Your search keyword '"P. Ted Strub"' showing total 10 results

1. Spatial and interannual variability in mesoscale circulation in the northern California Current System

Author

P. Ted Strub and Julie E. Keister

Subjects

Atmospheric Science, Ecology, Mesoscale meteorology, Paleontology, Soil Science, Forestry, Sea-surface height, Aquatic Science, Oceanography, Latitude, La Niña, Geophysics, Eddy, Space and Planetary Science, Geochemistry and Petrology, Climatology, Earth and Planetary Sciences (miscellaneous), Upwelling, Environmental science, Altimeter, Sea level, Earth-Surface Processes, Water Science and Technology

Abstract

[1] We used wavelet analyses of sea surface height (SSH) from >13 years of satellite altimeter data to characterize the variability in mesoscale circulation in the northern California Current (35°N–49°N) and explore the mechanisms of variability. We defined “mesoscale” circulation as features, such as eddies and filaments, which have 50- to 300-km length scales and 4- to 18-week temporal scales. Fluctuations in SSH caused by such features were reflected in wavelet analyses as power (energy). Spatial and interannual variation in mesoscale energy was high. Energy was highest at ∼38°N, decreasing to the north and south. Between ∼43°N and 48°N, energy was low. Zonally, mesoscale energy was highest between ∼125°W and 129°W at latitudes south of 44°N; very little power occurred in the deep ocean west of 130°W. Energy peaked during summer/fall in most years. The primary climate signals were suppressed energy during La Nina and cold years and increased energy during El Nino events. Energy was not strongly linked to upwelling winds, but did correspond to climate indices, indicating that basin-scale processes play a role in controlling mesoscale circulation. We hypothesize that climate affects mesoscale energy through changes in both potential and kinetic energy in the form of density gradients and coastal upwelling winds. The relationship between mesoscale circulation and climate was complex: no single climate, transport, or upwelling index explained the variability. These results are relevant to ecosystem dynamics and the global carbon cycle because mesoscale circulation features deliver nutrient-rich water and coastal organisms from productive upwelling areas to the deep sea.

Published

2008

2. Dynamical analysis of the upwelling circulation off central Chile

Author

P. Ted Strub, Ricardo P. Matano, and Jorge M. Mesias

Subjects

Atmospheric Science, Jet (fluid), Momentum (technical analysis), Ecology, Advection, Paleontology, Soil Science, Forestry, Aquatic Science, Vorticity, Oceanography, Geophysics, Eddy, Space and Planetary Science, Geochemistry and Petrology, Climatology, Earth and Planetary Sciences (miscellaneous), Meander, Upwelling, Geostrophic wind, Geology, Earth-Surface Processes, Water Science and Technology

Abstract

[1] In this article we analyze the momentum and vorticity balances of a numerical simulation of the upwelling circulation off central Chile (34� –40� S) and its response to interannual local wind changes. Our analysis indicates that the path of the upwelling jet is strongly controlled by the bottom topography. This topographic steering causes the jet to separate from the coast at the Punta Lavapie cape (� 37� S). Although the zeroth-order momentum balance is dominated by the geostrophic terms, the circulation is also affected by nonlinear processes, which lead to the formation of large meanders and the shedding of cyclonic eddies north of Punta Lavapie during periods of wind relaxation. The relative contributions of the zeroth-order vorticity balance and the advective terms are also strongly controlled by changes in the coastline geometry and the bottom topography. Vorticity is created along the current axes and transported toward the coast and the Peru-Chile Trench, where it dissipates. South of Punta Lavapie the across-shelf transports are weaker with equatorward flows that are more stable than in the north. Additional numerical simulations

Published

2003

3. Hydrographic conditions off northern Chile during the 1996–1998 La Niña and El Niño events

Author

Mary-Elena Carr, P. Ted Strub, Andrew C. Thomas, and José Luis Blanco

Subjects

Atmospheric Science, Ecology, Anomaly (natural sciences), Paleontology, Soil Science, Equatorial waves, Forestry, Aquatic Science, Oceanography, Salinity, La Niña, Sea surface temperature, Geophysics, Space and Planetary Science, Geochemistry and Petrology, Climatology, Earth and Planetary Sciences (miscellaneous), Upwelling, Hydrography, Sea level, Geology, Earth-Surface Processes, Water Science and Technology

