Hydrologic unit system (United States)

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This map of United States water resource subregion hydrologic units updated boundaries to include the ocean as well as the portions of the basins that cross international borders HUC subregions.png
This map of United States water resource subregion hydrologic units updated boundaries to include the ocean as well as the portions of the basins that cross international borders

For the use of hydrologists, ecologists, and water-resource managers in the study of surface water flows in the United States, the United States Geological Survey created a hierarchical system of hydrologic units.

Infographic explaining the hierarchy of the United States hydrologic unit system Infographic explaining the hierarchy of the United States hydrologic unit system.png
Infographic explaining the hierarchy of the United States hydrologic unit system

Originally a four-tier system divided into regions, sub-regions, accounting units, and cataloging units, each unit was assigned a unique Hydrologic Unit Code (HUC). As first implemented the system had 21 regions, 221 subregions, 378 accounting units, and 2,264 cataloging units. [1] [2] Over time the system was changed and expanded. [3] As of 2010 there are six levels in the hierarchy, represented by hydrologic unit codes from 2 to 12 digits long, called regions, subregions, basins, subbasins, watersheds, and subwatersheds. The table below describes the system's hydrologic unit levels and their characteristics, along with example names and codes. [4]

NameLevelDigitsAverage size
(square miles)
Number of HUs
(approximate)
Example nameExample code
(HUC)
Region 12177,56021Pacific Northwest17
Subregion2416,800222Lower Snake1706
Basin3610,596370Lower Snake170601
Subbasin487002,200Imnaha River17060102
Watershed510227
(40,000–250,000 acres)
22,000Upper Imnaha River1706010201
Subwatershed61240
(10,000–40,000 acres)
160,000North Fork Imnaha River170601020101

The original delineation of units, down to subbasins (cataloging units), was done using 1:250,000 scale maps and data. The newer delineation work on watersheds and subwatersheds was done using 1:24,000 scale maps and data. As a result, the subbasin boundaries were changed and adjusted in order to conform to the higher resolution watersheds within them. Changes to subbasin boundaries resulted in changes in area sizes. Therefore, older data using "cataloging units" may differ from newer, higher resolution data using "subbasins". [5]

Top-level 2-digit region hydrologic unit boundaries: 01 New England, 02 Mid Atlantic, 03 South Atlantic Gulf, 04 Great Lakes, 05 Ohio, 06 Tennessee, 07 Upper Mississippi, 08 Lower Mississippi, 09 Souris-Red-Rainy, 10 Missouri, 11 Arkansas-White-Red, 12 Texas-Gulf, 13 Rio Grande, 14 Upper Colorado, 15 Lower Colorado, 16 Great Basin, 17 Pacific Northwest, 18 California, 19 Alaska, 20 Hawaii, 21 Caribbean. Huc region-edit.png
Top-level 2-digit region hydrologic unit boundaries: 01 New England, 02 Mid Atlantic, 03 South Atlantic Gulf, 04 Great Lakes, 05 Ohio, 06 Tennessee, 07 Upper Mississippi, 08 Lower Mississippi, 09 Souris-Red-Rainy, 10 Missouri, 11 Arkansas-White-Red, 12 Texas-Gulf, 13 Rio Grande, 14 Upper Colorado, 15 Lower Colorado, 16 Great Basin, 17 Pacific Northwest, 18 California, 19 Alaska, 20 Hawaii, 21 Caribbean.

The regions (1st level hydrologic units) are geographic areas that contain either the drainage area of a major river, such as the Missouri region, or the combined drainage areas of a series of rivers, such as the Texas–Gulf region. Each subregion includes the area drained by a river system, a reach of a river and its tributaries in that reach, a closed basin or basins, or a group of streams forming a coastal drainage area. [6] Regions receive a two-digit code. The following levels are designated by the addition of another two digits. [7]

The hierarchy was designed and the units subdivided so that almost all the subbasins (formerly called cataloging units) are larger than 700 square miles (1,800 km2). Larger closed basins were subdivided until their subunits were less than 700 square miles. [6] The 10-digit watersheds were delineated to be between 40,000 and 250,000 acres in size, and the 12-digit subwatersheds between 10,000 and 40,000 acres. [5] In addition to the hydrologic unit codes, each hydrologic unit was assigned a name corresponding to the unit's principal hydrologic feature or to a cultural or political feature within the unit. [6] The boundaries of the hydrologic units usually correspond to drainage basins with some exceptions; for example, subregion 1711, called "Puget Sound", includes all U.S. drainage into not only Puget Sound but also the Strait of Georgia, Strait of Juan de Fuca, and the Fraser River. [8] Also, region and subregion boundaries end at the U.S. international boundary. [6]

The various subdivisions of this system are not necessarily synonymous with watersheds for a number of reasons. As one analysis put it: "The hydrologic unit framework is in fact composed mostly of watersheds and pieces of watersheds. The pieces include units that drain to segments of streams, remnant areas, noncontributing areas, and coastal or frontal units that can include multiple watersheds draining to an ocean or large lake. Hence, half or more of the hydrologic units are not watersheds as the name of the framework Watershed Boundary Dataset (WBD) implies. Nonetheless, hydrologic units and watersheds are commonly treated as synonymous, and this misapplication and misunderstanding can have some serious scientific and management consequences." [9]

