Seasonal variation of diatoms and dinoflagellates in Monterey Bay, CA determined by CHEMTAX analysis of HPLC pigment data
Description
by Kelene N. Keating, "A thesis presented to the faculty of Moss Landing Marine Laboratories.", Thesis (M.S.) -- California State University, Monterey Bay, 2013.
A study of feeding in two sympatric opisthobranch snails from Monterey Bay, California
Description
by David Shonman., "A thesis presented to the faculty of Moss Landing Marine Laboratories.", Thesis (M.S.) -- California State University, Hayward, 1979.,
An assessment of genetic variation within and between sea otter(Enhydra lutris) populations off Alaska and California
Description
by Lisa Christine Cheney., "A thesis presented to the faculty of Moss Landing Marine Laboratories.", Thesis (M.S.) -- San Jose State University, 1995., ,
Gulf of California pleistocene and modern molluscan comparison as a test for global change
Description
by Carlos E. Cintra Buenrostro., "A thesis presented to the faculty of Moss Landing Marine Laboratories." Thesis (M.S.)--San Jose State University, 2000.
Evaluating methods to anesthetize Gopher Rockfish (Sebastes carnatus) for immediate release in the field: Induction, recovery, and cortisol stress response to surgical anesthesia
Description
by Jahnava K. Duryea, "A thesis presented to the faculty of Moss Landing Marine Laboratories.", Thesis (M.S.) -- San Jose State University, 2014.
The spot prawn (Pandalus platyceros Brandt 1851) resource in Carmel submarine canyon, CA
Description
by Kyra Layne Schlining., "A thesis presented to the faculty of Moss Landing Marine Laboratories.", Thesis (M.S.) -- California State University, Stanislaus, 1999.,
The The vertical distribution of the infauna in a sublittoral sand-bottom
Description
by John S. Oliver, "A thesis presented to the faculty of Moss Landing Marine Laboratories.", Thesis (M.S.) -- California State University, Hayward, 1973.
Effects of depth, site, and season on phenotypic variation of the geniculate coralline, Calliarthron tuberculosum: around the Monterey Peninsula, California
Description
by Jasmine E. Ruvalcaba, "A thesis presented to the faculty of Moss Landing Marine Laboratories.", Thesis (M.S.) -- San Jose State University, 2014.
Origin and paleoceanographic significance of laminations in hemipelagic biosiliceous sediments: Examples from the Peru margin and the Monterey Formation, California
Description
by Jennifer Desiree Dreyer, "A thesis presented to the faculty of Moss Landing Marine Laboratories.", Thesis (M.S.) -- California State University, Monterey Bay, 2011.
Deposition, peristence, and utilization of kelp wrack along the central California coast
Description
by Jarred A.Klosinski., "A thesis presented to the faculty of Moss Landing Marine Laboratories.", Thesis (M.S.) - California State University, Monterey Bay, 2015.
Using new tag attachments to study humpback whale fine-scale spatiotemporal dive behavior, habitat use, and reaction to ships off northern California
Description
by Angela Renee Szesciorka, "A thesis presented to the faculty of Moss Landing Marine Laboratories.", Thesis (M.S.) -- San Jose State University, 2015.
Impact of individual and population-scale dynamics on growth and reproduction of two morphologies of Macrocystis in central California
Description
by Sarah V. Jeffries, "A thesis presented to the faculty of Moss Landing Marine Laboratories.", Thesis (M.S.) -- California State University, Monterey Bay, 2015.
Deep-sea sedimentary processes in the Argentine Basin revealed by 3.5 kHz echograms
Description
by Adam Klaus, "A thesis presented to the faculty of Moss Landing Marine Laboratories.", Thesis (M.S.) -- San Jose State University, 1986., The regional distribution of eleven 3.5 kHz seismic echo types reveals the areal extent of deep-sea sedimentary processes in the Argentine Basin. A correlation between echo character and the relative abundance of sand and silt layers in piston cores allows the pattern of coarse terrigenous sediment dispersal to be identified. This relationship indicates that the majority of coarse sediment bypasses the continental slope and rise. This coarse sediment is deposited on the proximal abyssal plain with progressively lower amounts basinward, and lower abundances on the shallow margin. Scarps, irregular and blocky hyperbolic zones, and transparent layers along the Argentine continental margin have echo characteristics similar to those of documented gravity-controlled mass flow deposits. A large area of mass flow deposits, covering at least 5x10^4 km^2, is located on the continental rise and adjacent abyssal plain east of the Rio de la Plata. A field of migrating mud waves, approximately 1.0x10^6 km^2 in extent, occurs on the sediment drifts of the central basin. Mud waves range in amplitude up to 137m and average 26m, and have wavelengths of about 3 to 7 km. The presence of migrating mud waves suggests widespread current-controlled sedimentation. It is inferred, however, that these mud waves form in areas of relatively weak flow in the interior basin because the benthic circulation is characterized by strong Antarctic Bottom Water (AABW) flow along the western and southern margins and by weak flow in the central basin. A variety of hyperbolic echoes on the abyssal plain adjacent to the Argentine continental margin, south of the Rio Grande Rise, and in the Georgia Basin, are interpreted as current-produced erosional / depositional bedforms, although downslope sedimentary processes may also produce similar hyperbolic echoes. The distribution of bedforms inferred from seismic echo character suggests that sediment is supplied to the basin principally by gravity-controlled mass flows. Sediment entrained in AABW is a secondary source. Gravity-controlled mass flows are predominantly limited to the Argentine continental margin. Sediment from both sources is winnowed by strong AABW flow along the Argentine continental rise. The fine-grained chaff is transported to the central basin where it is deposited as migrating mud waves in regions of relatively weaker bottom current.
Early life history traits influence the effects of ocean acidification on the behavior and physiology of juvenile rockfishes in central California
Description
by Hamilton William Fennie, "A thesis presented to the faculty of Moss Landing Marine Laboratories.", Thesis (M.S.) -- California State University, Monterey Bay, 2015.
