Sacramento–San Joaquin River Delta

Northern California's Sacramento-San Joaquin River Delta. The Sacramento River flows into the delta from the north and the San Joaquin River from the south through Stockton.
The Delta viewed from above Sherman Island, with the Sacramento River above and San Joaquin River below

The Sacramento–San Joaquin River Delta, or California Delta, is an expansive inland river delta and estuary in Northern California. The Delta is formed at the western edge of the Central Valley by the confluence of the Sacramento and San Joaquin rivers and lies just east of where the rivers enter Suisun Bay. The Delta is recognized for protection by the California Bays and Estuaries Policy.[1] The city of Stockton is located on the San Joaquin River on the eastern edge of the delta. The total area of the Delta, including both land and water, is about 1,100 square miles (2,800 km2).

The Delta was formed by the raising of sea level following glaciation, leading to the accumulation of Sacramento and San Joaquin River sediments behind the Carquinez Strait, the sole outlet from the Central Valley to San Pablo and San Francisco Bays and the Pacific Ocean. The narrowness of the Carquinez Strait coupled with tidal action has caused the sediment to pile up, forming expansive islands. Geologically, the Delta has existed for about 10,000 years, since the end of the last Ice Age. In its natural state, the Delta was a large freshwater marsh, consisting of many shallow channels and sloughs surrounding low islands of peat and tule.

Since the mid-19th century, most of the region has been gradually claimed for agriculture. Wind erosion and oxidation have led to widespread subsidence on the Central Delta islands; much of the Delta region today sits below sea level, behind levees earning it the nickname "California's Holland".[2][3] Much of the water supply for central and southern California is also derived from here via pumps located at the southern end of the Delta, which deliver water for irrigation in the San Joaquin Valley and municipal water supply for southern California.

Geography

The Old River, a former channel of the San Joaquin River located in the southwestern Delta

The Delta consists of approximately 57 reclaimed islands and tracts, surrounded by 1,100 miles (1,800 km) of levees that border 700 miles (1,100 km) of waterways.[4] The southwestern side of the Delta lies at the foothills of the California Coast Ranges, while to the northwest sit the lower Montezuma Hills. Most of the Delta lies within Contra Costa, Sacramento, San Joaquin, Solano and Yolo Counties.[5] The total human population of the Delta was 515,264 as of 2000.[4]

Altogether, the Delta covers 1,153 square miles (2,990 km2), with 841 sq mi (2,180 km2), or nearly 73 percent, devoted to agriculture. About 100 sq mi (260 km2) of the Delta area is urban and 117 sq mi (300 km2) are undeveloped land. The rivers, streams, sloughs and waterways of the Delta total about 95 sq mi (250 km2) of surface, although this fluctuates greatly with seasons and tides.[4] Geologically, it is not considered a true river delta, but rather an inverted river delta, as it formed inward (sediments accumulating progressively inland) rather than outward. The only other major river delta in the world located this far inland is the Pearl River Delta in China.[6]

The main source rivers include the Sacramento River from the north, the San Joaquin from the southeast, and the Calaveras and Mokelumne Rivers from the east. The Calaveras and Mokelumne are both tributaries of the San Joaquin River. The Sacramento and San Joaquin Rivers join at the western end of the Delta near Pittsburg, at the head of Suisun Bay, although they are linked upstream by the Georgiana Slough, which was first used by steamboats in the 19th century as a shortcut between Sacramento and Stockton. The southwestern part of the Delta is also transected by the Middle River and Old River, former channels of the San Joaquin. These rivers transport more than 30 million acre feet (37 km3) of water through the Delta each year – about 50 percent of all California's runoff.[7]

Nearby cities include Lodi and Stockton to the east, Tracy and Manteca to the south, Brentwood to the southwest, and Pittsburg and Antioch to the west. The state capital, Sacramento, is located just to the north of the Delta.[8]

The Sacramento River Deep Water Ship Channel connects the Delta to the Port of Sacramento, with its terminus located near Rio Vista, on the northwestern side of the Delta. The Stockton Ship Channel is a dredged and partially straightened section of the San Joaquin River cutting directly through the Delta from the Port of Stockton to the San Joaquin's confluence with the Sacramento near Antioch.

