Relevant bibliographies by topics / San Francisco Bay (Region)

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'San Francisco Bay (Region)'

Author: Grafiati
Published: 4 June 2021
Last updated: 15 February 2022

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Journal articles on the topic "San Francisco Bay (Region)"

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Schmid, Rudolf, and Harold Gilliam. "Weather of the San Francisco Bay Region." Taxon 52, no. 1 (2003): 155. http://dx.doi.org/10.2307/3647323.

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O'Connor, James, and Daniel O'Connor. "Flatland politics in the San Francisco Bay Region∗." Capitalism Nature Socialism 5, no. 4 (1994): 8–10. http://dx.doi.org/10.1080/10455759409358605.

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Ingram, B. Lynn. "Differences in Radiocarbon Age between Shell and Charcoal from a Holocene Shellmound in Northern California." Quaternary Research 49, no. 1 (1998): 102–10. http://dx.doi.org/10.1006/qres.1997.1944.

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The West Berkeley shellmound, the oldest well-dated archaeological site in the San Francisco Bay region, contains shell and charcoal ranging in age from ca. 1200 to 5700 cal yr B.P. Radiocarbon ages of marine shell and charcoal collected from fifteen stratigraphic levels in the West Berkeley shellmound suggest changes in the 14C content of San Francisco Bay surface waters relative to the atmosphere (the oceanic reservoir age) over the past 5000 yr. The reservoir age of San Francisco Bay waters fluctuated between 870 and −170 14C yr over the past 5000 yr, with the lowest values occurring 2900 to 3800 cal yr B.P. and the highest values between 1200 and 2000 cal yr B.P. Changes in the radiocarbon reservoir age may be due to changes in the strength of seasonal wind-driven upwelling off coastal California, where upwelling brings 14C-depleted waters to the surface. The period of lowest ΔR values (at 3500 to 3900 cal yr B.P.) is coincident with relatively low salinity in San Francisco Bay (indicating high freshwater inflow) and wet climate in California based on lake level records. The period of high ΔR values (1200–2000 cal yr B.P.) is coincident with one of the driest periods in California during the late Holocene. These data suggest a link between coastal upwelling and precipitation over central California. The age of the top of West Berkeley mound and several other mounds in the San Francisco Bay region (1100 to 1300 cal yr B.P.) coincides with a prolonged dry period in California and low river inflow to San Francisco Bay. Perhaps the sites were abandoned because of the drought.
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Culnane, Mary Frances. "Passenger Vessels for the New Millennium: The Environmental Impacts of the Future San Francisco Bay Area Water Transit Authority Ferry System." Marine Technology and SNAME News 43, no. 02 (2006): 74–84. http://dx.doi.org/10.5957/mt1.2006.43.2.74.

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Technology has transformed the San Francisco Bay region. Silicon Valley and the biotech industry produced plenty of high-paying positions that inflated the economy and created traffic congestion of immense proportions. Growth projections show 1.2 million new Bay Area jobs and a 1.4 million population increase during the next 25 years, accompanied by a 30% increase in region-wide travel and a 40% increase in transbay travel. In an effort to counter the negative aspects of an immobile and consequently less productive commuter society, the California State Legislature created the San Francisco Bay Area Water Transit Authority (WTA) with a mandate to improve public transit with an environmentally friendly ferry system.
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Schmid, Rudolf, Glenn Keator, Eugene N. Kozloff, Linda H. Beidleman, and Dianne Lake. "Three Floristic Works on the San Francisco Bay Region, California." Taxon 44, no. 1 (1995): 123. http://dx.doi.org/10.2307/1222706.

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Schmid, Rudolf, Linda H. Beidleman, and Eugene N. Kozloff. "Plants of the San Francisco Bay Region: Mendocino to Monterey." Taxon 52, no. 3 (2003): 647. http://dx.doi.org/10.2307/3647481.

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Langenheim, V. E., R. W. Graymer, R. C. Jachens, R. J. McLaughlin, D. L. Wagner, and D. S. Sweetkind. "Geophysical framework of the northern San Francisco Bay region, California." Geosphere 6, no. 5 (2010): 594–620. http://dx.doi.org/10.1130/ges00510.1.

