Geoscience Reference
In-Depth Information
Robinson, A.R. and Glenn, S.M. (1999). Adaptive sampling for ocean forecasting.
Nav.
Res. Rev
.,
51
, 26-38.
Rudnick, S.M., Chen, R.F., and Gardner, G.B. (1998). In situ, time-resolved fluorescence
measurements in Boston Harbor. In
Ocean Sciences '98
, San Diego, February 1998.
Saraceno, J.F., Pellerin, B.A., Downing, B.D., Boss, E., Bachand, P.A.M., and Bergamaschi,
B.A. (2009). High-frequency in situ optical measurements during a storm event:
Assessing relationships between dissolved organic matter, sediment concentrations,
and hydrologic processes.
J. Geophys. Res
.,
114
, doi:10.1029/2009JG000989.
Sivaprakasam, V., Shannon, R.F., Jr., Luo, C., Coble, P.G., Boehme, J.R., and Killinger,
D.K. (2003). Development and initial calibration of a portable laser-induced fluores-
cence system used for in situ measurements of trace plastics and dissolved organic
compounds in seawater and the Gulf of Mexico.
Appl. Optics
,
42
, 6747-6756.
Spitzer, D. and Dirks, R.W.J. (1985). Contamination of the reflectance of natural waters
by solar-induced fluorescence of dissolved organic matter.
Appl. Optics
,
24
(4),
444-445.
Stoertz, G. E., Hemphill, W.R., and Markle, D.A. (1969). Airborne fluorometer applicable
to marine and estuarine studies.
Mar. Technol. Sci. J
.,
3
, 11-26.
Tedetti, M., Guigue, C., and Goutx, M. (2010). Utilization of a submersible UV fluorome-
ter for monitoring anthropogenic inputs in the Mediterranean coastal water.
Mar. Poll.
Bull
.,
60
, 350-362.
Twardowski, M.S., Sullivan, J.M., Donaghay, P.L., and Zaneveld, J.R.V. (1999). Microscale
quantification of the absorption by dissolved and particulate material in coastal waters
with an ac-9.
J. Atmos. Ocean. Technol
.,
16
(12):691-707.
Twardowski, M.S., Lewis, M.R., Barnard, A.H., and Zaneveld, J.R.V. (2005). In-water
instrumentation and platforms for ocean color remote sensing applications. In: R.L.
Miller, C.E. Del Castillo, and B.A. McKee (Eds.),
Remote Sensing of Coastal Aquatic
Environments
, pp. 69-93. Dordrecht, the Netherlands: Springer Science+Business
Media.
Vodacek, A., Green, S.A., and Blough, N.V. (1994). An experimental model of the solar-
induced fluorescence of chromophoric dissolved organic matter.
Limnol. Oceanogr
.,
39
, 1-11.
Yuan, J., Dagg, M., and Del Castillo, C.E. (2005). In pixel variations of chl a fluorescence
in northern Gulf of Mexico and their implications for calibrating remotely sensed chl
a and other products.
Cont. Shelf Res
.,
25
(15), 1894-1904
Zhou, J., Tonizzo, A., Ioannou, I., Hlaing, S., Gilerson, A., Gross, B., Moshary, F., and
Ahmed, S. (2009). Evaluation of solar estimulated CDOM fluorescence and its impact
on the closure of remote sensing reflectance. In R.J. Frouin (Ed.),
Ocean Remote
Sensing Methods
. SPIE 7459, doi:10.1117/12.825374.