Aquifers of the United States are organized by national principal aquifer codes and names assigned by the National Water Information System (NWIS). Aquifers are identified by a geohydrologic unit code (a three-digit number related to the age of the formation) followed by a 4 or 5 character abbreviation for the geologic unit or aquifer name. [10]

See also

Related Research Articles

<span class="mw-page-title-main">Water resource region</span>

A water resource region is the first level of classification used by the United States Geological Survey to divide and sub-divide the United States into successively smaller hydrologic units as part of the U.S. hydrologic unit system.

<span class="mw-page-title-main">Upper Mississippi water resource region</span>

The Upper Mississippi water resource region is one of 21 major geographic areas, or regions, in the first level of classification used by the United States Geological Survey to divide and sub-divide the United States into successively smaller hydrologic units. These geographic areas contain either the drainage area of a major river, or the combined drainage areas of a series of rivers.

<span class="mw-page-title-main">Lower Mississippi water resource region</span>

The Lower Mississippi water resource region is one of 21 major geographic areas, or regions, in the first level of classification used by the United States Geological Survey to divide and sub-divide the United States into successively smaller hydrologic units. These geographic areas contain either the drainage area of a major river, or the combined drainage areas of a series of rivers.

<span class="mw-page-title-main">Missouri water resource region</span>

The Missouri water resource region is one of 21 major geographic areas, or regions, in the first level of classification used by the United States Geological Survey to divide and sub-divide the United States into successively smaller hydrologic units. These geographic areas contain either the drainage area of a major river, or the combined drainage areas of a series of rivers.

<span class="mw-page-title-main">Ohio water resource region</span>

The Ohio water resource region is one of 21 major geographic areas, or regions, in the first level of classification used by the United States Geological Survey to divide and sub-divide the United States into successively smaller hydrologic units. These geographic areas contain either the drainage area of a major river, or the combined drainage areas of a series of rivers.

<span class="mw-page-title-main">Tennessee water resource region</span>

The Tennessee water resource region is one of 21 major geographic areas, or regions, in the first level of classification used by the United States Geological Survey to divide and sub-divide the United States into successively smaller hydrologic units. These geographic areas contain either the drainage area of a major river, or the combined drainage areas of a series of rivers.

<span class="mw-page-title-main">Rio Grande water resource region</span>

The Rio Grande water resource region is one of 21 major geographic areas, or regions, in the first level of classification used by the United States Geological Survey to divide and sub-divide the United States into successively smaller hydrologic units. These geographic areas contain either the drainage area of a major river, or the combined drainage areas of a series of rivers.

<span class="mw-page-title-main">Upper Colorado water resource region</span> Major geographic area

The Upper Colorado water resource region is one of 21 major geographic areas, or regions, in the first level of classification used by the United States Geological Survey to divide and sub-divide the United States into successively smaller hydrologic units. These geographic areas contain either the drainage area of a major river, or the combined drainage areas of a series of rivers.

<span class="mw-page-title-main">Lower Colorado water resource region</span> Major geographic area

The Lower Colorado water resource region is one of 21 major geographic areas, or regions, in the first level of classification used by the United States Geological Survey to divide and sub-divide the United States into successively smaller hydrologic units. These geographic areas contain either the drainage area of a major river, or the combined drainage areas of a series of rivers.

<span class="mw-page-title-main">Great Basin water resource region</span>

The Great Basin water resource region is one of 21 major geographic areas, or regions, in the first level of classification used by the United States Geological Survey to divide and sub-divide the United States into successively smaller hydrologic units. These geographic areas contain either the drainage area of a major river, or the combined drainage areas of a series of rivers.

<span class="mw-page-title-main">Pacific Northwest water resource region</span>

The Pacific Northwest water resource region is one of 21 major geographic areas, or regions, in the first level of classification used by the United States Geological Survey to divide and sub-divide the United States into successively smaller hydrologic units. These geographic areas contain either the drainage area of a major river, or the combined drainage areas of a series of rivers.

<span class="mw-page-title-main">California water resource region</span> Surface water, first-level USGS hydrologic system subdivision

The California water resource region is one of 21 major geographic areas, or regions, in the first level of classification used by the United States Geological Survey in the United States hydrologic unit system, which is used to divide and sub-divide the United States into successively smaller hydrologic units. These geographic areas contain either the drainage area of a major river, or the combined drainage areas of a series of rivers.

<span class="mw-page-title-main">Souris–Red–Rainy water resource region</span>

The Souris–Red–Rainy region is one of 21 major geographic areas, or regions, in the first level of classification used by the United States Geological Survey to divide and sub-divide the United States into successively smaller hydrologic units. These geographic areas contain either the drainage area of a major river, or the combined drainage areas of a series of rivers.