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Allen, S. G., M. Stephenson, R. W. Risebrough, L. Fancher, A. Shiller, and D. Smith. "Red-Pelaged Harbor Seals of the San Francisco Bay Region." Journal of Mammalogy 74, no. 3 (1993): 588–93. http://dx.doi.org/10.2307/1382277.

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Bebbington, Mark S., David S. Harte, and Steven C. Jaumé. "Repeated Intermittent Earthquake Cycles in the San Francisco Bay Region." Pure and Applied Geophysics 167, no. 6-7 (2010): 801–18. http://dx.doi.org/10.1007/s00024-010-0064-6.

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Borcherdt, Roger D., and Gary Glassmoyer. "On the characteristics of local geology and their influence on ground motions generated by the Loma Prieta earthquake in the San Francisco Bay region, California." Bulletin of the Seismological Society of America 82, no. 2 (1992): 603–41. http://dx.doi.org/10.1785/bssa0820020603.

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Abstract Strong ground motions recorded at 34 sites in the San Francisco Bay region from the Loma Prieta earthquake show marked variations in characteristics dependent on crustal structure and local geological conditions. Peak horizontal acceleration and velocity inferred for sites underlain by “rock” generally occur on the transverse component of motion. They are consistently greater with lower attenuation rates than the corresponding mean value predicted by empirical curves based on previous strong-motion data. Theoretical amplitude distributions and synthetic seismograms calculated for 10-layer models suggest that “bedrock” motions were elevated due in part to the wide-angle reflection of S energy from the base of a relatively thin (25 km) continental crust in the region. Characteristics of geologic and geotechnical units as currently mapped for the San Francisco Bay region show that average ratios of peak horizontal acceleration, velocity and displacement increase with decreasing mean shear-wave velocity. Ratios of peak acceleration for sites on “soil” (alluvium, fill/Bay mud) are statistically larger than those for sites on “hard rock” (sandstone, shale, Franciscan Complex). Spectral ratios establish the existence of predominant site periods with peak amplifications near 15 for potentially damaging levels of ground motion at some sites underlain by alluvium and fill/bay mud. Average spectral amplifications inferred for vertical and the mean horizontal motion are, respectively, (1,1) for sites on the Franciscan Complex (KJf), (1.4, 1.5) for sites on Mesozoic and Tertiary rocks (TMzs), (2.1, 2.0) for sites on the Santa Clara Formation (QTs), (2.3, 2.9) for sites on alluvium (Qal), and (2.1, 4.0) for sites on fill/Bay mud (Qaf/Qhbm). These mean values are not statistically different at the 5% significance level from those inferred from previous low-strain data. Analyses suggest that soil amplification and reflected crustal shear energy were major contributors to levels of ground motion sufficient to cause damage to vulnerable structures at distances near 100 km in the cities of San Francisco and Oakland.
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Dissertations / Theses on the topic "San Francisco Bay (Region)"

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Culbreth, Mair Wendelin. "Transactional Bodies: Politics, Pedagogies, and Performance Practices of the San Francisco Bay Area." The Ohio State University, 2018. http://rave.ohiolink.edu/etdc/view?acc_num=osu1514625617942998.

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Greig, Denise J. "Health, disease, mortality and survival in wild and rehabilitated harbor seals (Phoca vitulina) in San Francisco Bay and along the central California coast." Thesis, University of St Andrews, 2011. http://hdl.handle.net/10023/1885.

