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Fingas, M. and C. Brown, Review of oil spill remote sensing. Spill Science & Technology Bulletin, 19974(4): p. 199-208.Search in Google Scholar
Kallis, G. and D. Butler, The EU water framework directive: measures and implications. Water Policy, 20013(2): p. 125-142.Search in Google Scholar
Falkowski, P. and D.A. Kiefer, Chlorophyll a fluorescence in phytoplankton: relationship to photosynthesis and biomass. Journal of Plankton Research, 19857(5): p. 715.Search in Google Scholar
Bishnoi, S., et al., All-optical nanoscale pH meter. Nano Lett, 20066(8): p. 1687-1692.Search in Google Scholar
Bürck, J., J.P. Conzen, and H.J. Ache, A fiber optic evanescent field absorption sensor for monitoring organic contaminants in water. Fresenius’ journal of analytical chemistry, 1992342(4): p. 394-400.Search in Google Scholar
O’Connell, E., et al. Development of an inexpensive optical fiber based harmful algae bloom sensor. 2007: SPIE.Search in Google Scholar
Swinehart, D., The beer-lambert law. Journal of Chemical Education, 196239(7): p. 333.Search in Google Scholar
Weidner, V.R. and J.J. Hsia, Reflection properties of pressed polytetrafluoroethylene powder. JOSA, 198171(7): p. 856-861.Search in Google Scholar
Shafizadeh, N., et al., Spectral characterization in a supersonic beam of neutral chlorophyll a evaporated from spinach leaves. The Journal of Chemical Physics, 2011135: p. 114303.Search in Google Scholar
Han, X., et al. Extracting chlorophyll spectral characteristics by wavelet transformation. 2010: IEEE.Search in Google Scholar
Mackinney, G., Absorption of light by chlorophyll solutions. Journal of Biological Chemistry, 1941140(2): p. 315-322.Search in Google Scholar
Khalyfa, A., S. Kermasha, and I. Alli, Extraction, purification, and characterization of chlorophylls from spinach leaves. Journal of Agricultural and Food Chemistry, 199240(2): p. 215-220.Search in Google Scholar
