POPULATION PARAMETERS AND PHOTOSYNTHETIC CAPABILITIES OF CORALLINE RHODOLITHS: BIOGEOGRAPHIC IMPLICATIONS |
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Authors: | Steller,D. L.,Cabello-Pasini,A.,& Riosmena-Rodriguez,R. |
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Affiliation: | Biology Department, University of California-Santa Cruz, Santa Cruz, CA 95064 USA;;Instituto de Investigaciones Oceanológicas, Universidad Autónoma de Baja California, A.P. 453, Ensenada, Baja California 22800, Mexico;;Dept. Biología Marina, Universidad Autónoma de Baja California Sur, A.P. 19B, La Paz, Baja California Sur, Mexico |
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Abstract: | Rhodoliths are bed forming, unattached coralline algae that incorporate large quantities of carbonate into their thalli in oceans worldwide. Lithophyllum margaritae and Neogoniolithon tricotomun are common Rhodoliths from the Gulf of California, however, little is known about their biogeographic distribution, and their ecological and physiological characteristics. As a consequence, the objective of this study was to define the temporal population dynamics, growth rates and photosynthetic capabilities of L. margaritae and N. tricotomun from the Gulf of California. The Gulf of California is characterized by annual temperature fluctuations that can exceed 20° C. Rhodolith beds exceeding one km in length were observed from the intertidal zone to a depth of approximately 20 m at the southern Gulf. Percent cover estimates for spherical unattached individuals of L. margaritae and N. tricotomun ranged from 10 to 100%. Growth rates were determined by staining the rhodoliths with Alizarine red and evaluating the linear increment of calcium carbonate after an incubation period in the field. Annual growth rates averaged 1.8 mm year−1 in L. margaritae and 3.4 mm year−1 in N. tricotomun , however, growth rates varied seasonally. The photosynthetic response of both species as a function of temperature was evaluated in the laboratory from 10° to 30° C. Maximum net photosynthetic rates peaked at approximately 25 to 30° C in both species, suggesting that maximum growth rates occur during the warmest months of the year. These results lead to a better understanding of the biogeographic ranges of subtidal coralline algae. |
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