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Conventional methods for health assessment of wild-caught and stranded seals were used to describe the disease status of harbor seals in California. Clinical chemistry, infectious disease prevalence, immune function, and contaminant data were collected to evaluate harbor seal health with data collected from three groups of seals. Wild-caught seals of all ages were sampled at two locations: San Francisco Bay (a heavily urbanized estuary) and Tomales Bay (a less developed control site). Stranded seals entered rehabilitation from a more extensive portion of the California coast which included the locations where seals were caught. Hematology reference intervals were generated to provide a baseline for health assessment among the seals. Individual variability in blood variables among seals was affected by age, sex, location, and girth. Disease surveillance focused on pathogens known to cause lesions in harbor seals, zoonoses, and those with terrestrial sources. Specific pathogens of interest were E coli, Clostridium perfringens, Vibrio spp, Campylobacter spp, Salmonella, Giardia, Cryptosporidium, avian influenza virus, Brucella, Leptospira spp., Toxoplasma gondii, Sarcocystis neurona, and Neospora caninum, Leptospira spp, and phocine and canine distemper virus. There was evidence of exposure to all pathogens except for phocine distemper virus. Simple measures of immune response were used to evaluate the immune function of harbor seal pups in rehabilitation that had evidence of previous bacterial infection. The swelling response to a subcutaneous injection of phytohemagglutinin (PHA) was positively associated with growth rate, possibly illustrating the energetic trade-offs between growth and immunity. Blubber contaminant concentrations (PCBs, DDTs, PBDEs, CHLDs, and HCHs) in harbor seal pups were grouped by extent of suckling and strand location. The ratio of PCB:DDT was increased in San Francisco Bay and decreased in Monterey Bay compared with other locations along the coast. Pups that weaned in the wild, lost weight and then stranded had the highest contaminant levels, equivalent to the concentrations detected in stranded adult harbor seals. Dispersal and survival were monitored by satellite telemetry in harbor seal pups released from rehabilitation and recently weaned wild-caught pups to assess the effect of condition, health, and contaminant levels on survival probability. Increased contaminant levels and decreased thyroxine (T4) were associated with decreased survival probability. Increased mass, particularly among the rehabilitated pups, was associated with increased survival probability. This study demonstrates that health and survival of harbor seals pups along the central California coast are impacted by human activities such as contaminant disposal, pathogen pollution and boat traffic, although the variability in individual health measures requires carefully designed studies to detect these effects.
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Martin, Bruce K. "Collaboration in the San Francisco Bay area Metropolitan Medical Response System." Thesis, Monterey, California. Naval Postgraduate School, 2010. http://hdl.handle.net/10945/5189.

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CHDS State/Local<br>Approved for public release; distribution is unlimited<br>Within the San Francisco Bay Area there are four cities that host a Metropolitan Medical Response System (MMRS) program: San Francisco, San Jose, Oakland and Fremont. The four Bay Area MMRS cities are within fifty miles of each other. The MMRS resources could be used to reinforce each other's planning and response. The 103-city, 10-county Bay Area is under one Urban Area Security Initiative (UASI). Currently though, the MMRS programs in the four cities work independently of each other and of the UASI. How can these agencies collaborate to address mission gaps and overlaps? This thesis uses a Delphi survey methodology to ascertain institutional perspectives on benefits, processes, enablers and barriers to collaboration in the San Francisco Bay Area. With collaborative effort, gaps and overlaps in San Francisco Bay Area mass casualty preparedness and response can be mitigated. This thesis recommends short term and long term actions to encourage collaboration in the Bay Area, which, in turn, can lead to better patient outcomes in infrequent mass casualty incidents.
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Salzer, Matthew W. "Dendroclimatology in the San Francisco Peaks region of northern Arizona." Diss., The University of Arizona, 2000. http://etd.library.arizona.edu/etd/GetFileServlet?file=file:///data1/pdf/etd/azu_e9791_2000_79_sip1_w.pdf&type=application/pdf.

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Ebinger, Caroline R. "Crowded: Population Pressures in San Francisco Bay Area National Park Service Properties." Scholarship @ Claremont, 2016. http://scholarship.claremont.edu/scripps_theses/753.

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This paper hopes to analyze the intersection between diversity and numbers of visitors and landscape preservation in the National Park Service. Current scholarship addresses either diversity in the Park System or carrying capacity and human population pressures. However, both are critical issues facing the National Park Service in the 21st century, and looking at the issues in isolation means missing a key interaction and potentially working to solve one problem that in turn amplifies another. Here, diversity of park-goers and preservation priorities will be addressed together, each as part of the other. Pinnacles National Park, Golden Gate National Recreation Area, and Muir Woods National Monument each face human population pressures, yet each park has unique issues that illuminate the larger struggles within in NPS to ensure its mission to preserve unimpaired the natural and cultural resources and values of the National Park System for the enjoyment, education, and inspiration of this and future generations is still being met 100 years after conception.
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Knowles, Noah. "Modeling the hydroclimatology of the San Francisco Bay-Delta estuary and watershed /." Diss., Connect to a 24 p. preview or request complete full text in PDF format. Access restricted to UC campuses, 2000. http://wwwlib.umi.com/cr/ucsd/fullcit?p3035416.

