Abstract
On a series of eight cruises conducted in the northern Gulf of Mexico, efforts were made to characterize temporal and spatial variability in parameters of the photosynthesis-irradiance saturation curve (P:,.,., a 8 , I.) and to relate the observed variations to environmental conditions. Experiments to examine the importance of diel variation in upper mixed layer populations were conducted in July-August 1990 and March 1991. During July-August 1990, p:,_ and 1. showed significant increases and a 8 decreased during the photoperiod in both river plume and shelf-slope populations. During March 1991, no consistent covariance of P-1 parameters with local time was found, although highest values of a 8 in the river plume were observed in early morning. Seasonal variation in pa ~ and a 8 were correlated with temperature. Spatial variations of photosynthetic parameters in the upper mixed layer ranged from twofold to threefold within any given cruise. Variations of photosynthetic parameters in the upper mixed layer were related to principal components derived from environmental variables, including temperature, salinity, nutrients, mixed layer depth, attenuation coeffi cient, and daily photosynthetically available radiation (PAR). Greater than 70% of the variation in the environmental variables could be accounted for by two principal components; the majority of this variation was associated with the first principal component, which was generally strongly correlated with salinity, nutrients, mixed layer depth, and attenuation coefficient. Correlations of P:..,., a 8 , and Iwith the first principal component were found to be significant in some cases, an indication that spatial variability in P-1 parameters was related to river outflow. Variation of P-1 parameters in relation to depth and PAR were evaluated by regressions with principal components derived from depth, temperature, . mean daily PAR. For most cruises, p:,_ and Iwere negatively correlated with the first principal component, which was strongly positively correlated with depth and negatively correlated with daily PAR. This was consistent with a decreaSe in both p:,_ and I. with depth that could be related to decreasing daily PAR. Positive correlations of a 8 with the first principal component for two cruises, March 1991 and April 1992, indicated an increasing trend with depth. In conclusion, rela tionships between P-1 parameters and environmental variables in the region of study were significant in some cases, but variation between cruises made it difficult to generalize. We attributed this variation to the physically dynamic charac teristics of the region and the possible effects of variables that were not included in the analysis such as species com position. Our findings do support the view that a limited set of observations may be adequate to characterize P-1 parameter distributions in a given region within a restricted period of time.
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