Abstract

[1] The evolution of oceanographic conditions in the upwelling region off northern Chile (18°–24°S) between 1996 and 1998 (including the 1997–1998 El Nino) is presented using hydrographic measurements acquired on quarterly cruises of the Chilean Fisheries Institute, with sea surface temperature (SST), sea level, and wind speeds from Arica (18.5°S), Iquique (20.5°S), and Antofagasta (23.5°S) and a time series of vertical temperature profiles off Iquique. Spatial patterns of sea surface temperature and salinity from May 1996 to March 1997 followed a normal seasonal progression, though conditions were anomalously cool and fresh. Starting in March 1997, positive anomalies in sea level and sea surface temperature propagated along the South American coast to 37°S. Maximum sea level anomalies occurred in two peaks in May–July 1997 and October 1997 to February 1998, separated by a relaxation period. Maximum anomalies (2°C and 0.1 practical salinity units (psu)) extended to 400 m in December 1997 within 50 km of the coast. March 1998 presented the largest surface anomalies (>4°C and 0.6 psu). Strong poleward flow (20–35 cm s−1) occurred to 400 m or deeper during both sea level maxima and weaker (10 cm s−1) equatorward flow followed each peak. By May 1998, SST had returned to the climatological mean, and flow was equatorward next to the coast. However, offshore salinity remained anomalously high owing to a tongue of subtropical water extending southeast along the Peruvian coast. Conditions off northern Chile returned to normal between August and December 1998. The timing of the anomalies suggests a connection to equatorial waves. The progression of the 1997–1998 El Nino was very similar to that of 1982–1983, though with different timing with respect to seasons.

Published

2002

4. Comparison of velocity estimates from advanced very high resolution radiometer in the Coastal Transition Zone

Author

P. Ted Strub and Kathryn A. Kelly

Subjects

Atmospheric Science, Ecology, Advanced very-high-resolution radiometer, Paleontology, Soil Science, Forestry, Aquatic Science, Oceanography, Geodesy, Sea surface temperature, Drifter, Geophysics, Acoustic Doppler current profiler, Space and Planetary Science, Geochemistry and Petrology, Transition zone, Earth and Planetary Sciences (miscellaneous), Heat equation, Satellite imagery, Altimeter, Geology, Earth-Surface Processes, Water Science and Technology, Remote sensing

Abstract

Two methods of estimating surface velocity vectors from AVHRR data are applied to the same set of images and the results are compared with in situ and altimeter measurements. The first technique utilizes an automated feature-tracking algorithm and the second uses an inversion of the heat equation. The two methods were comparable in their degree of agreement with the in situ data, giving velocity magnitudes that were 30 to 50 percent less than drifter and acoustic Doppler current profiler velocities measured at 15 to 20 m depth, with rms directional differences of about 60 degrees.

Published

1992

5. The nature of the cold filaments in the California Current system

Author

Adriana Huyer, P. Michael Kosro, and P. Ted Strub

Subjects

Dynamic height, Atmospheric Science, Jet (fluid), geography, geography.geographical_feature_category, Ecology, Ocean current, Paleontology, Soil Science, Forestry, Aquatic Science, Oceanography, Spatial distribution, Current (stream), Geophysics, Space and Planetary Science, Geochemistry and Petrology, Transition zone, Spring (hydrology), Earth and Planetary Sciences (miscellaneous), Submarine pipeline, Geology, Earth-Surface Processes, Water Science and Technology

Abstract

The velocity fields and water properties associated with cold filaments in the California Current are described on the basis of data from the Coastal Transition Zone experiment. Combined with previous field surveys and satellite imagery, these show seasonal variability with maximum dynamic height ranges and velocities in summer and minimum values in late winter and early spring. North of Point Arena in spring-summer, the flow field on the outer edge of the cold water exhibits the character of a meandering jet, carrying fresh, nutrient-poor water from the farther north on its offshore side and cold, salty, nutrient-rich water on its inshore side. At Point Arena in midsummer, the jet often flows offshore and continues south without meandering back onshore as strongly as it does farther north. At the surface, the jet often separates biological communities and may appear as a barrier to cross-jet transport, especially north of Point Arena in March-May.