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Pearson, Donald Edgar. "Environmental factors influencing English sole (Parophyrus vetulus) populations in San Francisco Bay, California." Scholarly Commons, 1985. https://scholarlycommons.pacific.edu/uop_etds/483.

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Population abundances of English sole within the San Francisco Bay from 1973 to 1981 showed a significant positive correlation with Delta outflows, and a significant negative correlation with salinity. Temperature in the bay and ocean upwelling showed no correlation with English sole abundance in the Bay. Because of the positive correlation between the abundance of English sole in the South San Francisco Bay and Delta outflow, this study suggests that any factor resulting in a reduction in outflow may reduce the abundance of English sole in the sample area.
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Tremblay-McGaw, Robin. "Community and contestatory writing practices in the San Francisco Bay Area, 1970-present /." Diss., Digital Dissertations Database. Restricted to UC campuses, 2009. http://uclibs.org/PID/11984.

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Ungureanu, Cristina. "Organ Trade : sea level rise adaptation strategies for the San Francisco Bay Area." Thesis, Massachusetts Institute of Technology, 2010. http://hdl.handle.net/1721.1/62070.

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Thesis (M.C.P.)--Massachusetts Institute of Technology, Dept. of Urban Studies and Planning, 2010.<br>Cataloged from PDF version of thesis.<br>Includes bibliographical references (p. 116-118).<br>It is not only coastal conditions, but inland ones, that can inform an approach to and process of wetland adaptation in the face of sea level rise. A particular watershed clip in Alameda County, located in South San Francisco Bay, is taken as a test case in order to assess this hypothesis. The site is selected from a set of nested types of more general coastal and fluvial conditions. This thesis traverses multiple landscape scales in this way. The nested types include a coastal DNA structure, which reflects divergent watersheds draining to the Bay. These watershed types contain layered political boundaries, which themselves exhibit an array of differing hydrologic, demographic, economic and hardscape conditions. These conditions within conditions, reaching across scales, merit very particular treatments. Organ Trade contributes a new processing tool for wetland adaptation, beginning on the Bay Area's coasts, and reaching up through existing channels and streams where they exist. Even where fluvial availability is minimal, Organ Trade proposes a mechanism of dross acquisition in order to create a discontinuous but networked sponge-like layer for water retention. The thesis posits that inland riparian and hardscape management (inland infrastructure realignment - where infrastructure is taken to mean a broad array of items - that promotes fluvial enhancements and the creation of space for water retention) can help get the threatened coastal wetland system back in equilibrium. This thesis operates on the informed assumptions that (a) wetlands are organs of the Bay's anthropological and ecological order, (b) that these organs can be thought of as part of a closed system that functions maximally when in equilibrium, (c) that the system is threatened by an event external to itself, sea level rise, (d) that all elements essential to restoring equilibrium are and always have been within the system itself (hydrology, sediment, salinity, vegetation), and that (e) a calculated and transdisciplinary organ trade is a useful way of thinking about sea level rise adaptation in an urbanized estuary. This thesis begins to amass strategies that recreate the services, functions and values of threatened wetlands in an urbanized estuary. Wetland loss will be quantified most simply as the square kilometers of coastal wetlands inundated under 40cm and 140cm projections made by the Pacific Institute and the San Francisco Bay Conservation and Development Commission (BCDC). If wetlands cannot accrete quickly or efficiently enough to keep pace with sea level rise, this poses a serious threat to the ecological, cultural and economic wellbeing of the entire Bay. Additionally, because of the way the Bay Area has urbanized over time (creating a ring of thick, heavy infrastructure and human artefact only a short distance from the estuarine edge), almost no new wetlands can be created near coasts, and wetlands have little to no room to naturally migrate inland. Therefore, a compensatory trading system becomes a logical necessity, quantification for which is not within the scope of this thesis, but for which visioning and a systemic design approach can begin to be written about and shown graphically. Organ Trade offers a mapping methodology and set of tactics to make wetland trading decisions.<br>by Cristina Ungureanu.<br>M.C.P.
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Overton, Cory Tyler. "Tidally-induced limits to California clapper rail ecology in San Francisco bay salt marshes." Thesis, University of California, Davis, 2014. http://pqdtopen.proquest.com/#viewpdf?dispub=3614256.