Geology, formation and natural conditions

"The virgin California Delta was so vast, wild and confusing – its sloughs meandered everywhere and led nowhere – that John C. Frémont lost a whole regiment in there for several days, and some who ventured in just disappeared."

Marc Reisner, A Dangerous Place (2003)[6]

The Delta was formerly located at the bottom of a large inland sea in the Central Valley, which formed as the uplift of the California Coast Ranges blocked off drainage from the Sierra Nevada to the Pacific. About 560,000 years ago, water breached the mountains, carving out the present-day Carquinez Strait and San Francisco Bay. The drainage of all the water through this narrow gap formed a bottleneck in the Central Valley's outflow; this constriction is essential to provoke the slowing of river current and the resulting sediment deposits that now make up the Delta.[9]

The Delta in its contemporary (pre-1850s) state began to form about 10,000 years ago at the end of the last Ice Age. During the Ice Age global sea levels were about 300 ft (91 m) lower than today, and the Delta region, as well as Suisun Bay, the Carquinez Strait and San Francisco Bay, were a river valley through which the continuation of the Sacramento and San Joaquin Rivers flowed to the Pacific Ocean. When sea levels rose again, ocean water backed up through the Carquinez Strait into the Central Valley; the combination of the narrow strait and tidal action pushing inland dramatically slowed the current of these rivers and forced them to drop sediment. The early delta was composed of shifting channels, sand dunes, alluvial fans and floodplains that underwent constant fluctuation because of rapidly rising seas – 1 inch (2.5 cm) per year. About 8,000 years ago, the rate of sea-level rise slackened, allowing wetland plants to take hold in the Delta, trapping sediment; the growth and decay of these plants began to form the vast peat deposits that make up the Delta islands. The Delta reached a stabilized form similar to its mid-1800s state about 2,000–3,000 years ago.[10]

An 1850 drawing of the Sacramento River in the Delta, showing the lush foliage that made up much of the virgin Delta.

Immediately before large-scale human development, most of the Delta islands had saucer-like cross sections, with low natural levees flanking a marshy interior "bowl" that flooded intermittently with the seasons and tides. The height of these natural levees, formed from overbank deposits of sediments deposited by annual river floods, ranged from 1 ft (0.30 m) above mean high tide at Sherman Island on the Sacramento River, to 7 to 8 ft (2.1 to 2.4 m) at Andrus, Staten and Tyler Islands, located further east near the Mokelumne River. An estimated 60 percent of the Delta flooded for up to two hours each day at high tide;[11] during spring tides or river floods, it was not uncommon for the entire Delta to be under water.[12]

History

Humans have inhabited the Delta for up to 4,300 years.[13] The estimated indigenous population of the Delta at the time of first contact with Europeans was about 3,000–15,000, predominantly Miwok and Maidu,[11] with some estimates ranging up to 20,000.[14] The Native Americans lived in villages of 200–1,000 people on the eastern edge of the Delta, where the land was higher and less susceptible to flooding. Their lives centered around the abundant reeds or tules that grew on the Delta islands, which they used to make houses, boats, and garments.[11] Staple foods included tule roots and pollen, acorns, wild fruits and seeds, fish and game.[15]

Europeans first entered the Delta region in 1772, when Spanish explorer Don Pedro Fages and missionary Juan Crespí observed the Delta from the summit of nearby Mount Diablo. For decades, the Delta was little utilized by the Spanish colonists. Expeditions from 1806–1812 failed to locate suitable mission sites in the Delta area. However, frequent military expeditions were made into the Delta from 1813–1845 in response to animosities between the Native Americans and the Spanish and later Mexicans; also several land grants were made in the vicinity of the Delta, including one to John Augustus Sutter, who started the first significant European settlement in the Central Valley just north of the Delta near present-day Sacramento.[15]

An 1873 map showing the river systems of the Central Valley, with wetlands marked in gray. The Delta, at roughly left center, was the largest area of contiguous, perennial wetlands in pre-development California.