Published

1991

6. The structure of the transition zone between coastal waters and the open ocean off northern California, winter and spring 1987

Author

Timothy J. Cowles, Adriana Huyer, Francisco P. Chavez, P. Michael Kosro, Robert L. Smith, Paul F. Jessen, Mark R. Abbott, P. Ted Strub, Steven R. Ramp, Richard T. Barber, and Lawrence F. Small

Subjects

Dynamic height, Atmospheric Science, Ecology, Front (oceanography), Paleontology, Soil Science, Forestry, Aquatic Science, Oceanography, Geostrophic current, Geophysics, Acoustic Doppler current profiler, Water column, Space and Planetary Science, Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous), Upwelling, Geostrophic wind, Geology, Sea level, Earth-Surface Processes, Water Science and Technology

Abstract

Physical and biological fields in the coastal transition zone off northern California were measured during February, March, May and June 1987 in an extended alongshore region between 60 km and 150 km offshore. The spring transition, as seen in coastal sea level and winds, occurred in mid-March. Surface variability during the two spring cruises was stronger and of larger scale than that seen during the two winter cruises. An equatorward-tending current, flowing along the boundary between low steric sea level inshore and high steric sea level offshore, dominated both the directly-measured (acoustic Doppler current profiler) and geostrophic current fields during spring. Current jets of comparable strength directed both offshore and onshore were seen off Cape Mendocino and Point Arena; these evolved significantly in the 3 weeks between cruises. Inshore of the current, properties associated with upwelled water were found near the surface, including low temperature and high salinity, nutrients and chlorophyll; offshore of the current, waters were warmer, less saline, lower in nutrients and more oligotrophic. Geostrophic and directly measured volume transports in the current were about 2–3 Sv. Isopycnals inshore of the spring upwelling front were displaced vertically by O(40–80 m) from their depths during the winter survey; these displacements extended deep into the water column and were largely independent of depth between 100 and 400 m. Surface mixed layers tended to be deep in winter and shallower inshore of the upwelling front in spring. A connection between the equatorward-tending frontal jet off northern California and the more well-studied California Current further south is suggested by the similarity of their transports and of their dynamic height values.

Published

1991

7. Seasonal and nonseasonal variability of satellite-derived surface pigment concentration in the California Current

Author

Andrew C. Thomas, Corinne James, Mark R. Abbott, and P. Ted Strub

Subjects

Atmospheric Science, Ecology, Ocean current, Paleontology, Soil Science, Forestry, Aquatic Science, Oceanography, Coastal Zone Color Scanner, Geophysics, Space and Planetary Science, Geochemistry and Petrology, Error analysis, Climatology, Earth and Planetary Sciences (miscellaneous), Environmental science, Statistical analysis, Satellite imagery, West coast, Earth-Surface Processes, Water Science and Technology

Abstract

The large-scale patterns of satellite-derived surface pigment concentration off the west coast of North America are presented and are averaged into monthly mean surface wind fields over the California Current system (CCS) for the July 1979 to June 1986 period. The patterns are discussed in terms of both seasonal and nonseasonal variability for the indicated time period. The large-scale seasonal characteristics of the California Current are summarized. The data and methods used are described, and the problems known to affect the satellite-derived pigment concentrations and the wind data used in the study are discussed. The statistical analysis results are then presented and discussed in light of past observations and theory. Details of the CZCS data processing are described, and details of the principal estimator pattern methodology used here are given.