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<p> The state and federally endangered California clapper rail (<i> Rallus longirostris obsoletus</i>) has declined in abundance and been reduced in range and now occupies fragmented intertidal saltmarsh only within San Francisco Bay. Historically extensive salt marsh habitats existed in San Francisco Bay and today, remnants are largely restricted to the water's edge with dikes and levees separating marshland from modified habitats unsuitable for clapper rails. Clapper rail population abundance has roughly tracked a series of positive and negative impacts including market hunting at the turn of the 20th century, widespread habitat reduction and fragmentation, and invasive species introduction and eradication programs. Despite these changes, rail populations have been subject to the ebb and flow of the tides, which regularly inundate salt marsh habitats. The influence that tides have on vertebrate species living in intertidal saltmarsh should be substantial, but the relationship between tide and California clapper rails is poorly understood. This research identified important ways in which tides influenced demographic processes, space use, and resource selection in California clapper rails. Tidal inundation in San Francisco Bay saltmarshes creates zonation in plant communities, typically with tall monocots in the low marsh (<i>Spartina </i> sp.), short pickleweed (<i>Sarcocornia pacifica</i>) in mid-elevation ranges, and gumplant (<i>Grindela humilis</i>) in the high marsh. Invasive Spartina (<i>Spartina foliosa x alterniflora </i>) grows taller and thicker than native Pacific cordgrass (<i> Spartina foliosa</i>). Invasive Spartina also grows lower onto mudflats, further up into pickleweed areas, and provided both nesting habitat and tidal refuge for clapper rails. In Chapter 1, I examined survival rates of California clapper rails. Specifically, I investigated whether seasonal patterns observed in the early 1990s were still evident and assessed the influence that Invasive Spartina and the degree of tidal inundation on weekly survival rates in four South San Francisco Bay salt marshes. Between January 2007 and March 2010, California clapper rail annual survival was 73% greater in Spartina-dominated marshes (&Scirc; = 0.482) than in a control marsh dominated by native vegetation (&Scirc; = 0.278). Lower survival also occurred during periods when tide height was greatest and during the winter. Survival patterns were consistent with Invasive Spartina providing increased refuge cover from predators during tidal extremes which flood native vegetation, particularly during the winter when the vegetation senesces. Tide heights also strongly influenced selection for artificial habitats provided adjacent to one marsh during the winters of 2010-2011 and 2011-2012. Ten floating islands equipped with canopies providing cover were monitored using time-lapse cameras for evidence of clapper rail use. Clapper rails regularly used artificial islands once tides reached heights equal to the average surface elevation of the marsh. When tides had inundated the marsh plan, observed use of the artificial islands was more than 300 times expected use based on the surface area provided. Probability of use varied among the islands and low levels of use were observed at night. Endemic saltmarsh species are increasingly at risk from habitat change resulting from sea-level rise and development of adjacent uplands. Escape cover during tidal inundation may therefore need to be supplemented if species are to survive. I developed a new method to estimate space use accounting for individual movement phases within non-stationary relocation datasets using simulated radio-telemetry data. To define movement phases I used a nonparametric, multivariate test to detect change points in the mean or variance of a sequence of x,y coordinates. Once all phases (change points) were identified, Gaussian kernel density analysis was used to estimate space use during each phase, which I termed change-point utilization distributions (CPUDs). One advantage of this technique is that the location of change points can subsequently be tested for relationships with conditions that might trigger a change in how individuals use space. Change points in clapper rail movement were associated with a variety of environmental and biotic variables including high tides, nesting activity, intrusion by neighboring clapper rails, and transient movements outside the home range. Change points occurred more than twice as frequently during the highest observed tides relative to all other tide heights. Another use of CPUDs is that space use patterns of adjacent individuals can be evaluated for joint overlap only during specific time periods when overlap occurs. I used CPUDs developed for California clapper rails and identified the point within overlapping space-use estimates where each individual had priority access to the resources within its utilization distribution (i.e. the lowest kernel density isopleth that was common to two overlapping individuals). This provided an estimate of the spatial region at which individuals exhibited territoriality. During the breeding season, space use distributions overlapped less and average territory size increased relative to the non-breeding seasons. Population density implied by these territory sizes (1.38 birds/ha) is comparable to density estimates during the 1970s and 1980s. Together these findings show the great degree to which clapper rail behavior and demography can be influenced by the tides that populations experience. It is my hope that conservation efforts for this species, particularly in the arena of habitat restoration may benefit from this research.</p>
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Books on the topic "San Francisco Bay (Region)"

