Web Exhibits
The Ground Beneath Our Feet:

The Nikola P. Prokopovich Papers on Land Subsidence

Previously on display in the Special Collections Display Cases from Fall Quarter 2011 - Winter Quarter 2012. Now, presented here as a web exhibit.

Click on any image for an expanded view.

Exhibit prepared by Liz Phillips, Manuscript Archivist

Dr. Nikola P. Prokopovich (1918-1999) was born in Kiev, Ukraine and came to the United States in 1950. He made his home in Sacramento, where he worked as a geologist with the Bureau of Reclamation's Mid-Pacific Region. Dr. Prokopovich worked out of the Sacramento office from 1958-1986, investigating the geology and geochemistry of California statewide water projects, including the Central Valley Project and the Solano Project. Because of the wide-ranging impact of the Central Valley Project, the Prokopovich papers will be of interest to a number of disciplines: geology; environmental science and policy; water science; soil science; and history, especially history of agriculture.

Nikola Prokopovich in a tributary wash, ca. 1950

Nikola Prokopovich in a tributary wash, ca. 1950

Prokopovich at East Bay Aqueduct showing change in ground level, ca. 1960

Prokopovich at East Bay Aqueduct showing change in ground level, ca. 1960

Nikola Prokopovich with sandstone boulder, ca. 1960

Nikola Prokopovich with sandstone boulder, ca. 1960

Prokopovich was an avid field geologist and spent as much time as possible on-site, collecting his own data. He was particularly interested in the engineering geology of the Central Valley Project's canals and dam sites and in the effects of both the state water projects and field irrigation on the surrounding landscape. The collection includes draft reports, memoranda, and published writings, as well as nearly 25,000 slides and photographs documenting his work and the land around his work sites.

Sample pages from Prokopovich’s notebooks

Sample pages from Prokopovich’s notebooks

Sample pages from Prokopovich’s notebooks

Sample pages from Prokopovich’s notebooks

Sacramento Valley from the air

Sacramento Valley from the air

The Central Valley Project

The Central Valley Project (CVP) is a Bureau of Reclamation federal water project designed to provide irrigation and municipal water to California's Central Valley. Reservoirs in the northern half of the state regulate and store water and a series of canals, aqueducts, and pump plants transport it to the San Joaquin Valley and its surroundings.

Source: http://en.wikipedia.org/wiki/Central_Valley_Project (http://en.wikipedia.org/wiki/Central_Valley_Project)

Map of the Central Valley Project

Map of the Central Valley Project

Shasta Dam

Shasta Dam
Courtesy of the US Bureau of Reclamation

San Luis Dam and Reservior

San Luis Dam and Reservoir
Courtesy of the US Bureau of Reclamation

Folsom Dam

Two views of Folsom Dam
Courtesy of the US Bureau of Reclamation

Folsom Dam

Two views of Folsom Dam
Courtesy of the US Bureau of Reclamation

San Joaquin Valley from the air

San Joaquin Valley from the air

Subsidence

Land subsidence occurs when large amounts of ground water have been withdrawn from certain types of rocks, such as fine-grained sediments. The rock compacts because the water is partly responsible for holding the ground up. When the water is withdrawn, the rock falls in on itself.

Source: http://ga.water.usgs.gov/edu/earthgwlandsubside.html (http://ga.water.usgs.gov/edu/earthgwlandsubside.html)

Cover page of article by Prokopovich and Marriott

Cost of Subsidence to the Central Valley Project, CA by Prokopovich, N.P., and Marriott, M.J., 1983

Cracked mud

Shrinkage cracking in mud

Four examples of subsidence

Four examples of subsidence

Soil cracking and slumpage, ca.1970

Soil cracking and slumpage, ca.1970

Open crack at Clear Lake, ca. 1965

Open crack at Clear Lake, ca. 1965

Subsidence in Delta Peat

Schematics for a compaction recorder

Schematics for a compaction recorder

Compaction recorder in use, ca. 1965

Compaction recorder in use, ca. 1965

Subsidence at Byron Tract. Note the difference in ground level on the left and right sides of the levee.

Subsidence at Byron Tract. Note the difference in ground level on the left and right sides of the levee.

Holland Tract, near Sacramento. This barn was originally built level to the ground.

Holland Tract, near Sacramento. This barn was originally built level to the ground.
Courtesy of the State of California Department of Water Resources

Sherman Island floodwaters, ca. 1980

Sherman Island floodwaters, ca. 1980
Courtesy of the US Army Corps of Engineers

Hydrocompaction

Hydrocompaction is the settling and hardening of land due to application of large amounts of water for irrigation.

Source: http://www.epa.gov/climatechange/glossary.html (http://www.epa.gov/climatechange/glossary.html)

Damage to irrigation ditch due to hydrocompaction

Damage to irrigation ditch due to hydrocompaction

Damage to Mendota Test Canal lining due to hydrocompaction, ca. 1965

Damage to Mendota Test Canal lining due to hydrocompaction, ca. 1965

Core samples from Latrobe Dam site.

Core samples from Latrobe Dam site. Understanding the properties of the surrounding soil is crucial for dam safety.

Article from the Fresno Bee -- El Porvenir: Dream of a Pleasant Community Fades

"Several homes are already cracking and tilting because of severe land subsidence...One home, built only three years ago, has large cracks in the master bedroom, kitchen, living room, and hall. The crack in the bedroom is an inch wide and goes across the ceiling and down one wall, exposing insulation."
Fresno Bee, January 28, 1973. Page C1.

Page 1 of memorandum

"Shallow subsidence of from 5-6 feet should be expected at the site… The subsidence will be particularly severe because in the past the area has had very little irrigation."
Memorandum from Prokopovich's files, 1967 (pg.1)

Page 2 of memorandum

Monitoring the Environment

3 men in small boat sampling canal water

Canal sampling is done to gauge ecosystem health and to measure organisms' impact on canal capacity.

Sampling residue on canal walls

Post-dewatering sampling in Delta-Mendota Canal, ca. 1970

Chart

Delta-Mendota Canal ecological sampling data

Report cover

Organic Life, Particularly Asiatic Clams, in the Delta Mendota Canal, Central Valley Project, California

Salt crust in irrigation ditch.

Salt crust in irrigation ditch. Salt deposits are left by chemical fertilizers and by the salts naturally present in water. These deposits have a major effect on the water supply downstream.

Copper sampling in Lake Solano.

Copper sampling in Lake Solano. These studies investigated the aftereffects of mining: what residues are in our water?

Processing of the Nikola P. Prokopovich Papers was generously funded by the Andrew W. Mellon Foundation, and administered by the Council on Library and Information Resources (CLIR). The University of California, Davis Special Collections was awarded a Cataloging Hidden Special Collections and Archives grant from 2010-2012, "Uncovering California's Environmental Collections," in collaboration with eight additional special collections and archival repositories throughout the state and the California Digital Library (CDL). Grant objectives included processing of over 33 hidden collections related to the state's environment and environmental history. The collections document an array of important sub-topics such as irrigation, mining, forestry, agriculture, industry, land use, activism, and research. Together they form a multifaceted picture of the natural world and the way it was probed, altered, exploited and protected in California over the twentieth century. Finding aids are made available through the Online Archive of California (OAC).

Images (unless otherwise credited) are the property of the Regents of the University of California; no part may be reproduced or used without permission of the Department of Special Collections.