<span class="mw-page-title-main">Texas–Gulf water resource region</span>

The Texas–Gulf water resource region is one of 21 major geographic areas, or regions, in the first level of classification used by the United States Geological Survey to divide and sub-divide the United States into successively smaller hydrologic units. These geographic areas contain either the drainage area of a major river, or the combined drainage areas of a series of rivers.

<span class="mw-page-title-main">Arkansas–White–Red water resource region</span>

The Arkansas–White–Red water resource region is one of 21 major geographic areas, or regions, in the first level of classification used by the United States Geological Survey to divide and sub-divide the United States into successively smaller hydrologic units. These geographic areas contain either the drainage area of a major river, or the combined drainage areas of a series of rivers.

<span class="mw-page-title-main">Ventura–San Gabriel Coastal water resource basin</span> Third-level USGS hydrologic unit system subdivision

Ventura–San Gabriel Coastal water resource basin is one of three hydrologic basins within the Southern California Coastal water resource subregion and is one of approximately 2,200 water resource basins in the United States hydrologic unit system. The Ventura–San Gabriel Coastal water resource basin is a third-level subdivision of the United States hydrologic unit system.

<span class="mw-page-title-main">Principal aquifers of California</span> Water-holding formations below U.S. state

Principal aquifers of California are those principal aquifers of the United States that lie within the California state boundaries. Per the Oxford Dictionary of Environment and Conservation, an aquifer is a "body of permeable and/or porous rock that is underlain by impermeable rock and through which groundwater is able to flow."

<span class="mw-page-title-main">Northern Mojave–Mono Lake water resource subregion</span> Second-level USGS hydrologic unit system subdivision

Northern Mojave–Mono Lake water resource subregion is one of 10 water resource subregions within the California water resource region and is one of 222 water resource subregions in the federally organized United States hydrologic unit system.

<span class="mw-page-title-main">Santa Ana water resource basin</span> Third-level USGS hydrologic unit system subdivision

Santa Ana water resource basin is one of three hydrologic basins within the Southern California Coastal water resource subregion and is one of approximately 2,200 water resource basins in the United States hydrologic unit system. The Santa Ana water resource basin is a third-level subdivision of the United States hydrologic unit system.

<span class="mw-page-title-main">Laguna–San Diego Coastal water resource basin</span> Third-level USGS hydrologic unit system subdivision

Laguna–San Diego Coastal water resource basin is one of three hydrologic basins within the Southern California Coastal water resource subregion and is one of approximately 2,200 water resource basins in the United States hydrologic unit system.

References

  1. Seaber, Paul R., F. Paul Kapanos, and George L. Knapp (1987). "Hydrologic Unit Maps". United States Geological Survey Water-supply Papers (2294): i–iii, 1–63.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  2. "Hydrologic Unit Maps - What are Hydrologic Units?". USGS. Archived from the original on January 15, 2023. Retrieved October 27, 2010.PD-icon.svg This article incorporates text from this source, which is in the public domain .
  3. "Overview and History of Hydrologic Units and the Watershed Boundary Dataset (WBD)". Natural Resources Conservation Service. January 11, 2022. Archived from the original on July 24, 2011. Retrieved March 18, 2023.PD-icon.svg This article incorporates text from this source, which is in the public domain .
  4. "Watershed Boundary Dataset (WBD) Facts". Natural Resources Conservation Service. January 11, 2022. Archived from the original on July 24, 2011. Retrieved March 18, 2023.PD-icon.svg This article incorporates text from this source, which is in the public domain .
  5. 1 2 "Federal guidelines, requirements, and procedures for the national Watershed Boundary Dataset: U.S. Geological Survey Techniques and Methods 11–A3" (PDF). Natural Resources Conservation Service and United States Geological Survey. 2009. Archived (PDF) from the original on September 14, 2015. Retrieved November 4, 2010.
  6. 1 2 3 4 Seaber, Paul R.; Kapinos, F. Paul; Knapp, George L. "Hydrologic Unit Maps, U.S. Geological Survey Water-Supply Paper 2294" (PDF). United States Geological Survey. Archived (PDF) from the original on June 29, 2011. Retrieved November 3, 2010.
  7. "Watersheds, Hydrologic Units, Hydrologic Unit Codes, Watershed Approach, and Rapid Watershed Assessments" (PDF). USDA. Archived from the original (PDF) on October 12, 2010. Retrieved October 27, 2010.
  8. "List Hydrologic Unit Codes (HUCs) - USGS Washington". USGS. Archived from the original on June 7, 2014. Retrieved July 19, 2011.
  9. Omernik, James M.; Griffith, Glenn E.; Hughes, Robert M.; Glover, James B.; Weber, Marc H. (September 2017). "How Misapplication of the Hydrologic Unit Framework Diminishes the Meaning of Watersheds". Environmental Management. 60 (1): 1–11. doi:10.1007/s00267-017-0854-z. ISSN   0364-152X. PMC   6145848 . PMID   28378091.
  10. "National Aquifer Code Reference List". U.S. Geological Survey. March 8, 2021. Archived from the original on March 19, 2023. Retrieved March 19, 2023.