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Author: Andrew S. Kowalski
Publisher:
ISBN:
Category : Ocean temperature
Languages : en
Pages : 136
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Book Description
Satellite technology represents the only technique for measuring sea surface temperatures (SSTs) on a global scale. SSTs are important as boundary conditions for climate and atmospheric boundary layer models which attempt to describe phenomena of all scales, ranging from local forecasts to predictions of global warming. Historical use of infrared satellite measurements for SST determination has been based on a theory which assumes that the atmosphere is 'thin', i.e., that atmospheric absorption of infrared radiation emitted from the sea surface has very little effect on the radiant intensity that is measured by satellites. However, a variety of independent radiative transfer models point to the possibility that the so-called 'thin approximation' is violated for humid atmospheres such as those found in the tropics, leading to errors in the retrieved SST that would be unacceptable to those who make use of such products. Furthermore, such tropical regions represent a significant portion of the globe, where coupled ocean-atmosphere disturbances can have global effects (e.g., the tropical Pacific El Nino-Southern Oscillation events). This study evaluates the thin approximation empirically, by combining radiative transfer theory and satellite data from the Eastern Atlantic ocean region studied during the Atlantic Statocumulus Transition Experiment (ASTEX). Six months of satellite data from May, June, and July of 1983 and 1984 are analyzed. To the degree that the data may be considered representative of globally valid relationships between measured variables, it is shown that the thin approximation is not appropriate for the tropics. This suggests that new methods are necessary for retrieving SSTs from the more humid regions of the globe.
Author: Andrew S. Kowalski
Publisher:
ISBN:
Category : Ocean temperature
Languages : en
Pages : 136
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Book Description
Satellite technology represents the only technique for measuring sea surface temperatures (SSTs) on a global scale. SSTs are important as boundary conditions for climate and atmospheric boundary layer models which attempt to describe phenomena of all scales, ranging from local forecasts to predictions of global warming. Historical use of infrared satellite measurements for SST determination has been based on a theory which assumes that the atmosphere is 'thin', i.e., that atmospheric absorption of infrared radiation emitted from the sea surface has very little effect on the radiant intensity that is measured by satellites. However, a variety of independent radiative transfer models point to the possibility that the so-called 'thin approximation' is violated for humid atmospheres such as those found in the tropics, leading to errors in the retrieved SST that would be unacceptable to those who make use of such products. Furthermore, such tropical regions represent a significant portion of the globe, where coupled ocean-atmosphere disturbances can have global effects (e.g., the tropical Pacific El Nino-Southern Oscillation events). This study evaluates the thin approximation empirically, by combining radiative transfer theory and satellite data from the Eastern Atlantic ocean region studied during the Atlantic Statocumulus Transition Experiment (ASTEX). Six months of satellite data from May, June, and July of 1983 and 1984 are analyzed. To the degree that the data may be considered representative of globally valid relationships between measured variables, it is shown that the thin approximation is not appropriate for the tropics. This suggests that new methods are necessary for retrieving SSTs from the more humid regions of the globe.
Author: Vitor Martinho F. Pereira e Silva
Publisher:
ISBN:
Category : Artificial satellites in geographical research
Languages : en
Pages : 138
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Book Description
Satellite infrared imagery off the California coast, near Pt. Sur, show thermal patterns associated with an upwelling center; the patterns frequently curl cyclonically when interacting with the warmer California Current. This pattern shows sharp thermal fronts, easily identified in satellite IR images, that are strongly correlated with nutrient fronts during the early stages of upwelling. With sea truth data available, it was feasible to calibrate satellite derived sea surface temperature, by applying radiative transfer theory, and to infer nutrient concentrations from their linear inverse correlations with temperature. Thus, it was possible to calibrate satellite thermal fields to produce maps of nutrient distributions. When the inferred relationships were applied over representative regions of the upwelling center, standard deviations of 0.5C, 1.7 microns and 0.1 microns were computed for temperature, nitrate and phosphate, respectively. (Author).
Author: Charles Braun
Publisher:
ISBN:
Category : Ocean temperature
Languages : en
Pages : 28
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Book Description
Author: James R. Greaves
Publisher:
ISBN:
Category : Infrared radiation
Languages : en
Pages : 60
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Book Description
Author: Lewis J. Allison
Publisher:
ISBN:
Category : Ocean temperature
Languages : en
Pages : 36
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Book Description
Author: Laurence Breaker
Publisher:
ISBN:
Category : Astronautics in oceanography
Languages : en
Pages : 36
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Book Description
Author: Ian S. Robinson
Publisher: Springer Science & Business Media
ISBN: 9783540426479
Category : Science
Languages : en
Pages : 752
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Book Description
This book covers the fundamental principles of measuring oceans from space, and also contains state-of-the-art developments in data analysis and interpretation and in sensors. Completely new will be material covering advances in oceanography that have grown out of remote sensing, including some of the global applications of the data. The variety of applications of remotely sensed data to ocean science has grown significantly and new areas of science are emerging to exploit the gobal datasets being recovered by satellites, particularly in relation to climate and climate change, basin-scale, air-sea interaction processes (e.g. El Nino) and the modelling, forecasting and prediction of the ocean.
Author: Jeffrey D. Hawkins
Publisher:
ISBN:
Category :
Languages : en
Pages : 44
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Book Description
The Navy's global operational domain and system performance criteria place strict requirements on specifying sea surface temperatures (SST) and ocean thermal structure on many space and time scales. As in situ observations of the ocean's temperature field are sparse and are often inaccurate, the Navy and other oceanographers have increasingly relied on remotely sensed data to fill gaps. Infrared imagery from polar orbiting and geostationary satellites was first used from qualitative standpoint to locate strong ocean frontal areas. Over the last 5 years, the Navy has included quantitative satellite measurements as an integral part of their SST data base. These multichannel sea surface temperatures (MCSST), 50,000-100,000 per day, far outweigh the spatial and temporal coverage of all in situ reports combined. The MCSST data provide the Expanded Ocean Thermal Structure analysis with highly accurate reports that span the globe. This study reveals that MCSST data significantly add to the mesoscale fronts and eddies mapping effort by tightening up strong frontal gradients and reducing the impact of noisy ship data. Higher resolution analyses are also seen to greatly aid in correctly delineating sharp ocean mesoscale features, as well as take advantages of the MCSST's 8 km by 8 km resolution.
Author: Günter Warnecke
Publisher:
ISBN:
Category : Astronautics in oceanography
Languages : en
Pages : 56
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Book Description
Author: Stanley Q. Kidder
Publisher: Elsevier
ISBN: 0080572006
Category : Science
Languages : en
Pages : 481
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Book Description
At last, a book that has what every atmospheric science and meteorology student should know about satellite meteorology: the orbits of satellites, the instruments they carry, the radiation they detect, and, most importantly, the fundamental atmospheric data that can be retrieved from their observations. Key Features * Of special interest are sections on: * Remote sensing of atmospheric temperature, trace gases, winds, cloud and aerosol data, precipitation, and radiation budget * Satellite image interpretation * Satellite orbits and navigation * Radiative transfer fundamentals
