Naval Petroleum Reserves Research Articles

Joint Effects of Density Dependence and Rainfall on Abundance of San Joaquin Kit Fox

We analyzed time-series abundances of San Joaquin kit fox estimated during 1983-95 on the Naval Petroleum Reserves in California (NPRC). For the analysis, we modified a model of density-dependent, stochastic population growth to include the lagged effects of a weather covariate (vegetation growing season rainfall). Without the covariate in the model, a statistical test failed to detect significant density dependence in fluctuating kit fox abundances. However, when the covariate was added, strong density dependence was detected. According to an information-theoretic model-selection index, the model with both density dependence and rainfall is far superior to the models that result from deleting one or more of these factors. The 2-year time lag in the response of kit fox abundances to changes in rainfall is consistent with biological expectations of how rainfall affects habitat carrying capacity for kit fox. An additional covariate, a coyote abundance index, failed to improve the model. A population viability analysis (PVA) performed with the combined density dependence-rainfall model suggests that the San Joaquin kit fox on NPRC could face a risk of up to 52% of falling to low levels within 20 years.

DISPERSAL PATTERNS OF SAN JOAQUIN KIT FOXES (VULPES MACROTIS MUTICA)

We investigated dispersal patterns of San Joaquin kit foxes (Vulpes macrotis mutica )o n the Naval Petroleum Reserves, California. Of 209 juvenile kit foxes monitored during 1980‐1996, 33% dispersed from their natal territory. Significantly more males (49.4%) than females (23.8%) dispersed, and dispersal peaked in July. Dispersing males tended to be heavier than philopatric males; philopatric females were significantly heavier than dispersing females. Expressed as a percentage of all juveniles monitored, annual dispersal ranged from 0% to 79% for males, 0% to 50% for females, and 0% to 52% for all foxes. Percentage of male dispersal was related weakly to mean annual litter size (r 2 5 0.27), and percentage of female dispersal was weakly and inversely related to annual indices of smallmammal abundance (r 2 5 0.46). Most (65.2%) dispersing juveniles died within #10 days of leaving their natal range. Survival tended to be higher for dispersing males than for philopatric males but was similar between dispersing and philopatric females. Sixty percent of all foxes that survived to breeding age reproduced except among dispersing females, none of which reproduced. Alloparental care did not account for sex-biased dispersal in kit foxes. Auxiliary adults were observed occasionally with mated pairs, but helping behavior was not observed. Dispersal patterns of kit foxes may be a function of innate sex-biased

Variation in Body Mass of San Joaquin Kit Foxes

We evaluated effects of age, sex, season, and year on body mass of endangered San Joaquin kit foxes ( Vulpes macrotis mutica ) over a 16-year period at the Naval Petroleum Reserves in California. Mean body mass of kit foxes increased by 35–47% for the 1st 3 months of life, and foxes gained ca. 90% of their total adult mass by 10 months of age; no significant changes in mass occurred after 22 months of age. Males were significantly heavier (5.8%) than females by 3 months of age, and by 10 months of age and afterwards, males were ca. 20% heavier than females. Adult foxes (≥22 months) lost ca. 3.5% of their mass between winter and the following summer, but reasons for this seasonal change in mass are unknown. Annual variation in mass of kit foxes was detected and seemed related to variation in availability of prey.

