Ultraviolet Radiation – 27 REFERENCES CITED

Ultraviolet Radiation and Bio-optics in Crater Lake, Oregon, 2005



  • Ayoub, L. M., B. R. Hargreaves & D. P. Morris, 1996. UVR attenuation in lakes: Relative contribution of dissolved and particulate material. SPIE Ocean Optics XIII 2963: 338–343.

  • Bacon, C. R., J. V. Gardner, L. A. Mayer, M. W. Buktenica, P. Dartnell, D. W. Ramsey & J. E.

  • Robinson, 2002. Morphology, volcanism, and mass wasting in Crater Lake, Oregon. Geological Society of America Bulletin 114.6: 675–692.

  • Baker, K. S. & R.C. Smith, 1979. Quasi-inherent characteristics of the diffuse attenuation coefficient for irradiance. Ocean Optics VI, SPIE 208: 60–63.

  • Barnard, G. P., 1938. The spectral sensitivity of selenium rectifier photoelectric cells. Proceedings of the Physical Society 51: 222–236.

  • Belzile, C., W. F. Vincent & M. Kumagai, 2002. Contribution of absorption and scattering to the attenuation of UV and photosynthetically available radiation in Lake Biwa. Limnology and Oceanography 47: 95–107.

  • Biospherical Instruments, 1998. GUV data processing and quality control procedures, C. Version 13, October 1998. Biospherical Instruments, Inc., San Diego, California, USA.

  • Bishop, J. K. B., 1986. The correction and suspended particulate matter calibration of SeaTech transmissometer data. Deep-Sea Research 33: 121–134.

  • Boss, E. S., R. W. Collier, G. L. Larson, K. Fennel & W. S. Pegau, this issue. Measurements of spectral optical properties and their relation to biogeochemical variables and processes in Crater Lake, Crater Lake National Park, OR.

  • Bricaud, A., A. Morel & L. Prieur, 1981. Absorption by dissolved organic matter in the sea (yellow substance) in the UV and visible domains. Limnology and Oceanography 26: 43–53.

  • Buktenica, M. W. & G. L. Larson, 1996. Ecology of Kokanee salmon and rainbow trout in Crater Lake, Oregon, Journal of Lake and Reservoir Management 12: 298–310.

  • Coblentz, W. W. & R. Stair, 1936. The evaluation of ultra-violet solar radiation of short wavelengths. Proceedings of the National Academy of Science 22: 229–233.

  • Davies-Colley, R. J., 1988. Measuring water clarity with a black disk, Limnology and Oceanography 33: 616–623.

  • Dierssen, H. M. & R. C. Smith, 2000. Bio-optical properties and remote sensing ocean color algorithms for Antarctic Peninsula waters. Journal of Geophysical Research 105:26,301–26,312.

  • Diller, J. S., 1897. Crater Lake, Oregon. National Geographic Magazine 8: 33–48 (cited in Larson et al., 1996a)

  • Eisner, L. B., M. S. Twardowski, T. J. Cowles & M. J. Perry, 2003. Resolving phytoplankton photoprotective:photosynthetic carotenoid ratios on fine scales using in situ special absorption measurements. Limnology and Oceanography 48: 632–646.

  • Fennel, K. & E. Boss, 2003. Subsurface maxima of phytoplankton and chlorophyll: Steady-state solutions from a simple model. Limnology and Oceanography 48: 1521–1534.

  • Goldman, C. R., D. T. Mason & J. E. Hobbie, 1967. Two Antarctic desert lakes. Limnology and Oceanography 12: 295–310.

  • Gordon, H. R., 1989. Can the Lambert-Beer law be applied to the diffuse attenuation coefficient of ocean water? Limnology and Oceanography 34:1389–1409.

  • Gordon, H. R., 1999. Contribution of Raman scattering to water-leaving radiance: a reexamination. Applied Optics 38: 3166–3174.

  • Haltrin, V. I., G. W. Kattawar & A. D. Weidman, 1997. Modeling of elastic and inelastic scattering effects in oceanic optics. SPIE 2963: 597–602.