Estimation of colored dissolved organic matter and salinity fields in case 2 waters using Sea WiFS: Examples from Florida Bay and Florida Shelf

被引：46

作者：

D'Sa E.J. ^{[2
]}

Hu C. ^{[1
]}

Muller-Karger F.E. ^{[1
]}

Carder K.L. ^{[1
]}

机构：

[1] College of Marine Science, University of South Florida, St. Petersburg, FL

[2] GB Tech., NASA Earth Science Applications Directorate, Stennis Space Center

来源：

Journal of Earth System Science | 2002年 / 111卷 / 3期

基金：

美国国家航空航天局;

关键词：

Atmospheric correction; CDOM; Chlorophyll a; Remote sensing; Salinity; Sea WiFS;

D O I：

10.1007/BF02701966

中图分类号：

学科分类号：

摘要：

Estimates of water quality variables such as chlorophyll a concentration (Chl), colored dissolved organic matter (CDOM), or salinity from satellite sensors are of great interest to resource managers monitoring coastal regions such as the Florida Bay and the Florida Shelf. However, accurate estimates of these variables using standard ocean color algorithms have been difficult due to the complex nature of the light field in these environments. In this study, we process Sea WiFS satellite data using two recently developed algorithms; one for atmospheric correction and the other a semi-analytic bio-optical algorithm and compare the results with standard SeaWiFS algorithms. Overall, the two algorithms produced more realistic estimates of Chl and CDOM distributions in Florida Shelf and Bay waters. Estimates of surface salinity were obtained from the CDOM absorption field assuming a conservative mixing behavior of these waters. A comparison of SeaWiFS-derived Chl and CDOM absorption with field measurements in the Florida Bay indicated that although well correlated, CDOM was underestimated, while Chl was overestimated. Bottom reflectance appeared to affect these estimates at the shallow central Bay stations during the winter. These results demonstrate the need for new bio-optical algorithms or tuning of the parameters used in the bio-optical algorithm for local conditions encountered in the Bay.

引用

页码：197 / 207

页数：10

共 30 条

[1]

Arnone R.A., Martinolich P., Gould R.W. Jr., Stumpf R., Ladner S., Coastal optical properties using SeaWiFS, Ocean Optics XIV, (1998)

[2]

Blough N.V., Zafiriou O.C., Bonilla J., Optical absorption spectra of waters from the Orinoco river outflow: Terrestrial input of colored organic matter to the Caribbean, J. Geophys. Res, 98, pp. 2271-2278, (1993)

[3]

Boyer J.N., Fourqurean J.W., Jones R.D., Seasonal and long-term trends in the water quality of Florida Bay (1989-1997), Estuaries, 22, pp. 417-430, (1999)

[4]

Carder K.L., Hawes S.K., Baker K.A., Smith R.C., Steward R.G., Mitchell B.G., Reflectance model for quantifying chlorophyll a in the presence of productivity degradation products, J. Geophys. Res, 96, pp. 20599-20611, (1991)

[5]

Carder K.L., Chen F.R., Lee Z.P., Hawes S.K., Kamykowski D., Semianalytic moderate-resolution imaging spectrometer algorithms for chlorophyll a and absorption with bio-optical domains based on nitrate depletion temperatures, J. Geophys. Res, 104, pp. 5403-5421, (1999)

[6]

D'Sa E.J., Steward R.G., Vodacek A., Blough N.V., Phinney D., Determining optical absorption of colored dissolved organic matter in seawater with a liquid capillary waveguide, Limnol. Oceanogr, 44, pp. 1142-1148, (1999)

[7]

D'Sa E.J., Zaitzeff J.B., Steward R.G., Monitoring water quality in Florida Bay with remotely sensed salinity and in situ bio-optical observations, Int. J. Remote Sens, 21, pp. 811-816, (2000)

[8]

D'Sa E.J., Zaitzeff J.B., Yentsch C.S., Miller J.L., Ives R., Rapid remote assessments of salinity and ocean color in Florida Bay, The Everglades, Florida Bay, and Coral Reefs of the Florida Keys: An Ecosystem Sourcebook, (2002)

[9]

Ding K., Gordon H.R., Analysis of the influence of O<sub>2</sub> A-band absorption on atmospheric correction of ocean-color imagery, Appl. Opt, 34, pp. 2068-2080, (1995)

[10]

Fourqurean J.W., Robblee M.B., Florida Bay: A history of recent ecological changes, Estuaries, 22, pp. 345-357, (1999)

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