Condition of San Joaquin Kit Foxes in Urban and Exurban Habitats

We compared condition of endangered San Joaquin kit foxes (Vulpes macrotis mutica) between an urban population in Bakersfield, California (BAK), and a nearby exurban population at the Naval Petroleum Reserves in California (NPRC). Our objective was to determine whether differences between urban and exurban environments, particularly food availability and disease vectors, were reflected in kit fox condition. Body mass, blood chemistry, and prevalence of viral antibodies were assessed at both sites in 1988 and 1989. Body mass was higher for BAK kit foxes, particularly juveniles, and varied between years for NPRC kit foxes. Higher red blood cell count (RBC), hemoglobin (Hb), hematocrit (Hct), mean corpuscular hemoglobin (MCH), and mean corpuscular volume (MCV) among NPRC kit foxes were indicative of hemoconcentration, probably resulting from dehydration associated with low food or water intake. Kit foxes from NPRC exhibited higher blood urea nitrogen (BUN) and lower cholesterol (CHOL) levels compared to BAK kit foxes. These results may have reflected dietary differences, but they possibly indicated tissue catabolism by NPRC kit foxes due to nutritional deprivation. Other serological data also suggested nutritional stress among NPRC kit foxes. Prevalence of antibodies to canine parvovirus (CPV), canine distemper (CD), and infectious canine hepatitus (ICH) was similar between populations. Food availability for kit foxes at NPRC was relatively low during 1988-89 due to drought conditions, but food probably was not a limiting factor at BAK due to abundant water and the presence of anthropogenic foods. Urban environments may provide certain advantages for San Joaquin kit foxes and could contribute to conservation and recovery efforts.

Variation in annual estimates of effective population size for San Joaquin kit foxes

AbstractWe used a demographic model to calculate a series of annual Ne/Nestimates ((Ne/N)S) for a population of the endangered San Joaquin kit fox (Vulpes macrotis mutica) and to identify the demographic parameters explaining significant portions of the variation in (Ne/N)S estimates. Demographic data were collected between 1981 and 1995 from adult kit foxes located on the Naval Petroleum Reserves in California. Demographic parameters were estimated by determining the sex of captured adult foxes and monitoring the survival and reproduction of adult foxes fitted with radiocollars. Individual demographic parameters explaining significant portions (P < 0.10) of the variation in (Ne/N)S estimates was determined using forward stepwise multiple regression. Estimates of (Ne/N)S were highly variable, ranging from 0.22 to 1.15, ( image = 0.67, sem= 0.07, n= 14), with a harmonic mean of 0.55. Forward stepwise multiple regression analysis indicated that mean annual female survival (P= 0.002) and mean annual female reproductive success (P= 0.004) explained significant portions of the variation in estimates of (Ne/N)S, while mean annual sex ratio (P = 0.159), mean annual litter size (P= 0.406) and mean annual male survival (P= 0.922) did not. Long‐term kit fox conservation strategies will probably have to account for wide variation in (Ne/N)S ratios and focus on maintaining or expanding the size and connectivity of populations.

Microhabitat Use and Home Range Characteristics of Blunt-Nosed Leopard Lizards

We used radiotelemetry to determine habitat use and home range characteristics of 16 blunt- nosed leopard lizards (Gambelia sila) at two sites on the Naval Petroleum Reserves in California. Space use parameters of eight lizards occupying an area of relatively dense vegetation in 1982 and eight lizards inhabiting a sparsely vegetated site in 1984 were compared. Home range size, core area size, and amount of overlap of ranges did not differ significantly between sites. The difference in average home range size between males (4.24 ha) and females (2.02 ha) was borderline significant (P = 0.054). Female home ranges and core areas were overlapped extensively by male ranges (x = 79.8% and 50.3%, respectively). There was no evidence of intrasexual overlap of core areas. Male home ranges overlapped the ranges of up to four other males but female ranges did not overlap one another. At the more densely vegetated site, leopard lizards used washes significantly more than grassland, floodplain, and road habitats and they used grassland significantly less than other habitats. At the sparsely vegetated site, grassland was used more than wash habitat and hills were used less than all other habitats. Our data indicate that leopard lizard activity is concentrated in washes and other open areas when herbaceous cover is dense, but they are capable of utilizing the more extensive grassland habitat if vegetation is sufficiently sparse. Creating open space within the grassland habitat may have important management implications for this species in some areas.

Viral antibodies in coyotes from California.

