Beach changes in the San Pedro Littoral Cell, Southern California, 1930-2007

Zoulas, James Gary,

January 2008

Thesis (Ph. D.)--UCLA, 2008. / Vita. Description based on print version record. Includes bibliographical references (leaves 156-162).

Coast changes Beaches

The voyages of Gray, Kendrick, and Ingraham along the northwest coast of America from 1788 to 1793

McFadyen, Prudence Marie.

January 1922

Thesis (M.A. in History)--University of California, Berkeley, Dec. 1922. / Bibliography: leaves 96-99.

Northwest Coast of North America.

Shoreface sediments in northern Monterey Bay, California- grain- size distributions and transport boundaries

Seelbach, Ryan R.

January 1993

Thesis (M.S.)--University of California, Santa Cruz, 1993. / Typescript. Includes bibliographical references (leaves 50-56).

Coast changes Sediment transport

The characteristics that control the stability of eroding coastal bluffs in maine /

Keblinsky, Corinn C.,

January 2003

Thesis (M.S.) in Geological Sciences--University of Maine, 2003. / Includes vita. Includes bibliographical references (leaves 78-83 ).

Coast changes Erosion

Ming dai hai fang de shui zhai yu you bing Zhe Min Yue yan hai dao yu fang wei de jian zhi yu jie ti /

Huang, Zhongqing,

January 2001

Thesis (M.A.)--Zhongguo wen hua da xue shi xue yan jiu suo, 1996. / Includes bibliographical references (p. 227-245).

Coast defenses Fortification

Seasonal variations in beach and nearshore morphology and sedimentology along a profile of Lake Michigan, Wisconsin

DuBois, Roger N.

January 1972

Thesis (Ph. D.)--University of Wisconsin--Madison, 1972. / Typescript. Vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references.

Coast changes Michigan, Lake.

Redwood growth studies: the relative volume production of sprouts and seedlings in second growth; the height growth of young redwood in mixture; a site classification for virgin stands.

Barnes, John Scott.

January 1924

Thesis (M.S.)--University of California, Berkeley, 1924.

Redwood (Wood) Coast redwood.

Evaluation of low-altitude vertical aerial videography as a method for identifying and estimating abundance of residual trees /

Miller, Linda M.

January 1900

Thesis (M.S.)--Humboldt State University, 2006. / Includes bibliographical references (leaves 43-46). Also available via Humboldt Digital Scholar.

Ore Deposits of the Eastern side of the Coast Range Batholith (with special reference to Atlin District.)

Okulitch, Vladimir J.

January 1932

[No abstract available] / Science, Faculty of / Earth, Ocean and Atmospheric Sciences, Department of / Graduate

great Coast Range Batholith

Contributions to the life history and ecology of the marine brown alga Phaeostrophion irregulare S. et G. on the Pacific coast of North America

Mathieson, Arthur Curtis

January 1965

Until recently, few collections of the marine brown alga Phaeostrophion irregulare S. et G. had been made, little was known of its ecology, and virtually nothing of its life history. The main objectives of this investigation were to study the life history and major factors influencing growth and distribution of this species. Laboratory and field investigations were conducted during 1961-196i4. Life history studies were performed in the laboratory by culturing zoospores under constant environmental conditions. The growth of cultured germlings and the photosynthetic response of the laminate plants from the field were recorded under different temperatures, salinities, nutrients, and light conditions. The tolerance of laminate plants and germlings to extremes of temperature, salinity, and desiccation was also determined in the laboratory. The growth and reproduction of in situ plants at Glacier Point, British Columbia were correlated with temperature, salinity nutrients, tides, sand and various meteorological conditions at that locality. Life history studies were conducted at Glacier Point by observing the succession of germlings on denuded transects and by transplanting laboratory cultured germlings into the field. The laminate thallus of P. irregulare sometimes bears both unilocular and plurilocular sporangia at the same time. Previously, only unilocular sporangia were reported in this plant. Zoospores from the unilocular sporangia (unispores) and plurilocular sporangia (plurispores) develop identicallys, and each is capable of producing a laminate thallus directly or after a succession of filamentous and discoid plethysmothalli. The "direct-type" of development of the zoospores (unispores) from the unilocular sporangium is probably due to a suppression of meiosis in the unilocular sporangium. Morphological and cultural evidence is presented to support this hypothesis, although no cytological evidence was obtained. At Glacier Point, P. irregulare is restricted to sandy areas, and the greatest number of plants occur where large fluctuations of sand occur annually. The plants are regularly buried four to six months per year, and their growth and reproduction is limited to the period when sand is absent. Competition with other plants probably accounts for the occurrence of P. irregulare in sandy areas, since it will grow in rocky areas if other algae are eliminated. The period of maximum growth (February to April) is associated with a corresponding increase in light intensity and water temperature in this area. After April, growth in non-tide pool populations decreases much more rapidly than growth of tide pool populations, because of the increased exposure of plants to desiccation during daylight. A period of decreased growth for tide pool plants occurs in May to June; this decrease probably results from high surface water temperatures, high light intensities, or a combination of both. The morphology of the laminate plants of P. irregulare is extremely variable and the range of variability observed at Glacier Point overlaps that described for P. australe from Callifornia. P. australe is considered to be a growth form of P. irregular, and is therefore a taxonomic synonym of P. irregulare, Distributional evidence also supports this conclusion. The known range of P. irregulare extends from Point Conception, California to Khantaak Island, near Yakutat, Alaska. Temperature is considered to be the primary factor controlling its gross distribution. Nitrate and phosphate deficiency may partially restrict the distribution of P. irregulare south of Point Conceptions, California. The sporadic distribution of P. irregulare on the Pacific Coast is correlated with the presence of sand, and local conditions are most important in determining its regional distribution. Experimental studies show that P. irregulare is well adapted to a sandy habitat, and several features are discussed to explain this adaptation. The laminate plants and germlings of P. irregulare tolerate a wider range in temperature and salinity in culture than that to which they are subjected in nature. However, the laminate plants and germlings of P. irregulare are very sensitive to desiccation; under experimental conditions both tolerate less desiccation than that to which they are subjected under natural conditions. / Science, Faculty of / Botany, Department of / Graduate

Algae -- Pacific Coast