920
scale of horizontal variability of phytoplankton photosynthetic activity. In
some cases changes of 17 up to 4 times were observed at the distance of 5 km
(Fig.4). This and other relevant results (e.g. Kolber et al., 1990) on spatial
variability of photosynthesis efficiency clearly indicate that actual range of
variations even at local scale can be much higher than it is usually supposed
relying on low-resolution conventional measurements (e.g. Platt et al., 1991).
6.2. Lidar mapping in the North-Western Atlantic
During first field applications of pump-and-probe lidar technique in the
North-Western Atlantic (1990) we obtained a valuable information about both
character and scales of horizontal variability of phytoplankton photosynthesis
efficiency and Chl-a (Chekalyuk and Gorbunov, 1992; Gorbunov and Chekalyuk,
1993) distributions. The pattern of horizontal distribution of photosynthesis
efficiency rj in the examined area of synoptic scale (see Fig.5a) was
reconstructed relying on night measurements to avoid quenching influence of
solar illumination on variable Chl-a fluorescence. It was found, that due to
complex hydrobiological situation in the area the values of A4>/$m indicated
variations in a wide range: from 0.2 (low activity, 30% reaction centers of PS
II were active) to 0.65 (high activity, about 95% of RCs were active).
Figure 5. Distributions of the Efficiency of Photosynthesis
17 = M>/4>m (a), and Chlorophyll-a Concentration (b).
The North-Western Atlantic, May 1990.
The positions of many mesoscale features of rj distribution (Fig.5a)
indicated high spatial correlation with locations of hydrological structures
in the area (Chekalyuk and Gorbunov, 1992). General explanation of the
observed phenomena can be the enhancing phytoplankton photosynthetic activity
due to pumping nutrients into euphotic zone by vertical water streams
(Falkowski et al., 1991). Relying on 17 data, the correction of Chl-a
fluorescence measurements was performed (Gorbunov and Chekalyuk, 1993) taking
into account the regulation of Chl-a fluorescence by solar illumination in
nearsurface water layer. This approach allows to improve the accuracy of Chl-a
concentration estimates up to 2-3 times. The resulting distribution of Chl-a
concentration is presented in Fig.5b.