Prevalence of antibodies against canine parvovirus (CPV), canine distemper virus (CDV), and canine adenovirus type 1 (CAV) were determined among 152 coyotes (Canis latrans) at the Naval Petroleum Reserves (NPRC; California, USA) from 1985 to 1990. Overall prevalence of antibodies to CPV, CDV, and CAV was 66%, 37%, and 68%, respectively. Prevalence of CPV and CDV varied significantly among years. Antibody prevalence did not differ between sexes for any disease, but did vary significantly among age classes and was lowest for pups (< 1-yr-old). Among pups, antibody prevalence increased with age for all three diseases. Coyotes are a potential source of viral exposure for endangered San Joaquin kit foxes (Vulpes macrotis mutica), but variation in coyote abundance did not appear to influence antibody prevalence among kit foxes.

Factors Affecting the Spatial Distribution of San Joaquin Kit Foxes

Determining the factors that influence or limit the distribution of endangered species can have important conservation implications. We investigated the spatial distribution of endangered San Joaquin kit foxes (Vulpes macrotis mutica) within a 31,400-ha area of the Naval Petroleum Reserves in California (NPRC) from 1988 to 1995 by relating capture rates of kit foxes to habitat factors, visitation rates of larger predators, and prey counts. Capture rates also were related to habitat factors on a smaller portion (11,500 ha) of NPRC from 1981 to 1995. Kit foxes were relatively evenly distributed in 1981-82, and regression models consequently explained only 6% of the spatial variation in capture rates. Afterwards, the distribution of kit foxes became more restricted, and models explained 36-60% of the variation in rates of capture. Capture rates were negatively associated with topographic ruggedness, were lower within a fenced area (limited public access and no livestock grazing; P < 0.001), and were often higher within burned areas (P < 0.001). After 1987, capture rates were usually negatively associated with oil-field development. Visitation rates of coyotes (Canis latrans), a major predator of kit foxes, were higher within the fenced area (P ≤ 0.034). Capture rates were negatively correlated (r 132 = -0.22, P = 0.01) with coyote visitation rates during 1992-95. Locations of bobcat (Lynx rufus) captures and visits to scent stations overlapped very little with capture locations of kit foxes. Counts of lagomorphs (a significant prey item) were negatively associated with burning, and between 1992 and 1995, lagomorph counts were positively associated with oil-field development. Capture rates were not correlated with lagomorph counts during 1988-91 (r 77 = -0.09, P = 0.44) or 1992-95 (r 77 = 0.15, P = 0.18). Our findings indicated the relation between kit foxes and the habitat factors studied was somewhat flexible, and the spatial distribution of kit foxes was not determined primarily by prey abundance. Predator density and topographic ruggedness appear to be important underlying factors governing the spatial distribution of kit foxes at NPRC.

Competitive Interactions between Coyotes and San Joaquin Kit Foxes

Competitive interactions between coyotes ( Canis latrans ) and federally endangered San Joaquin kit foxes ( Vulpes macrotis mutica ) were investigated at the Naval Petroleum Reserves in California (NPRC) during 1984–1995. Coyotes and kit foxes used similar food items, indicating the potential for exploitative competition. Leporids were the primary prey for coyotes in all years, but small rodents were the primary prey for kit foxes in most years, although leporids were primary prey in other years. Coyotes were the main cause of mortality to kit foxes at NPRC, indicating that interference competition may be occurring. Population trends of kit foxes appeared to be strongly influenced by food availability, but competition from coyotes also may have affected population dynamics of kit foxes. Mechanisms employed by kit foxes, such as resource partitioning, greater dietary breadth, and year-round den use, may facilitate coexistence with coyotes. However, use of anthropogenic food sources by coyotes may intensify competitive interactions during periods of low prey availability.

