Mocho Subbasin

From Wikipedia, the free encyclopedia

The Mocho Subbasin is the largest of the groundwater subbasins in the Livermore Valley watershed. This subbasin is bounded to the west by the Livermore Fault Zone and to the east by the Tesla Fault. Some groundwater flow occurs across these fault boundaries, but flows are discontinuous below a depth of fifty feet across the Tesla Fault and south of the Arroyo Mocho channel across the Livermore Fault.[1] Surface watercourses in this unit include Arroyo del Valle and Arroyo Seco.

Contents

[edit] Aquifer details

To the north, the Mocho Subbasin contacts the Tassajara Formation, with which no groundwater exchange occurs. Groundwater flow in the subbasin is generally from southeast toward the northwest or north, corresponding to the slope of the regional terrain and water table surface. Uncontained shallow groundwater occurs within 25 feet (8 m) of the surface, while deeper confined water has levels that occur at various depths from 75 feet (20 m) to 150 feet (50 m) below the surface.

[edit] Groundwater quality

Water quality in the subbasin is generally fair with regard to sodium bicarbonate and magnesium bicarbonate,[2] However, the trend in adverse water quality due to total dissolved solids indicates unpotable potable conditions may exist as early as 2020 due to overpopulation of the Livermore-Amador Valley by humans and associated discharge of salts to the groundwater.[3]

[edit] Geology

This subbasin is in the vicinity of the seismically active Greenville Fault associated with the Diablo Range. In fact the name of the second segment of the Greenvile Fault (starting from north to south) is the Arroyo Mocho Segment.[4] The Arroyo Mocho Segment is generally considered to be more well developed and not as youthful as traces delineating the Marsh Creek-Greenville Segment, for example.

[edit] See also

[edit] References

  1. ^ Environmental Screening Analysis, 2127 Railroad Avenue, Livermore, California, Earth Metrics rpt no. 7785, San Mateo, Ca., Feb., 1989
  2. ^ State of California Department of Water Resources, 1974
  3. ^ http://www.bonniebros.com/lhs/english/RO-word.pdf Thomas L. Bonnie, ‘'What are the projected impacts of injecting reclaimed, reverse osmosis water into the Livermore-Amador Groundwater Basin?'‘ (2000)
  4. ^ W.A.Bryant: Description of the Greenville Fault