Ferris Webster scite author profile

[1] We present estimates of whitecap coverage on a global scale from satellite-measured brightness temperature of the ocean surface. This is a first step in a larger framework aiming at more realistic modeling of the high variability of whitecap coverage as a function of wind speed and a suite of additional environmental and meteorological factors. The involvement of oceanic whitecaps in various physical and chemical processes important for climate studies such as production of sea-salt aerosols, enhancement of airsea gas exchange, and influence on retrievals of ocean surface wind and ocean color motivates this effort. A critical review of the physical variables causing the high variability of whitecap coverage and existing approaches modeling this variability establishes the need for a database of whitecap coverage and concomitant measurements of additional factors. The necessity to build such an extensive database justifies the quest for a method estimating whitecap coverage from satellite data. We describe the physical concept, a possible implementation, error analysis, results, and evaluation of a method for estimating whitecap coverage from routine satellite measurements. The advantages of the concept and the drawbacks and necessary improvements of the implementation are discussed.

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Global water data: A newly endangered species

Vörösmarty

et al. 2001

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Water science finds itself at an interesting and critical crossroads. Sophisticated atmospheric modeling, remote sensing, and Internet‐based exchange of data enable exciting new synergies to develop among scientists, policy‐makers, and the private sector. Paradoxically we find it evermore difficult to validate products from these high‐technology tools and to exploit their full potential due to a severe and sustained decline in available hydrologic data sets.

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Observations of inertial‐period motions in the deep sea

Webster¹

1968

Reviews of Geophysics

140

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Inertial‐period oscillations have been observed by numerous investigators at deep‐sea locations ranging from subtropical to polar latitudes. Although observational techniques have favored surface‐layer measurement, there is evidence for the existence of inertial motions at all depths. There is, however, no strong evidence that the amplitude of inertial motions is strongest near the surface. The character of inertial motions has been described more fully by recent observations with moored current meters. Inertial motions have a transient nature, with generation and decay times of a few days. An analysis of the data from a single simple experiment shows that the inertial motions are coherent horizontally over much greater scales than they are coherent vertically. Thus the picture that emerges is one of transient phenomena, of thin vertical extent, and of apparent possible occurrence anywhere in the oceans.

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Demersal fish community diversity off New Zealand: Is it related to depth, latitude and regional surface phytoplankton?

McClatchie

Millar

Webster

et al. 1997

Deep Sea Research Part I: Oceanographic Research Papers

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A description of gulf stream meanders off Onslow Bay

Webster¹

1961

Deep Sea Research (1953)

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Ferris Webster

Whitecap coverage from satellite measurements: A first step toward modeling the variability of oceanic whitecaps

Global water data: A newly endangered species

Observations of inertial‐period motions in the deep sea

Demersal fish community diversity off New Zealand: Is it related to depth, latitude and regional surface phytoplankton?

A description of gulf stream meanders off Onslow Bay

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