Effects of Radiocollars on San Joaquin Kit Foxes

Effects of radiocollars on San Joaquin kit foxes (Vulpes macrotis mutica; Mecure et al. 1993) at the Naval Petroleum Reserves, California were assessed by comparing survival, body mass changes, and reproductive indices between uncollared and collared foxes, and between foxes wearing 100-110 and 50-60-g collars. Among adults, higher survival for foxes surviving the first 30 days post-collaring (P = 0.07) and higher mass loss among newly collared foxes (P = 0.02) may have been attributable to a post-collaring acclimation period. The increased survival after 30 days only was evident among foxes with 100-110-g collars. Lower survival and higher mass loss among newly collared juvenile foxes also provided evidence of an acclimation period. Effects among juveniles were particularly evident after parental care presumably had ceased and when many juveniles may have been dispersing. Tests of collar:body mass ratios indicated that juvenile survival was lower at ratios ≥6%. Finally, analyses revealed little evidence of sex-specific collar effects and no evidence of reduced reproductive success among collared adult females. The potential for a post-collaring acclimation period should be considered in investigations of kit fox survival and body mass dynamics, and collaring should be avoided during periods of increased vulnerability or stress.

Reservoir Compartmentalization Caused by Mass Transport Deposition, Northwest Stevens Pool, Elk Hills Naval Petroleum Reserves, California: ABSTRACT

The [open quotes]A[close quotes] sands of the Northwest Stevens Pool consist of six major subdivisions (A1-A6) and numerous sublayers. These sands are above the [open quotes]N Point[close quotes] stratigraphic marker, making them much younger than most other Stevens sands at Elk Hills. Cores show the A1-A3 sands to be possibly mass transport deposition, primarily debris flows, slumps, and sand injection bodies. The A4-A6 sands are characterized by normally graded sheet-like sand bodies Hospital of traditional outer fan turbidite lithofacies. Most current production from the A1-A2 interval comes from well 373A-7R, are completed waterflood wells that came on line in 1992 at 1400 BOPD. Well 373A-7R is an anomaly in the A1-A2 zone, where average production from the other ten wells is 200 BOPD. Other evidence for compartmentalization in the A1-A2 interval includes sporadic oil-water contacts and drawdown pressures, difficult log correlations, and rapid thickness changes. In 1973, well 362-7R penetrated 220 ft of wet Al sand. The well was redrilled updip and successfully completed in the A1, where the oil-water contact is more than 130 ft lower than the original hole and faulting is not apparent. In 1992, horizontal well 323H-7R unexpectedly encountered an entirely wet Al wedge zone. Reevaluation more » of the A1-A3 and other sands as mass transport origin is important for modeling initialization and production/development strategies. « less

Food-Item Use by Coyotes at the Naval Petroleum Reserves in California

Coyote (Canis latrans) food habits have been extensively documented (Bekoff, 1977). Use of food items by coyotes varies with location and time in response to spatial and temporal variation in food availability. Thus, siteand time-specific investigations are necessary to accurately describe local coyote foraging patterns. Relatively few investigations of coyote food habits have been conducted in California (e.g., Ferrel et al., 1953), and none were specific to the San Joaquin Valley. Additionally, coyotes in the southern San Joaquin Valley are sympatric with the endangered San Joaquin kit fox (Vulpes macrotis mutica = V. velox macrotis, cf. Dragoo et al., 1990) and potentially compete with foxes for food resources. Also, several other federally listed and candidate species occur in the southern San Joaquin Valley and may be preyed upon by coyotes. These species include the endangered giant kangaroo rat (Dipodomys ingens) and the blunt-nosed leopard lizard (Gambelia silus), and candidate species shortnosed kangaroo rat (Dipodomys nitratoides) and San Joaquin antelope squirrel (Ammospermophilus nelsoni). We investigated food-item use by coyotes at the Naval Petroleum Reserves in California (NPRC) to (1) determine annual and seasonal item use, and in particular to evaluate the dietary importance of leporids which are important prey for kit foxes (O'Farrell et al., 1987; J. H. Scrivner et al., in litt.), (2) assess the effect of annual leporid abundance on coyote food habits, and (3) determine whether coyotes prey on giant kangaroo rats, blunt-nosed leopard lizards, shortnosed kangaroo rats, and San Joaquin antelope squirrels. NPRC is an area of active petroleum production located 42 km SW of Bakersfield in western

