Open Access
Issue |
J. Eur. Opt. Soc.-Rapid Publ.
Volume 9, 2014
|
|
---|---|---|
Article Number | 14020 | |
Number of page(s) | 6 | |
DOI | https://doi.org/10.2971/jeos.2014.14020 | |
Published online | 01 June 2014 |
- T. H. Badewien, E. Zimmer, A. Bartholomä, and R. Reuter, “Towards continuous long-term measurements of suspended particulate matter (SPM) turbid coastal waters,” Ocean Dynam. 59, 227–238 (2009). [NASA ADS] [CrossRef] [Google Scholar]
- S. P. Garaba, and O. Zielinski, “Comparison of remote sensing reflectance from above-water and in-water measurements west of Greenland, Labrador Sea, Denmark Strait, and west of Iceland,” Opt. Express 21, 15938–15950 (2013). [NASA ADS] [CrossRef] [Google Scholar]
- C. Moore, A. Barnard, P. Fietzek, M. R. Lewis, H. M. Sosik, S. White, and O. Zielinski, “Optical tools for ocean monitoring and research,” Ocean Sci. 5, 661–684 (2009). [NASA ADS] [CrossRef] [Google Scholar]
- K. S. Baker, and R. C. Smith, “Bio-optical classification and model of natural waters. 2,” Limnol. Oceanogr. 27, 500–509 (1982). [CrossRef] [Google Scholar]
- R. Doerffer, F. Colijn, and J. Van Beusekom, Observing the Coastal Sea - an Atlas of Advanced Monitoring Techniques (LOICZ Reports & Studies 33, 2008). [Google Scholar]
- F. Gohin, “Annual cycles of chlorophyll-a, non-algal suspended particulate matter, and turbidity observed from space and in-situ coastal waters,” Ocean Sci. 7, 705–732 (2011). [NASA ADS] [CrossRef] [Google Scholar]
- Z. P Lee, Remote Sensing of Inherent Optical Properties: Fundamentals, Tests of Algorithms, and Applications (Internationla Ocean-Colour Coordinating Group 5 (IOCCG 5), 2006). [Google Scholar]
- Y. Liu, M. A. Islam, and J. Gao, “Quantification of shallow water quality parameters by means of remote sensing,” Prog. Phys. Geog. 27, 24–43 (2003). [NASA ADS] [CrossRef] [Google Scholar]
- M. R. Wernand, Poseidons paintbox : historical archives of ocean colour in global-change perspective (PhD Thesis, Utrecht University, 2011). [Google Scholar]
- M. R. Wernand, H. J. van der Woerd, and W. W. C. Gieskes, “Trends in ocean colour and chlorophyll concentration from 1889 to 2000, worldwide,” PLoS One 8, e63766 (2013). [Google Scholar]
- J. E. Cloern, “Turbidity as a control on phytoplankton biomass and productivity in estuaries,” Cont. Shelf Res. 7, 1367–1381 (1987). [NASA ADS] [CrossRef] [Google Scholar]
- R. J. Davies-Colley, and D. G. Smith, “Turbidity, suspended sediment, and water clarity: a review,” J. Am. Water Resour. As. 37, 1085–1101 (2001). [NASA ADS] [CrossRef] [Google Scholar]
- G. K. Moore, “Satellite remote sensing of water turbidity / Sonde de télémesure par satellite de la turbidité de l’eau,” Hydrolog. Sci. Bulletin 25, 407–421 (1980). [CrossRef] [Google Scholar]
- S. P. Garaba, and O. Zielinski, “Methods in reducing surface reflected glint for shipborne above-water remote sensing,” J. Europ. Opt. Soc. Rap. Public 8, 13058 (2013). [NASA ADS] [CrossRef] [Google Scholar]
- F. N. Güttler, S. Niculescu, and F. Gohin, “Turbidity retrieval and monitoring of Danube Delta waters using multi-sensor optical remote sensing data: An integrated view from the delta plain lakes to the western-northwestern Black Sea coastal zone,” Remote Sens. Environ. 132, 86–101 (2013). [CrossRef] [Google Scholar]
- M. J. Moreno-Madrinan, M. Z. Al-Hamdan, D. L. Rickman, and F. E Muller-Karger, “Using the Surface Reflectance MODIS Terra Product to Estimate Turbidity in Tampa Bay, Florida,” Remote Sens. 2, 2713–2728 (2010). [NASA ADS] [CrossRef] [Google Scholar]
- B. Nechad, K. G. Ruddick, and G. Neukermans, “Calibration and validation of a generic multisensor algorithm for mapping of turbidity in coastal waters, in Bostater,” in Proceedings of SPIE Volume: 7473 -Remote Sensing of the Ocean, Sea Ice, and Large Water Regions, 502–507 (SPIE, Berlin, 2009) [Google Scholar]
- H. M. Dierssen, R. M. Kudela, J. P. Ryan, and R. C. Zimmerman, “Red and black tides: Quantitative analysis of water-leaving radiance and perceived color for phytoplankton, colored dissolved organic matter, and suspended sediments,” Limnol. Oceanogr. 51, 2646–2659 (2006). [NASA ADS] [CrossRef] [Google Scholar]
- S. B. Hooker, G. Lazin, G. Zibordi, and S. McLean, “An evaluation of above- and in-water methods for determining water-leaving radiances,” J. Atmos. Ocean. Tech. 19, 486–515 (2002). [NASA ADS] [CrossRef] [Google Scholar]
- S. P. Garaba, J. Schulz, M. R. Wernand, and O. Zielinski, “Sunglint detection for unmanned and automated platforms,” Sensors 12, 12545–12561 (2012). [NASA ADS] [CrossRef] [Google Scholar]
- G. Neukermans, K. G. Ruddick, and N. Greenwood, “Diurnal variability of turbidity and light attenuation in the southern North Sea from the SEVIRI geostationary sensor,” Remote Sens. Environ. 124, 564–580 (2012). [NASA ADS] [CrossRef] [Google Scholar]
- C. J. M. Philippart, M. S. Salama, J. C. Kromkamp, H. J. van der Woerd, A. F. Zuur, and G. C. Cadée, “Four decades of variability in turbidity in the western Wadden Sea as derived from corrected Secchi disk readings,” J. Sea. Res. 82, 67–79 (2013). [NASA ADS] [CrossRef] [Google Scholar]
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