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Sloan, Doris. Geology of the San Francisco Bay region. University of California Press, 2006.

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Gilliam, Harold. Weather of the San Francisco Bay region. 2nd ed. University of California Press, 2002.

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Weather of the San Francisco Bay region. 2nd ed. University of California Press, 2002.

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David, Weingarten, ed. Bay Area style: Houses of the San Francisco Bay region. Rizzoli, 2004.

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Weintraub, Alan. Bay Area style: Houses of the San Francisco Bay region. Rizzoli, 2004.

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The geology of the San Francisco Bay region. University of California Press, 2006.

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Bakun, W. H. Scenarios for historic San Francisco Bay Region earthquakes. U.S. Dept. of the Interior, U.S. Geological Survey, 1998.

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Caldwell, Kenneth. San Francisco Bay Region architecture: An introductory bibliography. Vance Bibliographies, 1987.

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Introduction to trees of the San Francisco Bay Region. University of California Press, 2002.

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Wahrhaftig, Clyde. Geology of San Francisco and vicinity: San Francisco Bay region, California, July 1-7, 1989. American Geophysical Union, 1989.

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Book chapters on the topic "San Francisco Bay (Region)"

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Galehouse, Jon S., F. Brett Baker, Oliver Graves, and Theresa Hoyt. "San Francisco Bay region fault creep rates measured by theodolite." In The San Andreas Transform Belt: Long Beach to San Francisco, California July 20–29, 1989. American Geophysical Union, 1989. http://dx.doi.org/10.1029/ft309p0045.

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Brown, William M. "California cross-section: San Francisco Bay Region to eastern Sierra Nevada." In Landslides in Central California: San Francisco and Central California, July 20–29, 1989. American Geophysical Union, 1989. http://dx.doi.org/10.1029/ft381p0044.

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Wahrhaftig, Clyde, John Wakabayashi, Benita Murchey, Robert G. Coleman, and J. G. Liou. "The Franciscan Complex." In Geology of San Francisco and Vicinity: San Francisco Bay Region, California: July 1–7, 1989. American Geophysical Union, 1989. http://dx.doi.org/10.1029/ft105p0005.

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Rogers, J. David, and Christopher S. Alger. "Geology, geomorphology, and landslide processes of the East Bay Hills, San Francisco Bay Region, California." In Landslides in Central California: San Francisco and Central California, July 20–29, 1989. American Geophysical Union, 1989. http://dx.doi.org/10.1029/ft381p0090.

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Cole, William F., William R. Cotton, and William L. Fowler. "IGC Field Trip T181: Engineering geology of the San Francisco Bay region." In Engineering Geology of Western United States Urban Centers: Los Angeles, California to Denver, Colorado June 27–July 7, 1989. American Geophysical Union, 1989. http://dx.doi.org/10.1029/ft181p0031.

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Clifton, H. Edward. "The Merced Basin on the San Francisco Peninsula." In Geology of San Francisco and Vicinity: San Francisco Bay Region, California: July 1–7, 1989. American Geophysical Union, 1989. http://dx.doi.org/10.1029/ft105p0032.

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Morse, Peter, and Clyde Wahrhaftig. "Geographic setting." In Geology of San Francisco and Vicinity: San Francisco Bay Region, California: July 1–7, 1989. American Geophysical Union, 1989. http://dx.doi.org/10.1029/ft105p0001-1.

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Wahrhaftig, Clyde. "Overview." In Geology of San Francisco and Vicinity: San Francisco Bay Region, California: July 1–7, 1989. American Geophysical Union, 1989. http://dx.doi.org/10.1029/ft105p0001-2.