History of the Naval Petroleum Reserves, Elk Hills, Kern County, California

History of the Naval Petroleum Reserves, Elk Hills, Kern County, California

Saturated Mound Development on Sloping Clay Layers Due to a Finite Source: An Analytical Solutiona

Sloping clay layers beneath percolation ponds can cause infiltrating waste water to pond and move in directions not predicted by vertical infiltration equations. This paper presents a method for estimating the potential of percolation sumps located over sloping clay layers to interact with nearby ground-water resources. The analytical solution developed is for steady-state conditions and includes a procedure to estimate the time needed to reach steady state. The fundamental assumption used in the mathematical development requires that elevation-head gradients be much larger than pressure-head gradients. A method for testing the validity of this assumption is also included. An example calculation was performed for percolation sumps on the Naval Petroleum Reserves No. 1 in Elk Hills, California. That analysis shows that under the assumptions used, a sump exclusion zone on the Elk Hills is required to protect ground-water resources within the adjacent San Joaquin Valley.

Laboratory Experiments To Evaluate Field Prospects for CO2 Flooding

Summary Exploration play-analysis methods are designed for individual or conceptual exploration plays to assess conventional petroleum resources. Play-analysis techniques usually are applied to a small area of appraisal, such as a geologic trend comprising a series of stratigraphic traps or structural traps. Play-analysis procedures, incorporating Monte Carlo techniques, also have been applied to entire geologic horizons, formations, or stratigraphic units of a geologic basin or province. The application of exploration play-analysis techniques to broad frontier provinces for the assessment of conventional petroleum resources by the USGS are reviewed and the results for the Natl. Petroleum Reserve of Alaska (NPRA) and the William O. Douglas Arctic Wildlife Range (WODAWR) are discussed. Introduction Exploration play-analysis methods have been designed for identified or conceptual exploration plays within a basin or province in order to assess conventional petroleum resources. The basic definition of an exploration play is: A practical meaningful planning unit around which an integrated exploration program can be constructed. A play has geographic and stratigraphic limits and is confined to a formation or a group of closely related formations on the basis of lithology, depositional environment, or structural history. However, many variations of this definition and of the basic assumptions applied to play concepts have been accepted by various resource estimators when using play-analysis techniques. Play-analysis methods usually have been applied to the appraisal of relatively small areas, such as a geologic trend consisting of a reef play or a channel or a bar sand. However, the play-analysis procedure has been applied to some entire geologic horizons or stratigraphic units for the appraisal of a total basin or province--e.g. the total Cretaceous potential within a basin or the potential of an entire basin. Although the estimator may have called the procedure a "play analysis," the basic concepts are obviously no longer those of the original definition. Thus, there are some extreme variations in this method and in the respective assumptions from one estimator to another. Recently, exploration play-analysis techniques have been applied to frontier areas where geological and geophysical data are limited and the geologic variables have been described by subjectively derived probability functions based on the judgment of the estimators or by the use of selected analogs. A simulation model was designed in the U.S. Dept. of the Interior, Office of Minerals Policy and Research Analysis (DOI/OMPRA), in response to a directive resulting from the Naval Petroleum Reserves Production Act of 1976. This act required that the president of the U.S. have a study conducted to determine the best overall procedures to be used in the development, production, transportation, and distribution of any petroleum resources in the reserve and to determine the economic and environmental consequences of alternative procedures. The activities simulated by the integrated model are the exploration, development, production, transportation, and distribution activities for oil and gas on the basis of the results of the play-analysis approach in the geologic sub model. Only the geologic and exploration sub models are discussed here.

