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@EcohydrologyTeam

Ecohydrology Team

🍃💦 Ecohydrology, Water Quality Modeling, Ecological Engineering, Engineering with Nature

Ecohydrology Team

The Ecohydrology Team is an interdisciplinary group of scientists and engineers led by the Environmental Laboratory, Engineer Research and Development Center, U.S. Army Corps of Engineers. The primary focus of our group is improving our understanding of the interactions between hydrological and ecological processes to improve the functioning, stability, and resiliency of degraded ecosystems and foster sustainable development through better design of Natural and Nature-Based Features (NNBF). Ecosystems and human communities are under increasing threat due to hydrological and climate extremes, development, and pollution. Better understanding of ecohydrologial processes at multiple spatial and temporal scales will help achieve the dynamic balance needed to improve these systems.

The principles of Ecohydrology are expressed in three sequential components:

  • Hydrological (Framework): The quantification of the hydrological cycle of a basin, should be a template for functional integration of hydrological and biological processes. This perspective includes issue of scale, water and temperature dynamics, and hierarchical interactions between biotic and abiotic factors.
  • Ecological (Target): The integrated processes at river basin scale can be steered in such a way as to enhance the basin's carrying capacity and its ecosystem services. This component deals with aspects of ecosystem resilience and resistance.
  • Ecological Engineering (Method): The regulation of hydrological and ecological processes, based on an integrative system approach, is thus a new tool for Integrated Water Basin Management. This method integrates the hydrological framework and ecological targets to improve water quality and ecosystem services, using engineering methods such as levees, biomanipulation, reforestation, and other management strategies.

Three principal hypotheses were proposed by Zalewski et al., 1997:

  • Hydrological processes generally regulate biota.
  • Biota can be shaped as a tool to regulate hydrological processes.
  • Hydrological and biological regulations can be integrated with hydro-technical infrastructure to achieve sustainable water and ecosystem services.

Considerations:

  • Flow path of the water through the watershed
  • Residence time, which is related to inflow and outflow rates and system storage
  • Biogeochemical reactions, which may change the species and types of chemical compounds dissolved in the water (nutrients, dissolved oxygen, etc.)
  • Connectivity of the system, including how system flows interact as well as how the hydrology, ecology, and biogeochemistry of the system interact

Pinned Loading

  1. CE-QUAL-W2 CE-QUAL-W2 Public

    Fortran 12 1

  2. Distribution Distribution Public

    Jupyter Notebook

  3. Ecohydrology Ecohydrology Public

  4. CE-QUAL-W2-Workshop-2022 CE-QUAL-W2-Workshop-2022 Public

    HTML 1

  5. ClearWater-riverine ClearWater-riverine Public

    A 2D water quality transporter model to calculate conservative advection and diffusion of constituents from an unstructured grid of flows

    Python 6

  6. ClearWater-modules ClearWater-modules Public

    A collection of water quality and vegetation process simulation modules designed to couple with water transport models.

    Python 5 1

Repositories

Showing 10 of 18 repositories
  • Share Public

    Repository for sharing information

    EcohydrologyTeam/Share’s past year of commit activity
    0 MIT 0 0 0 Updated Oct 31, 2024
  • ClearWater-riverine Public

    A 2D water quality transporter model to calculate conservative advection and diffusion of constituents from an unstructured grid of flows

    EcohydrologyTeam/ClearWater-riverine’s past year of commit activity
    Python 6 MIT 0 33 0 Updated Sep 28, 2024
  • ClearWater-modules Public

    A collection of water quality and vegetation process simulation modules designed to couple with water transport models.

    EcohydrologyTeam/ClearWater-modules’s past year of commit activity
    Python 5 MIT 1 25 (3 issues need help) 1 Updated Sep 25, 2024
  • CE-QUAL-W2-Workshop-2024 Public

    Workshop: Water Quality Modeling with CE-QUAL-W2, July 8 - 9, 2024

    EcohydrologyTeam/CE-QUAL-W2-Workshop-2024’s past year of commit activity
    Python 0 Apache-2.0 1 0 0 Updated Sep 12, 2024
  • CE-QUAL-W2-python Public

    Python programs for CE-QUAL-W2 data analysis and visualization

    EcohydrologyTeam/CE-QUAL-W2-python’s past year of commit activity
    Jupyter Notebook 0 MIT 0 1 0 Updated Aug 20, 2024
  • EcohydrologyTeam/CE-QUAL-W2-Workshop-2023-V2’s past year of commit activity
    0 Apache-2.0 0 0 0 Updated Jun 27, 2024
  • EcohydrologyTeam/CE-QUAL-W2’s past year of commit activity
    Fortran 12 MIT 1 3 0 Updated Mar 18, 2024
  • EcohydrologyTeam/Distribution’s past year of commit activity
    Jupyter Notebook 0 MIT 0 0 0 Updated Sep 21, 2023
  • EcohydrologyTeam/Ecohydrology’s past year of commit activity
    0 MIT 0 0 0 Updated Sep 20, 2023
  • CEQUALW2geomTools Public

    Code Development for CE-QUAL-W2 Geometry Tools

    EcohydrologyTeam/CEQUALW2geomTools’s past year of commit activity
    Python 0 0 12 0 Updated Aug 25, 2023

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