The Spanish conscripted large numbers of Native Americans for labor on missions; many Native Americans fled deep into the Delta in order to escape their European masters. However, this did not protect them from diseases. A malaria epidemic in 1833 decimated local native populations; this was probably exacerbated by the marshy geography of the area, which bred large amounts of mosquitoes.[14]

The agricultural value of the Delta was first recognized during the California Gold Rush, when farmers planted orchards on Delta islands to provide fresh fruit for mining camps in the Sierra Nevada.[16] Because of the flat terrain coupled with year-round availability of fresh water, irrigation here was cheaper and simpler than other fertile regions of California. As a result, the Delta remained California's richest farming region (alongside Los Angeles County) until the 1940s, when massive federal water projects finally made possible the full-scale irrigation of the main body of the Central Valley. Today, the Delta is still among the state's most productive farming regions.[17]

In 1850, Congress passed the Arkansas or Swampland Act, which allowed for the transfer of title for wetlands to private owners on the conditions that the land would be reclaimed. In California, more than 2 million acres (810,000 ha) of wetlands were partitioned under the Swampland Act, of which 500,000 acres (200,000 ha) were in the Sacramento-San Joaquin Delta, roughly the same amount of land that has been developed to date.[18] Agricultural interests in the Delta were protected by the building of levees, a colossal effort first undertaken by Chinese laborers from the 1850s to the 1870s. The Board of Reclamation, formed in 1861, collectivized levee construction in the Delta by grouping islands into areas known as reclamation districts.[15] The early levees were built of peat, and were highly susceptible to wind and water erosion. The Great Flood of 1862 obliterated much of the existing Delta infrastructure, forcing landowners to rebuild their levees higher and stronger; more flooding in 1878 and 1881 reinforced these notions.[15]

Although land holdings in the Delta were initially limited to 320 acres (130 ha) per buyer, this limit was repealed in 1868, allowing large agricultural conglomerates to take entire islands and carry out massive reclamation projects. From 1868-1869, the entirety of Sherman Island, some 14,000 acres (5,700 ha), was diked and drained by a system of levees, flumes and floodgates.[19] By the 1890s, the original levee system had been largely replaced with stronger embankments consisting of clay dredged from nearby river bottoms.[20] By 1900, about 235,000 acres (95,000 ha), or nearly half of the Delta's land area, had been reclaimed.[15] Most of the farmable land in the Delta had been reclaimed by the 1920s.[18]

Economy and human use

Agriculture

The Delta produces crops valued at about $500 million annually in 1993,[4] making it one of the most productive farming regions of the United States in terms of crop value per unit area. Agriculture provides secondary benefits of over $2 billion to the local economy.[17] Major crops grown in the Delta include corn, grain, hay, sugar beets, alfalfa, tomatoes, asparagus, and safflower; various fruits are also raised here, as well as some livestock.[4] Crops in the Delta cannot be irrigated using conventional methods due to the highly absorbent quality of the peat soil and irregularities caused by land subsidence. Irrigation is typically carried out periodically by piping water into small "spud ditches", which spread water over large areas and raise the local water table. The heightened groundwater is then gradually depleted by the crop until irrigation is required again.[18]

Delta waterways are also major transportation corridors for agricultural products; the ports of Sacramento and Stockton, located on the Sacramento and San Joaquin rivers, respectively, are the most important inland ports in California. The San Joaquin River throughout most of the Delta and the lower Sacramento River below its connection to the Sacramento Deep Water Ship Channel are routinely dredged to allow the passage of large cargo ships. The Sacramento River corridor has been maintained to a depth of 7 ft (2.1 m) as early as 1899, and was deepened to 30 ft (9.1 m) in 1955. The Stockton Ship Channel has been dredged since 1913; however, its present depth of 37 ft (11 m) was only achieved in 1987.[15]

Water supply

The Delta (located south of Sacramento, middle left, at the confluence of the Sacramento and San Joaquin rivers) is central to California's water supply system.