Using LP for Crude Oil Sales at Elk Hills: A Case Study

The Naval Petroleum Reserves in California (NPRC), made up of NPR #1 (Elk Hills field) and NPR #2 (Buena Vista field), are some of the major sources of crude oil in the United States. Current estimates of remaining recoverable reserves in the NPRC exceed one billion barrels. Over 90% of the NPRC reserves underlie the Elk Hills field. At current prices, this represents an asset value of over $18 billion. This paper will discuss the bid and evaluation procedures as applied to crude oil sales at Elk Hills only.

Petroleum Exploration of National Petroleum Reserve in Alaska (NPRA): ABSTRACT

Naval Petroleum Reserve No. 4 was designated as the End_Page 715------------------------------ National Petroleum Reserve in Alaska by the Naval Petroleum Reserves Act of 1976 and jurisdiction was transferred to the Secretary of the Interior. Beginning June 1, 1977, the U.S. Geological Survey was charged with the responsibility to (1) continue the petroleum exploration program, (2) expand production of natural gas at Barrow for local consumption, and (3) environmentally rehabilitate those parts of the reserve disturbed by previous exploration and construction activities. All of these activities are accomplished through a contract with Husky Oil NPR Operations, Inc.; the activities were previously supervised by the U.S. Navy in 1975 and were assumed in 1977 by the Department of the Interior. The U.S. Geological Survey provides technical and contract supervision and makes the final determination of the exploration strategy. Sixteen plays have been defined on the basis of geological and geophysical parameters to assess the petroleum potential and aid in management and land-use decisions. From 1974 to June 1, 1977, the Navy drilled seven test wells and completed 7,680 line mi (12,360 line km) of a planned 26-well and 10,000 line-mi (16,093 line km) seismic program. All test wells were drilled in northern NPRA along trend with Prudhoe Bay. At the W. T. Foran test well on the Arctic Coast, the Sadlerochit Formation (the principal reservoir at Prudhoe) had good porosity and permeability with residual oil. The other wells had minor shows of oil and/or gas. Twelve test wells were included in the program for fiscal years 1978 and 1979. Eight have been completed with shows of oil and gas; the J. W. Dalton well on the Arctic Coast produced a few barrels of heavy oil, but there were no commercial discoveries. A five-well exploration program is projected for fiscal year, 1980. One exploratory and two development gas wells were drilled at Barrow in 1978. The two producible wells in a new section of the Barrow gas district were tied into the pipeline system that delivers gas to the Barrow communities. End_of_Article - Last_Page 716------------

Management of the Naval Petroleum and Oil Shale Reserves: Maintaining a Potential