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Coleman, Robert G. "Coast Range ophiolite." In Geology of San Francisco and Vicinity: San Francisco Bay Region, California: July 1–7, 1989. American Geophysical Union, 1989. http://dx.doi.org/10.1029/ft105p0013-1.

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Wahrhaftig, Clyde, and Stephan A. Graham. "Great Valley Sequence." In Geology of San Francisco and Vicinity: San Francisco Bay Region, California: July 1–7, 1989. American Geophysical Union, 1989. http://dx.doi.org/10.1029/ft105p0013-2.

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Conference papers on the topic "San Francisco Bay (Region)"

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Andrews, Rob, Lynn Korwatch, Bruce Clark, and Al Westerman. "Strategic Risk Management/Mitigation Plan for the San Francisco Bay and River Delta Region." In 12th Triannual International Conference on Ports. American Society of Civil Engineers, 2010. http://dx.doi.org/10.1061/41098(368)106.

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God, J., and W. Savage. "El Niño 1997–98: Direct costs of damaging landslides in the San Francisco Bay region." In The Ninth International Conference and Field Trip on Landslides. CRC Press, 2017. http://dx.doi.org/10.4324/9780203749227-8.

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Rodriguez, Jessica, Shannon Kreutzer, Kristina L. Faul, and Laura Rademacher. "MINOR AND TRACE METAL CONCENTRATIONS IN SURFACE SEDIMENTS OF THREE SAN FRANCISCO BAY REGION RESERVOIRS." In 112th Annual GSA Cordilleran Section Meeting. Geological Society of America, 2016. http://dx.doi.org/10.1130/abs/2016cd-274520.

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Howell, D., E. Brabb, and R. Ahmad. "Interest in landslide hazard information - Parallels between Kingston, Jamaica and the San Francisco Bay region, USA." In The Ninth International Conference and Field Trip on Landslides. CRC Press, 2017. http://dx.doi.org/10.4324/9780203749227-11.

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BROADBENT, JACK P. "REDUCING DISPARITIES WITHIN A REGION: NEW APPROACHES FOR IDENTIFYING AND ELIMINATING DISPARITIES IN AIR POLLUTION IN SAN FRANCISCO BAY AREA COMMUNITIES." In AIR POLLUTION 2018. WIT Press, 2018. http://dx.doi.org/10.2495/air180421.

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Kaprielian, Gabriel. "Design as Play: Sea-Level Rise Planning Board Game." In 2018 ACSA International Conference. ACSA Press, 2018. http://dx.doi.org/10.35483/acsa.intl.2018.39.

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The waterfront along the San Francisco Bay is facing a growing threat from sea-level rise. Over the years, the Bay Area has seen a large portion of the historic wetlands filled or leveled off for residential, commercial, and industrial land uses. According to current sea level rise projections, water will once again reclaim the bay lands that have been filled. The issues presented by sea level rise along the urban edge of the San Francisco Bay involve a complex series of challenges including: regional versus local governance, built versus natural environment, vulnerable local and regional infrastructure, diverging interests with diverse stakeholders, and population growth. With each possible future scenario come multiple outcomes with winners and losers. How can the best policy and design be selected and tested? How will distinct communities learn about different options and strategies for adaptation and be empowered to act? By creating and playing a sea level rise adaptation “game,” student were able to explore these different scenarios and inform future urban planning and design decisions.
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Dwinell, David, James Delorey, and Lawrence Fade. "The History, Development and Implementation of the Long Term Management Strategy for the Placement of Dredged Material in the San Francisco Bay Region." In Third Specialty Conference on Dredging and Dredged Material Disposal. American Society of Civil Engineers, 2003. http://dx.doi.org/10.1061/40680(2003)52.

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Lebassi, B., J. E. Gonza´lez, R. Bornstein, and D. Fabris. "Spatial and Temporal Changes in Climatological Degree-Days in California." In ASME 2007 Energy Sustainability Conference. ASMEDC, 2007. http://dx.doi.org/10.1115/es2007-36205.

