Abstract
The characteristics of light penetrance in Lake Kinneret, Israel, were observed over the years 1970 to 1973. Light measurements were made concurrently with those of algal speciation and biomass, chlorophyll α concentrations and primary production. Vertical extinction coefficients of ‘green’ light (filter VG9), the most penetrating spectral component, ranged from 0.15 (August 1970) to 0.93 In units m−1 (April 1970), reflecting the large differences between algal standing crops in non-bloom and bloom seasons. During the dinoflagellate bloom (Peridinium cinctum fa westii) from February through June, the increment of extinction coefficient per unit increase of chlorophyll α concentration was 0.006 ln units mg−1 m2. The uneven vertical distribution of algae at this period caused irregularities in the depth curves of light penetrance. At other times, when the phytoplankton cells were more homogeneously dispersed with depth, regular light penetrance curves were observed; however, as previously noted (Rodhe, 1972), attenuation of algal photosynthetic activity often appeared to be regulated by the blue spectral component (filter BG 12). Ratios of absorbed to scattered light in the upper water column ranged from 85:15 to 75:25.
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Berman, T. Light penetrance in lake kinneret. Hydrobiologia 49, 41–48 (1976). https://doi.org/10.1007/BF00016166
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DOI: https://doi.org/10.1007/BF00016166