Abstract The organization and administration of the petroleum and oil shale reserves of the U. S. Navy are discussed and operating problems are defined. The various methods of maintaining a reserve of oil in the ground ready to be produced when needed for the national defense are explained. These include offset production, maintenance of pressure barriers, production of invading water and gas injection. A study of the estimated subsurface migration and the control methods are presented. The author concludes that it is possible to maintain an active pool of oil in the ground for future production and that this philosophy provides sound planning for alleviating future crises in the availability of domestic supply of fuel for the nation's defense. Introduction The U. S. Navy's interest in petroleum and in oil shale evolves from stewardship of four petroleum reserves and three oil shale reserves. Conservative estimates place the recoverable oil from the petroleum reserves at over 1.2 billion bbl. The naval petroleum reserves in Alaska comprise come 23,680,000 acres where the greatest oil-finding potential exists. Most of the proved oil, however, is in the Elk Hills field, Kern County, Calif., a field exceeded in quantity of in-place oil by only two other fields in the nation. At the turn of the century it became clear that petroleum would play an increasing important role in the national economy in the years ahead. It became equally apparent that the rapid conversion of the Navy's fleet from coal to oil-burning vessels would require a readily available supply of domestic fuel oil to assure its future requirements. This was also a time when the public lands were rapidly passing into private ownership and the national conservation movement was on the upswing. It was in this climate that the reserves were born. The petroleum reserves were set aside by a series of executive orders in 1912, 1915 and 1923. The shale reserves were established in 1916 and 1924. By the act of June 4, 1920, Congress directed the Secretary of the Navy to take possession of all properties within the naval petroleum reserves not subject to prior claims; to conserve, develop, use and operate the same in his discretion, directly or by contract, lease or otherwise; and to use, store, exchange or sell the oil therefrom for the benefit of the U. S. Since the reserves were established, two changes occurred which have led to controversy over their continued need. The first is that more oil has been found in the U. S. than originally thought possible. Second, the demand for oil by the armed services has increased to such an extent that the reserves have been called "insignificant" by some. Creation of the Reserves Origins in the Public Domain By 1900 the public lands of the U.S. throughout the West were fast passing into private ownership. This steady disappearance of the public domain was taking place primarily as a result of legislation which enabled private persons to enter upon government lands and, upon the fulfillment of certain conditions, receive full fee ownership. Other large tracts had earlier been ceded directly by the U.S. as grants to the states in aid of public school programs, and to railroad companies as an aid for construction. The turn of this century coincided with a growing realization of the important role which oil was destined to play in the years ahead. It was particularly apparent to the federal government that the future navies of the world were to be powered by oil. The U.S. Navy had in prospect a complete change-over from coal to petroleum and an expensive new ship construction program based on this type of fuel. As a result, the U.S. Geological Survey suggested early in the 1900's that the probable oil-bearing lands in the public domain should be permanently withdrawn from those areas open to settlement. President Theodore Roosevelt directed the USGS to inquire into and to report upon those public lands believed to contain oil. The Geological Survey's investigation was not completed until early in President Taft's administration. JPT P. 597ˆ

Geology of San Nicolas Island, Ventura County, California: ABSTRACT

San Nicolas Island is the outermost of a group of eight islands off southern California. Point Mugu is the nearest point on the mainland, about 63 miles north; Los Angeles City Hall is approximately 90 miles northeast. A geologic study of San Nicolas Island was begun by personnel of the U. S. Geological Survey in March, 1955, at the request of the director of Naval Petroleum Reserves. About 3,550 feet of alternating sandstone, siltstone, and conglomerate constitute the exposed Tertiary section on the island. Foraminiferal studies indicate that these rocks are of late Eocene age. Several small igneous dikes that may be Miocene cut the sedimentary rocks in the southeastern part of the island. Quaternary dune sand and marine terrace deposits cover much of the central and western parts of the island. Structurally, San Nicolas Island is a broad complexly faulted anticline with a southeast plunge. The axis roughly parallels the long dimension of the island and lies near the southwest shoreline. Two sets of intersecting faults which trend approximately north-south and east-west appear to have formed almost simultaneously. Most of these faults are high-angle normal faults, the largest having maximum apparent vertical displacement of about 400 feet. Geologic diving operations were conducted off the west end of the island in an attempt to trace the seaward extent of the anticline mapped on shore. Self-contained underwater breathing apparatus was used by the divers in the study of approximately 5 square miles of sea floor at depths ranging from 30 to 120 feet. End_of_Article - Last_Page 354------------

Airborne equipment for geomagnetic measurements

The airborne magnetometer AN/ASQ‐3A has been modified and auxiliary equipment has been developed to meet requirements for constructing isomagnetic contours of the total magnetic field over extensive areas for use in magnetic prospecting. The principal features of the instrument system are: (a) a self‐oriented magnetometer which utilizes the output of a system of saturable inductors to provide a d‐c response of low noise level and drift rate; (b) instruments for aiding the pilot to follow predetermined lines of a grid or network covering the area to be explored; and (c) an interlocked group of recorders for automatically correlating a continuous magnetometer record with plane position and altitude.The system described has been used extensively by the United States Geological Survey, the United States Naval Petroleum Reserves, and the United States Naval Ordnance Laboratory in aerial magnetic exploration under a wide variety of conditions. Similar systems are also being used by a few commercial companies.