river, and sand-silt bed river, as well as in headwater topography under the impact of Late Pleistocene glaciers. The wide variety of their morphologic outcomes, underlying processes, and environmental impacts through inter-watershed dispersal of water, sediment, nutrients, and species highlights the diversity and complexity of natural fluvial systems, calling for the inclusion of inter-watershed connections in future assessments of Earth's surface dynamics.
    Publication Date
    • 2025
  • Added Creator Xiwei Guo

    June 21, 2025 15:54 by xjg5071

  • Added Creator Anastasia Piliouras

    June 21, 2025 15:54 by xjg5071

  • Added Creator Peirong Lin

    June 21, 2025 15:54 by xjg5071

  • Added Creator Weiwei Yao

    June 21, 2025 15:54 by xjg5071

  • Added Dataset.zip

    June 21, 2025 15:55 by xjg5071

  • Added README.txt

    June 21, 2025 15:55 by xjg5071

  • Updated License Show Changes

    June 21, 2025 15:56 by xjg5071

    License
    • https://creativecommons.org/licenses/by/4.0/
  • Deleted README.txt

    June 21, 2025 16:00 by xjg5071

  • Added README.txt

    June 21, 2025 16:00 by xjg5071

  • Deleted README.txt

    June 21, 2025 16:03 by xjg5071

  • Added README.txt

    June 21, 2025 16:03 by xjg5071

  • Published

    June 21, 2025 16:06 by xjg5071

  • Updated

    June 21, 2025 22:06 by [unknown user]

  • Updated Related URLs Show Changes

    June 24, 2025 16:18 by avs5190

    Related URLs
    • https://doi.org/10.1016/j.earscirev.2025.105203, https://doi.org/10.1029/2019WR024873, https://doi.org/10.6084/m9.figshare.c.5052635.v1