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Saltwater intrusion in California

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Seawater intrusion is either caused by groundwater extraction or increased in sea level. For every 1 foot of freshwater depression, sea-salty waters rises 40 feet as the cone of depression forms.[1] Salinization of groundwater is one of the main water pollution ever produced by mankind or from natural processes. It degrades water quality to the point it passes acceptable drink water and irrigation standards.[2] To this day, the State of California enforced several methodologies through technical innovation and scientific approach to combat saltwater intrusion in areas vulnerable to saltwater intrusion.

Los Angeles County

Groundwater basin in Los Angeles County, California is considered as a vital resource both for agricultures and residential areas. For more than 40 years, Los Angeles County have managed to protect local groundwater basins from seawater intrusion. By injecting freshwater along coastal regions, Los Angeles County tends to create hydraulic gradients between freshwater and saltwater. This prevents saltwater to advance further inland [3]. One critical factor affecting water supply in Los Angeles is population growth. As population growth increases in Los Angeles County, saltwater intrusion tends to advance further inland into Los Angeles groundwater aquifers. This occurs due to population growth, demanding an excess amount of freshwater from groundwater pumping wells. This sets an hydrologic condition for saltwater to follow the geomorphic pressure gradient produced landward. A cone of depression develops as a result through pumping wells operation to supply water for residential areas and agriculture. To combat saltwater intrusion, Los Angeles water districts decides to construct injection wells to form an hydraulic barrier, preventing advancement of saltwater intrusion in Los Angeles aquifers. Geologists, however, continue to study and survey Los Angeles County coastline because creating this hydraulic gradients is not fully efficient. To better understand saltwater intrusion in Los Angeles County, the U.S Geological Survey partners with Water Replenishment District of Southern California and Los Angeles County Department of Public Works to conduct a geological survey through using reflection seismology. This means that seismic profiles is essential to understand how sedimentation influence saltwater intrusion. [4]

Managing Seawater Intrusion in LA County

The Alamitos Barrier Project is one of the three hydraulic barriers in Los Angeles County. It was created mainly to protect groundwater supplies from seawater intrusion. It is currently operated under Los Angeles County Flood Control District and the Orange County Water District. Other joint committees include the Water Replenishment District of Southern California who is responsible for supplying water to each hydraulic barrier and then the County of Los Angeles Department of Public Works who operates the projects on a daily basis. The effects of seawater intrusion took first noticed in 1956. As a response, a coastal barrier project was later built by the Orange County Water District to combat saltwater intrusion which remains prominent and troublesome to this day. Known as Water Factory 21, the District built in seven extraction wells located 2 miles away from the coast to intercept and send saltwater back into the sea. A series of 23 injection wells were also built further inland to create a powerful hydraulic barrier between saltwater and freshwater. The water supplies of Water Factory 21 undergo several phases before it reaches the injection wells. This man-made hydraulic processes includes air stripping, recarbonation, multi-media filtration, carbon sequestration and chlorination. 23,000 acres feet of water is produced each year to supply this amount of water into each injection wells to form effective yet inefficient hydraulic barrier. After each water droplet goes through each treatment, the injections wells distributes this vast amount of freshwater into the ocean and into the groundwater basin. Majority of this freshwater is flowed into the groundwater basin to meet consumers demands.[5]

Monitoring Seawater Intrusion

Understanding the extent and rate of saltwater intrusion are key elements for sustainable water management. Ineffective management means low water quality for urban sectors and agriculture. Effective management strategies include monitoring seawater intrusion in areas prone to saltwater intrusion. Common approach for monitoring seawater intrusion include measuring groundwater level, hydrograph analysis, water quality sampling and geophysical logging. These procedures provide discrete and tangible information for early-warning signs regarding saltwater intrusion adjacent to lands and groundwater aquifers. Airborne electromagnetic measurement is used by helicopters to map out electrical resistivity. This method can provide useful information concerning water quality over 100 miles in a day by penetrating through sea surfaces to a depth of 1,500 feet. Using airborne geophysical measurement yields useful data for interpretation and hydrological information. [6]

