The CALCOM database is used by the California Cooperative Groundfish Survey to store and manage Commercial market sample data. This data is ultimately used to provide species specific landing estimates to PacFIN. It also is used to generate inseason landing estimates (QSM). The data is also provided to stock assessment authors, fisheries managers, and researchers.
This research was devoted to studying sperm whale (Physeter macrocephalus) behavior. The principal study area for T-TOP and T-TOP2 was the Pioneer Seamount, 50 nautical miles west of Half Moon Bay, CA, and the waters off of central California. The ship searched for sperm whales on a daily basis depending on where the weather was expected to be the best for working and finding animals.
An aerial monitoring program was conducted during the period 1962 - 2007 in cooperation with aerial spotters working for the commercial purse seine fleet. Flights were conducted throughout the year to estimate abundance of pelagic fishes off California and Baja California, Mexico. Measurements were recorded for each identifiable species in 10'-longitude by 10'-latitude blocks. This file gives the 6 codes used to classify the sightings into distinct categories.
The Southwest Fisheries Science Center (SWFSC) has conducted a variety of marine mammal surveys in the eastern tropical Pacific (ETP) and other areas of the Pacific Ocean. The purpose of these surveys has been to estimate cetacean population sizes and to monitor the impact of incidental kill due to commercial fisheries, particularly the tropical purse-seine fishery for yellowfin and skipjack tuna. The northern stock of common dolphin, Delphinus delphis, is taken in the purse-seine tuna fishery (Hall and Lennert 1994). The index of relative abundance for this stock computed from sightings on tuna vessels has declined substantially in the last decade (Anganuzzi and Buckland 1994). However, because tuna vessels cover only the southern portion of the stock’s range, the declines in the index may be due to a northward shift in distribution, rather than an actual decline in abundance. There has been an increase in abundance of tropical delphinids and a decrease in abundance of temperate delphinids during this period in California waters, accompanied by a general warming trend in ocean temperature (Barlow, 1993). Previous research vessel surveys have covered either northern (Hill and Barlow 1992) or southern (Wade and Gerrodette 1993) parts of the range of the northern common dolphin, but neither of these surveys have covered the middle portion of the range off the coast of northern Baja California. The 1993 survey was designed to produce the first range-wide estimates of abundance for the northern common dolphin and its recently described congener, Delphinus capensis (Heyning and Perrin, 1994) . The 1993 survey was conducted by the NOAA Ships McArthur and David Starr Jordan.
The National Marine Fisheries Service (NMFS) was mandated by the 1984 amendment to the Marine Mammal Protection Act to monitor trends in the abundance of dolphins in the eastern tropical Pacific (ETP) . The Southwest Fisheries Science Center (SWFSC) has been conducting a variety of marine mammal surveys in the ETP and other areas of the Pacific Ocean. The purpose of these surveys has been to estimate the population sizes of cetacean species and monitor the impact of the commercial fisheries which incidentally kill dolphins. The 1992 survey was designed to make abundance estimates of the central stock of common dolphin, Delphinus delphis. This stock of dolphin is taken in the tropical tuna fishery and suffered a substantial decline (Anganuzzi et al. 1992). Previous surveys covering larger areas have permitted estimates of abundance, but with low precision (Wade and Gerrodette 1993). The 1992 survey was conducted by the NOAA Ships McArthur and David Starr Jordan.
This study was conducted in Mexico aboard the National Oceanographic and Atmospheric Administration (NOAA) research ship McArthur during two months in summer/fall 1995. The primary purpose of this research was to learn how to better estimate the abundance of long-diving whales during ship line-transect surveys. These whale species, including beaked whales and dwarf and pygmy sperm whales, dive for such long periods of time that there is a high probability that they will never surface within the visual range of observers searching from a moving survey vessel with 25X binoculars. The project was called CADDIS (Cetacean Acoustic Detection and Dive Interval Studies) and focused on two potential approaches to improve abundance estimates: 1) acoustic detection of diving animals, and 2) collecting dive interval data on those species to serve as a basis for a model-based abundance correction factor. The CADDIS research was conducted primarily in the southern Gulf of California, Mexico. This area was chosen for two main reasons: prior surveys showed the area to have a very high density of small long-diving whales of the genera Mesoplodon, Ziphius and Kogia (Mangels and Gerrodette 1994), and the area has consistently calm seas which enables dive intervals to be observed and accurately measured. The timing of the survey was similarly chosen as the season with the consistently lowest winds in the southern Gulf.
In 1997, the Southwest Fisheries Science Center (SWFSC) conducted a survey designed to estimate the abundance of vaquita, the Gulf of California harbor porpoise (Phocoena sinus). This was a joint project between the fisheries agencies of the United States and Mexico.
The 1997 Sperm Whale Abundance and Population Structures (SWAPS) line-transect survey was designed to census sperm whales near the end of their breeding season in the North Pacific Ocean from the west coast of the continental U.S. out to an area near the Hawaiian Islands. This survey was conducted by the NOAA Southwest Fisheries Science Center (SWFSC) aboard the NOAA ship McArthur for a total of approximately 12,000 kilometers surveyed from early March to early June 1997.