The Delta is often considered the nexus of California's statewide water system.[21][22] About half the total river flow in the state passes through this region, from which water is exported to the San Joaquin Valley, Southern California and portions of the Bay area to supply some 1,130,000 acres (460,000 ha) of farmland and 23 million people in central and Southern California.[23] The Delta provides an estimated 7 million acre feet (8.6 km3) of water per year, of which about 100,000 acre feet (0.12 km3) are exported to the San Francisco Bay Area, 1.7 million acre feet (2.1 km3) are used locally, and over 5 million acre feet (6.2 km3) are exported to the San Joaquin Valley, coastal Central and Southern California.[7]

Intrusion of brackish water into the Delta is a recurring natural phenomenon; however, it became a serious issue after the development of agriculture in the upper Sacramento and San Joaquin valley reduced inflows. Multiple droughts between 1910 and 1940 caused significant salinity intrusion in the Delta because of the reduction of freshwater inflows. The growing Delta water quality issue provided the initial impetus for building dams on Central Valley rivers to boost dry-season freshwater flows. This eventually became the Central Valley Project (CVP), California's first major statewide water system, most of which was built between the 1930s and the 1960s.[24]

Today, the California Aqueduct and the Delta-Mendota Canal, two of the state's largest water conveyance facilities, both draw water from the southern end of the Delta at the Clifton Court Forebay. Built in the mid-twentieth century, the former supplies water to the Los Angeles Basin and coastal central California via the State Water Project; the latter, a part of the CVP, provides supplies of irrigation water in the fertile San Joaquin Valley. Although the vast majority of water supplied by these projects is used for agriculture and urban areas, some water is also provided for wildlife refuges and habitat conservation works.[25] The Contra Costa Canal and North Bay Aqueduct also take Delta water, supplying the nearby San Francisco Bay Area. Locally, the Delta provides water for cities and towns in five counties and for over 1,800 agricultural users.[4]

Effects of the levee system and freshwater diversion

Land subsidence in the Delta as of 1995

The levee system allowed farmers to drain and reclaim almost 500,000 acres (2,000 km2) of the Delta, then a tidal marsh. Once the rivers were confined to their riverbeds, the peat soil of the former tidal marsh was exposed to oxygen. As the oxygen-rich peat soil decomposed and then released carbon dioxide, profound subsidence of the land resulted. Currently, most of the Delta is below sea level, with a great deal of the western and central Delta at least 15 feet (4.6 m) below sea level. Land subsidence has endangered the Delta’s system of protective levees, occasionally triggering levee failure and subsequent flooding.[26][27]

Using the Delta as the primary valve in a linear water system may have been convenient for a period, but that convenience has come at a high price for the environment.

—Paul Shigley, The Devil Is in the Delta (2012)[11]

Land subsidence also allows brackish water intrusion into the Delta, an issue compounded by the diversion of up to 25% of the freshwater flowing into the Delta. The decreased volume of freshwater in the Delta has had a profound effect on its ecology.[28] In most years, large dams in the Delta watershed fully hold back spring runoff; as a result the Delta is most susceptible to salinity intrusion between February and June. However, regulation provided by dams helps boost freshwater flows during dry summers and autumns, reducing the risk of salinity intrusion in these months.[7]

Diversions located at the southern end of the Delta, however, have negated some of the benefits of upstream dams. The powerful pumps that supply water for the Central Valley Project and State Water Project cause water in the Delta to flow from north to south instead of the natural direction of east to west. This has caused multiple environmental issues, such as the disruption of fish migration and salinity buildup in the eastern Delta, where salts can no longer be flushed to the sea by natural river flows.[11]

Levee failures

Sacramento-San Joaquin Delta at flood stage, spring 2009. Photo by Doc Searls.