Sacramento San-Joaquin Delta

Both the levee system and the delta islands help protects freshwater hydrology and exporting water facilities from saltwater intrusion. This can be accomplished by displacing freshwater outflow and sustaining freshwater gradient within the delta itself. This means that there is an artificial balance between saltwater flowing inland and freshwater flowing seaward. Failure of a levee system would introduce more saltwater into the Delta. This as a result would tip the balance of water-exchanging gradient in favor of saltwater advancement. Several aqueducts and the water supply system would have undesirable affects as saltwater continue to flow inland, overpowering freshwater outflow. Agricultural and domestic use, for example, may experience freshwater deficiency due to overall salinity within the Delta. This explains why the Sacramento-San Joaquin Delta becomes the heart of California’s water supply system. However, the Sacramento-San Joaquin Delta presents major vulnerabilities from both ends because sea level not only rises but freshwater outflow tends to decrease as well due to increased upstream water usage and the effects of climate change. [7] As freshwater outflow decreases in quantity, saltwater moves into the Delta affecting water management programs and climate variability. Temporally, saltwater intrusion less likely occurs in winter and spring season, where most flooding occurs. This occurs due to heavy runoff from the mountains, fending off seawater intrusion. Before human innovation and management strategies, seawater immensely flood the Delta marshes. This means economic downturn because Delta water can be costly in terms of treating the water itself. Above all, saltwater management strategies is crucial for water districts and other water agencies to intercept saltwater intrusion effectively. [7]. This also means that the overall health of the Delta’s levee system and islands is vital to protect and promote standard water quality both for farmers and urban areas. But such movement of saltwater and freshwater is difficult to manage as one big giant washing machine especially whenever a levee breaks or a lower-than-sea level delta island is then completely submerged. [8]

Agricultural Drainage in the Delta

In the southern most part of the Delta, the concentration of saltwater content increases as farmers irrigate their crops for fresh produce. The agricultural drainage water is where salinization intensified through the process of irrigation. In some occasion, there may be no delta water that is left to flush out and push back saltwater content within the delta, specifically in the south Delta. This creates a localize salinity problems for water managers to address or mitigate since salinity is highly concentrated.[9]

Suisun Marsh

The Suisun Marsh is one of the largest brackish water wetlands in the Sacramento-San Joaquin Delta. This aquatic habitat is where freshwater and saltwater meets. Here lies 230 miles of levees protecting the Suisun Marsh. The Delta salinity greatly influenced the overall health of the Suisun Marsh. This include the ecosystem in this area, encompassing living plants and neighboring species. The State Water Project’s Suisun Marsh Salinity Control Gates manages tidal flows to limit saltwater intrusion from salty tidal flows. The California’s Department of Water Resources built this tidal-flow control gate to limit high saline first introduced from Grizzly Bay and through the Montezuma Slough. [10]

References

  1. ^ "Seawater intrusions in groundwater". http://www.lenntech.com. {{cite web}}: External link in |website= (help)
  2. ^ Abd-Elaty, I., Abd Elhamid, H. F., & Javadi, A. (2016). Numerical analysis of the effects of changing hydraulic parameters on saltwater intrusion in coastal aquifers. Engineering Computations, 33(8), 2546-2564. Retrieved from https://search.proquest.com/docview/1830615685
  3. ^ Bray, B. S., & Yeh, W. W. (2008). Improving Seawater Barrier Operation with Simulation Optimization in Southern California. Journal Of Water Resources Planning & Management, 134(2), 171-180. doi:10.1061/(ASCE)0733-9496(2008)134:2(171)
  4. ^ "Saltwater Intrusion in Los Angeles Area Coastal Aquifers--the Marine Connection - FS 030-02". pubs.usgs.gov.
  5. ^ https://www.ocwd.com/media/2451/water-factory-21-brochure.pdf
  6. ^ Survey, California Water Science Center, U.S. Geological. "Seawater Intrusion - SGMA - USGS CA Water Science Center". ca.water.usgs.gov.{{cite web}}: CS1 maint: multiple names: authors list (link)
  7. ^ a b Brooks, M. (2014). Water, water, everywhere.. New Scientist, 223(2979), 36-39.
  8. ^ http://www.watereducation.org/aquapedia/sacramento-san-joaquin-delta-and-salinity
  9. ^ "Sacramento-San Joaquin Delta and Salinity - Water Education Foundation".
  10. ^ "Suisun Marsh - Water Education Foundation".