Published

1990

8. Atmospheric conditions during the spring and fall transitions in the coastal ocean off western United States

Author

P. Ted Strub and Corinne James

Subjects

Atmospheric Science, Soil Science, Wind stress, Aquatic Science, Oceanography, Pacific ocean, Geochemistry and Petrology, Spring (hydrology), Earth and Planetary Sciences (miscellaneous), West coast, Sea level, Earth-Surface Processes, Water Science and Technology, geography, geography.geographical_feature_category, Ecology, Atmospheric pressure, Mode (statistics), Paleontology, Forestry, Geophysics, Space and Planetary Science, Climatology, Spatial ecology, Geology

Abstract

Atmospheric events which force the spring and fall oceanic transitions in the coastal ocean off the west coast of North America were examined by analyzing the records of adjusted sea level (ASL), coastal wind stress, sea level atmospheric pressure (SLP), and 500-mbar heights for the years 1971-1975 and 1980-1983. The records cover periods of 91 days, centered on the dates of the spring and fall transitions as determined from coastal ASL data. It was found that the dominant mode of the ASL and coastal wind stress are similar around the times of both the spring and fall transitions, and that the time series for these modes are highly correlated with one another. Principal estimator patterns show the spatial patterns of SLP which force the ASL and coastal wind stress during the transitions.

Published

1988

9. Wind-driven surface transport in stratified closed basins: Direct versus residual circulations

Author

P. Ted Strub and Thomas M. Powell

Subjects

Atmospheric Science, geography, geography.geographical_feature_category, Ecology, Atmospheric models, Atmospheric circulation, Paleontology, Soil Science, Wind stress, Forestry, Aquatic Science, Structural basin, Vorticity, Oceanography, Geophysics, Space and Planetary Science, Geochemistry and Petrology, Anticyclone, Ocean gyre, Climatology, Earth and Planetary Sciences (miscellaneous), Surface layer, Geology, Earth-Surface Processes, Water Science and Technology

Abstract

The wind-driven circulation in a moderately large, stratified basin Lake Tahoe, California-Nevada, is studied using a numerical model. Direct circulations, in which the current directions remain relatively constant and the mean circulation formed over several days resembles the instantaneous circulation, and residual circulations, in which the currents fluctuate continuously and the mean circulation is characterized by small net displacements of parcels after large oscillations, are found. The lake's double gyre, dominated by the large anticyclonic northern gyre, differs from the single cyclonic gyre reported for other stratified basins, and examination of the modeled vorticity budget in the surface layer shows that the curl of the wind stress must be included to obtain the observed direct double gyre circulation.

Published

1986

10. Large-scale structure of the spring transition in the coastal ocean off western North America

Author

Robert L. Smith, P. Ted Strub, John S. Allen, and Adriana Huyer

Subjects

Atmospheric Science, Ecology, Ocean current, Paleontology, Soil Science, Wind stress, Forestry, Aquatic Science, Oceanography, Latitude, Geophysics, Shear (geology), Space and Planetary Science, Geochemistry and Petrology, Climatology, Barotropic fluid, Scale structure, Earth and Planetary Sciences (miscellaneous), Submarine pipeline, Sea level, Geology, Earth-Surface Processes, Water Science and Technology

Abstract

Past measurements off the coast of central Oregon and Washington have shown that the rapid change from northward monthly mean winter winds to southward summer winds forces a “spring transition” of the coastal ocean: sea levels and temperatures drop, and mean surface currents shift from northward to southward. Current and water temperature data from 35°N to 48°N from 1981 and 1982, and sea level and wind stress data from 1971–1975 and 1980–1983, show the transition to have a large alongshore scale, typically 500 to 2000 km; the large-scale wind stress appears to be the forcing mechanism at latitudes north of approximately 37°N. South of 37°N, sea level usually falls more gradually before the northern transition event. Both wind and sea level events generally progress from south to north over a 3- to 10-day period, but this is not always true. Several aspects of the spring transition reflect coastal trapped wave dynamics. Previous studies at 45°N found persistent vertical shear of the southward summer current, associated with a cross-shelf density gradient. During 1982 the shear and the density front develop over the shelf break immediately after the transition at 43°N and to the south, but they are much less persistent than at 48°N. The stronger winds between 38°N and 42°N and the narrower shelf result in an offshore displacement of the density front and vertical shear past the shelf break, leaving the water over the shelf less stratified and more subject to barotropic reversals of the current than that farther north, where the front stays closer to the coast.

Published

1987