Since 1900, there have been over 160 levee failures in the Sacramento–San Joaquin River Delta. These numbers include multiple failures of a single levee structure. Levee failures, also known as breaches, can be caused by overtopping or structural failure. The most recent example of levee failure in the Sacramento–San Joaquin River Delta occurred in June 2004 when a levee breach caused more than 150,000 acre·ft (190,000,000 m3) of water to flood the entire island of Jones Tract.[29]

But, the significant improvements made to the Delta levee system since 1982 have reduced the incidence of failures to this one major failure in 30 years. The most up-to-date description and discussion of the Delta levee system can be found in the Economic Sustainability Plan of the Delta Protection Commission.[30] This study concluded that the Delta levee system is now relatively robust but should be improved to effectively eliminate the risk of failure in extreme floods and earthquakes. It emphasizes the significant value of the infrastructure that passes through the Delta, including water conveyance, in addition to life and property, and the value of the Delta as a Place.

Ecology

About 500 plant and animal species inhabit the Delta, which is one of the largest estuaries in western North America.[4] Before agricultural development of the Delta region, the Delta's many islands were forested by Tule, bulrush, and various reeds that flourished in intermittently flooded, low-lying marshy areas. Over thousands of years, the growth and decay of the various swampland plants formed a layer of peat 50 feet (15 m) deep in places, hence the extremely high fertility of Delta soils.[31] Sediment deposits formed natural levees around the borders of islands, where larger trees, mainly willows,[32] were able to take root and form large riparian forests.[7] The riparian forests were most pronounced along the Sacramento River and the lower Mokelumne River below its confluence with the Cosumnes River.[33] More extensive woodlands were prominent on the fringes of the Delta bordering the riparian zones. Composed primarily of valley oak, box elder and Oregon ash, these oak woodlands grew in bands that stretched up to 3 miles (4.8 km) inland. Farther away from water sources, vegetation gave way to grassland.[34] The water Hyacinth has become one of the most destructive plants to the Delta water way. Within one year it will spread and cover as much as 6500 sq ft of water space in one growing season. It has become a challenge to the agricultural community to eliminate. The plants spread by budding and spreading its seeds, and those seeds fall to the bottom of the water, where they can stay viable in the muck for years. The Hyacinth can form a mat up to six feet thick, shutting off light and becoming acidic when they decompose. [35]

The tiny Delta smelt is an Endangered Species Act threatened species that has caused controversy over the amount of water that can be sustainably pumped from the Delta.

The Delta was formerly populated by large herds of deer and tule elk; their trails were so vast that early Spanish explorers supposed the area was inhabited by cattle.[21] Significant numbers of California grizzly bears could also be found in the Delta.[15] The extensive wetlands of the Delta supported massive bird populations,[21] even today, half the migrating waterfowl in California still pass through the Delta.[36] A survey in 2012 recorded a spring duck population of 48.6 million, the highest since counts began in 1955.[37] Large mammals in the Delta have not fared so well; with most of their habitat converted to agriculture, remaining populations were highly susceptible to human impacts and natural disasters. Grizzlies were hunted to extinction, while the flood of 1878 wiped out the last of the elk herds in the Delta.[15]

The Delta is home to approximately 22 species of fish, including several Pacific salmon species, striped bass, steelhead trout, American shad and sturgeon.[4] About two-thirds of California's salmon pass through the Delta on their way upstream to spawn.[36] The small Delta smelt is a key indicator species for the health of the Delta's ecosystem. Delta fish populations have been significantly reduced due to the reclamation of marshland and diversions of fresh water. In 2004, the Delta smelt was found to be on the edge of extinction.[38] The survival of the Delta smelt has been one of the largest environmental controversies in California, as environmental measures enacted to protect its population have often reduced the amount of water available for federal water projects that depend on water pumped from the Sacramento-San Joaquin Delta.[39]