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Analysis of 35 years observed trends in summertime daily maximum and minimum temperatures in two non attainment California air basins showed coastal cooling and inland warming. To study the impact of these results on the energy consumption we analyzed the cooling/heating degree days (CDD/HDD) of California long term observed temperatures. In this research historical surface 2-m air temperature data analyses consist of long-term data records, from 273 locations in California, and the primary sources of such data include the cooperative network, first order National Weather Service stations, and military weather stations. Data were used from 273 cooperative stations with more than 100 stations in the northern Central Valley (CV) of California, each with 40 to 60 years of monthly average, minimum, and maximum temperature data records. About 100 of the stations are in the San Francisco Bay (SFB) and 30 of the stations are on the South Coast Air Basin (SoCAB) of California. Analysis of the CDD/HDD has been undertaken for California in general and in the SFB and SoCAB in particular, under regional climate change conditions. Regional climate fluctuations have larger effects on surface temperatures, which in turn affect the CDD and HDD. A closer look to the CDD reflects an asymmetric increase between the coast and inland regions of California during the last 35 years. In general coastal areas experienced historical decrease of CDD while inland regions experienced increase in CDD. This is attributed to the sea breeze flows, which suggest an increase of the cold marine air intrusion due to the increase of the regional sea breeze potential, which naturally ventilates the coastal areas.
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Nader, Marwan, and Brian Maroney. "The New San Francisco-Oakland Bay Bridge." In Structures Congress 2013. American Society of Civil Engineers, 2013. http://dx.doi.org/10.1061/9780784412848.052.

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Kumar, S. Anil, Justus Heimann, Bruce L. Hutchison, and Scott W. Fenical. "Ferry Wake Wash Analysis in San Francisco Bay." In 11th Triennial International Conference on Ports. American Society of Civil Engineers, 2007. http://dx.doi.org/10.1061/40834(238)47.

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Reports on the topic "San Francisco Bay (Region)"

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Aagaard, B. T., R. W. Graymer, C. H. Thurber, et al. Science Plan for Improving 3-D Seismic Velocity Models in the San Francisco Bay Region, 2019-24. Office of Scientific and Technical Information (OSTI), 2019. http://dx.doi.org/10.2172/1569674.

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Rodgers, A. J. Computational Approach for Improving Three-Dimensional Sub-Surface Earth Structure for Regional Earthquake Hazard Simulations in the San Francisco Bay Area. Office of Scientific and Technical Information (OSTI), 2017. http://dx.doi.org/10.2172/1396195.

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Hutchings, L., P. Kasameyer, C. Turpin, et al. Deep Borehole Instrumentation Along San Francisco Bay Bridges - 2000. Office of Scientific and Technical Information (OSTI), 2000. http://dx.doi.org/10.2172/802090.

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Hutchings, L., P. Kasameyer, L. Long, et al. Deep Borehole Instrumentation Along San Francisco Bay Bridges - 2001. Office of Scientific and Technical Information (OSTI), 2001. http://dx.doi.org/10.2172/803164.

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Bakun, W., J. Bowman, R. Clymer, et al. Deep bore hole instrumentation along San Francisco Bay Bridges. Office of Scientific and Technical Information (OSTI), 1998. http://dx.doi.org/10.2172/2850.

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Coale, Kenneth H., and Kenneth S. Johnson. Trace Metal and Nutrient Cycling in San Francisco Bay. Defense Technical Information Center, 1997. http://dx.doi.org/10.21236/ada629376.

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Dillon, Thomas M., and David W. Moore. Assessment of Dredged Material Toxicity in San Francisco Bay. Defense Technical Information Center, 1990. http://dx.doi.org/10.21236/ada230750.

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Hutchings, L., W. Foxall, P. Kasameyer, et al. Deep Borehole Instrumentation Along San Francisco Bay Bridges: 1996 - 2003 and Strong Ground Motion Systhesis Along the San Francisco/Oakland Bay Bridge. Office of Scientific and Technical Information (OSTI), 2005. http://dx.doi.org/10.2172/881065.

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Upadhye, R. Biomass Energy R&D in the San Francisco Bay Area. Office of Scientific and Technical Information (OSTI), 2005. http://dx.doi.org/10.2172/896606.

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Yu, Xin, and Michael J. Kleeman. PM2.5 Data Analysis and Modeling in the San Francisco Bay Area. Coordinating Research Council, Inc., 2016. http://dx.doi.org/10.21813/crca-96.

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