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Overview of the valley
Santa Clara valley aquifer

The Santa Clara valley aquifer is a groundwater aquifer located in the southern San Francisco Bay Area. The geology of the Santa Clara valley aquifer consists of a complex stratigraphy of permeable and impermeable units.[1] Management of aquifer resources is associated with the Santa Clara Valley Water District.

History

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In the early parts of the 20th century the Santa Clara Valley was a protonate vegetable and fruit growing region. Ground water was pumped heavily and led to the Santa Clara valley to be the first region recognized to be affected by land subsidence in the 1940s.[2] Between 1912 and 1966 artesian pressure levels dropped more than 200 ft (61 m). The decreasing pressure heads resulted in land subsidence of up to 15 ft. (4.6 m).[3] Santa Clara Water Valley District and other water purveyors have work to refined management practices which have halted land subsidence. During the 1960s due to the substantial decrease in ground water the SCWVD began to import surface water. [4] The Central Valley Project and the California State water project provide the surface water which has been beneficial to the region.

Hydrogeological framework

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The groundwater aquifer can be separated into two major regions the Upper and lower aquifer. The alluvial boundary which surrounds the valley allows for water to permeate through the ground which then flows horizontally into the confine region of the aquifer. [5]This system creates a convergent flow within the area which is bound by the topography of the region. The faults in the region also play a role in how groundwater is control which furthermore subdivides the aquifer into three sub regions.  The hydrogeology of the aquifer has been significantly altered by surface water which is treated and recharged to the aquifer while also providing water to local users.[6]

Hydrogeology structure

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Well core data indicate that the Santa Clara valley aquifer consists of between four and six different water bearing units. The aquifer is composed of both confined and unconfined units. Water bearing units are generally coarse-grained and separated by relatively fine-grained units. The thicknesses of coarse-grained sections vary between 10 and 25 ft. (3.0 and 7.6 m) in the southeast and between 50 and 200 ft. (15 and 61 m) in the south-central and southwestern areas of the valley. Temperature data from monitoring wells indicate that horizontal groundwater flow occurs primarily above 775 ft. (236 m) in southern-central regions and above 510 ft. (160 m) in southeastern areas.[7] Faults also play a big role in how water is control depending on the sediments permeability, the Silver Creek fault creates seasonal subsidence or uplift on the west side or long term uplift on the east side. [5] The Uplift has been associated with the dam on the eastern side of the Valley.

Land Subsidence

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Subsidence has been a key issue in the region which led to 17 square miles of dry land to sink beneath high tide levels in the 1969, this region was adjacent to the San Francisco Bay. The region is now heavily rigged with ring dikes and control levees which work as flood control and prevent landward movement of salt water. Land subsidence created a need for controlling stream channels to ensure water flowed into the Bay. [2][6] The majority of land subsidence has occurred in the confide region of the aquifer.[5]

Land Uplift

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The effort conducted in the valley has to halt subsidence which resulted in uplift from 1992 to 1998 the mean uplifted surveyed was 6.4 ± 2.2mm/yr which was noted in Sunnyvale and east San Jose. However, there is still a lot of land deformation from subsidence, but not notable from fault movement. [5] The majority of notable uplift has been noted to be in the southern most region of the confide region of the aquifer which has be seen as seasonal.[5]

Management

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Decades of ground water depletion due to urban development and agriculture resulted in substantial land subsidence. The Santa Clara Valley Water District in part with other water purveyors have replenished ground water levels by artificial recharge which is occurring in the upper 500 ft. of the upper aquifer.[6]

Artificial Recharge

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Percolation ponds were built in the margins of the Santa Clara Valley to help increase the rate of recharge to utilize rainfall runoff. However, the Percolation pond did not produce any uplift, due to the compacted interbeds of the upper aquifer. [5] Recharge wells pump treated water into the confide region of the water which have produced uplift.

Water quality

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The quality of the groundwater is considered as "good", but if the demand for ground water exceeds the amount replenished. This would increase the risk of sea water intrusion which could alter the compositions of the aquifer which may degrade the water quality.[6] The characteristic of the water is identified to be Calcium bicarbonate which occurs in the region of 200 ft and above the subsurface while in-between 200 -1000 ft it is Id as sodium bicarbonate [8]

References

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  1. ^ "Wells and water levels in principal ground-water basins in Santa Barbara County, California: Part 1, Carpinteria, Goleta, and Santa Ynez Valleys, 1930-41; Part 2, San Antonio, Santa Maria, and Cuyama Valleys, 1920-41". 1950. {{cite journal}}: Cite journal requires |journal= (help)
  2. ^ a b Devin Galloway, David R. Jones, S.E Ingebritsen (2001-07-09). "Santa Clara Valley" (PDF). Land Subsidence in the United States – via USGS.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  3. ^ "Wells and water levels in principal ground-water basins in Santa Barbara County, California: Part 1, Carpinteria, Goleta, and Santa Ynez Valleys, 1930-41; Part 2, San Antonio, Santa Maria, and Cuyama Valleys, 1920-41". 1950. {{cite journal}}: Cite journal requires |journal= (help)
  4. ^ "State Water Project | Santa Clara Valley Water". www.valleywater.org. Retrieved 2022-05-10.
  5. ^ a b c d e f Schmidt, David A.; Bürgmann, Roland (2003-09). "Time-dependent land uplift and subsidence in the Santa Clara Valley, California, from a large interferometric synthetic aperture radar data set: SANTA CLARA VALLEY INSAR TIME SERIES". Journal of Geophysical Research: Solid Earth. 108 (B9). doi:10.1029/2002JB002267. {{cite journal}}: Check date values in: |date= (help)
  6. ^ a b c d Hanson, R.T. (2015-06-01). "Hydrologic framework of the Santa Clara Valley, California". Geosphere. 11 (3): 606–637. doi:10.1130/GES01104.1. ISSN 1553-040X.
  7. ^ Newhouse, M.W.; Hanson, R.T.; Wentworth, C.M.; Everett, Rhett R.; Williams, C.F.; Tinsley, J.C.; Noce, T.E.; Carkin, B.A. (2004). "Geologic, water-chemistry, and hydrologic data from multiple-well monitoring sites and selected water-supply wells in the Santa Clara Valley, California, 1999-2003". Scientific Investigations Report. doi:10.3133/sir20045250. ISSN 2328-0328.
  8. ^ "State Water Project | Santa Clara Valley Water". www.valleywater.org. Retrieved 2022-05-13.