Conservation efforts

Water tower in Isleton, California

After numerous rounds of litigation following the 2005 Smelt Biological Opinion (BiOp) lead to pumping restrictions from the State and Federal projects from the Delta, a number of potential solutions to the Delta's problems have been proposed. These followed the CALFED process which had offered several staged solutions. A first set of alternatives would maintain the Delta in its current condition and configuration. The second would restore parts of the Delta more closely to its natural state but include the construction of an additional Peripheral Canal to maintain the water supply currently provided by the Delta.[40]

The launch of 100 floating sensors into the Sacramento River for the Floating Sensor Network project

The Contra Costa County Public Works Department is working with the California Coastal Commission and the Department of Boating and Waterways to protect the drinking water quality, prevent pollution, and promote the environmental health of the Delta.[38]

In April 2009, the Sacramento River in the Delta was declared the nation's most endangered waterway system by the environmental group American Rivers, due to water shortages caused by the Delta's environmental problems, declining fish populations and aging levees, among other problems.[41]

Since the 1940s, various groups have lobbied for the construction of a Peripheral Canal to redirect water flowing from the Sacramento and San Joaquin rivers directly to the federal aqueducts that draw water from the southern end of the Delta.[42] Currently, freshwater entering the Delta has to flow through a maze of river channels and sloughs before entering the Clifton Court Forebay north of Tracy, where water is pumped into the California Aqueduct and Delta-Mendota Canal.[43] In addition, large numbers of Delta smelt and other endangered species are killed by the pumping plants that provide water for the aqueducts.[44]

The current proposal, known as the Bay Delta Conservation Plan, entails building twin tunnels under the delta and is closely associated with Governor Jerry Brown. However, the Peripheral Canal proposal has been criticized because it would further reduce the amount of freshwater flowing through the Delta. Farmers in the Delta are among the most opposed to the project because it would decrease the amount of water available to them for irrigation.[45]

All solutions, however, aim to produce a Delta which simultaneously supports a vibrant ecosystem and continues to supply fresh water to the Central Valley Project, the State Water Project and the Bay Area.[40]

See also

References

  1. State Water Resources Control Board (1974). Water Quality Control Policy for the Enclosed Bays and Estuaries of California. State of California.
  2. Sacramento-San Joaquin Delta, U.S.G.S.
  3. Boxall, Bettina (2010-11-24). "Sacramento-San Joaquin Delta's ecological decline is breathing new life into bypass proposals: A plan for a huge tunnel is the leading contender as the state looks for a way to save the delta at the same time it slakes thirsts in Southern California.". Los Angeles Times.
  4. 1 2 3 4 5 6 7 8 "Where Rivers Meet-The Sacramento-San Joaquin Delta". State Water Project. California Department of Water Resources. 2008-07-18. Retrieved 2013-08-15.
  5. "Delta Counties Coalition". Sacramento River Delta. Retrieved 2013-08-15.
  6. 1 2 Reisner, p. 18
  7. 1 2 3 4 "Delta Fact Sheet" (PDF). U.S. Geological Survey. 2000. Retrieved 2013-08-15.
  8. The National Map (Map). Cartography by USGS. U.S. Geological Survey. 2013. Retrieved 2013-08-16.
  9. "The Formation of San Francisco Bay" (PDF). Saving the Bay. Retrieved 2013-08-20.
  10. Pierce, pp. 4–5
  11. 1 2 3 4 5 Shigley, Paul (January 2012). "The Devil Is in the Delta: Can California's Sacramento-San Joaquin river delta be saved? The state's cities and farms hope the answer is yes, but no one is in charge.". American Planning Association. Retrieved 2013-08-20.
  12. Thompson, pp. 45–46
  13. Pierce, p. 11
  14. 1 2 "A Short History of the Delta (Part 1)". Commodore's Corner. California Delta Events. Retrieved 2013-08-20.
  15. 1 2 3 4 5 6 7 8 Lund, Jay; et al. (February 2007). "The Legacies of Delta History" (PDF). Envisioning Futures for the Sacramento-San Joaquin Delta. Public Policy Institute of California. Retrieved 2013-08-19.
  16. Reisner, pp. 18–19
  17. 1 2 "Overview of Delta Agriculture". Restore The Delta. Retrieved 2013-08-19. Archived March 10, 2013, at the Wayback Machine.
  18. 1 2 3 "Agriculture in the Sacramento-San Joaquin Delta" (PDF). California Agriculture Journal. University of California Davis. 1979. Retrieved 2013-08-19.
  19. Thompson, p. 48
  20. Thompson, p. 43
  21. 1 2 3 Ingebritsen, S.E.; Ikehara, Marti E. "Sacramento-San Joaquin Delta: The sinking heart of the state" (PDF). Drainage of Organic Soils. United States Geological Survey. Retrieved 2013-08-15.
  22. "Delta Initiatives". California Department of Water Resources. Retrieved 2013-08-16.
  23. "California's Water: Sacramento-San Joaquin River Delta". Association of California Water Agencies. Retrieved 2013-08-19.
  24. "Central Valley Project". U.S. Bureau of Reclamation. 2013-03-15. Retrieved 2013-08-20.
  25. "Background". San Luis & Delta-Mendota Water Authority. Retrieved 2013-08-16.
  26. Reisner, pp. 21–22
  27. "Subsidence in the Sacramento-San Joaquin Delta". California Department of Water Resources. 2012-07-24. Retrieved 2013-08-20.
  28. Harless, William (2012-08-02). "California's Mixing Bowl: The Delta's Crucial Role in a Thirsty State". PBS Newshour. Retrieved 2013-08-21.
  29. "Levee Failures in the Sacramento-San Joaquin River Delta" (PDF). California Department of Water Resources. Retrieved 2012-08-20.
  30. "Center for Business and Policy Research".
  31. Reisner, p. 20
  32. Thompson, p. 44
  33. Pierce, p. 7
  34. Pierce, pp. 8–9
  35. "Water Hyacinth" Tegtmeier
  36. 1 2 "Tissue Residues and Hazards of Waterborne Pesticides for Federally Listed and Candidate Fishes of the Sacramento-San Joaquin River Delta". U.S. Fish and Wildlife Service. 2001. Retrieved 2013-08-16.
  37. "Duck Populations Hit All-Time Record: Breeding Survey estimates 48.6 million ducks; Mallards at highest level since 1999". Delta Waterfowl. 2012. Retrieved 2013-08-21. Archived October 23, 2012, at the Wayback Machine.
  38. 1 2 "Keep the Delta Clean, Clean Boating Program". California Coastal Commission. Retrieved 2012-08-20. Archived July 20, 2014, at the Wayback Machine.
  39. Quinton, Amy (2013-02-12). "Delta Smelt Deaths Means Less Water for Central and Southern California". KPBS. Retrieved 2013-08-22.
  40. 1 2 "Dealing with the Delta: Envisioning Futures, Finding Solutions" (PDF). Research Brief, Issue #114. Public Policy Institute of California. February 2007. Retrieved 2012-08-20.
  41. "Delta rivers top U.S. most-troubled list". Sacramento Bee. April 2009. Archived from the original on 2009-04-21. Retrieved 2013-08-21.
  42. "Peripheral Canals: Way Past, Past, and Present". California Water Impact Network. Retrieved 2013-08-17.
  43. Piazza, Tamara (2012). "The Peripheral Canal: What It Means for the Delta". Delta Winds. San Joaquin Delta College. Retrieved 2013-08-17.
  44. Kazakoff, Lois. "The return of the peripheral canal". The Opinion Shop. SFGate. Retrieved 2013-08-17.
  45. Newton, Jim (2012-06-25). "Newton: Water ethics and a peripheral canal – Southern California needs the water, and Northern California has it. But let's not sacrifice the delta.". Los Angeles Times. Retrieved 2013-08-21.

Works cited

Further reading

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