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COMPETITIVE INTERACTIONS BETWEEN THE OPPORTUNISTIC MACROALGAE CLADOPHORA VAGABUNDA (CHLOROPHYTA) AND GRACILARIA TIKVAHIAE (RHODOPHYTA) UNDER EUTROPHIC CONDITIONS 1
Author(s) -
Peckol Paulette,
Rivers Jennifer S.
Publication year - 1995
Publication title -
journal of phycology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.85
H-Index - 127
eISSN - 1529-8817
pISSN - 0022-3646
DOI - 10.1111/j.0022-3646.1995.00229.x
Subject(s) - biology , cladophora , interspecific competition , chlorophyta , eutrophication , botany , algae , dominance (genetics) , bay , limiting , gracilaria , biomass (ecology) , ecology , nutrient , oceanography , mechanical engineering , biochemistry , gene , engineering , geology
In a eutrophic embayment (Waquoit Bay, Massachusetts ), Cladophora vagabunda ( L.) van den Hoek occurs in thick (sometimes > 1 kg dry wt ‐m −2 ), nearly monospecific unattached mats in deeper regions (2 m), whereas Grac‐ilaria tikvahiae McLachlan is largely restricted to shallow (<1 m) areas. We explored these distribution patterns, investigating competitive interactions between these opportunistic species by varying the limiting resource, photon flux density (PFD), and species composition under conditions of N sufficiency in microcosms. Under lower biomass loadings, neither species showed a difference in growth rates in single‐ and mixed‐species stands. With a 25% increase in initial biomass loading , Gracilaria tikvahiae had significantly higher growth rates under saturating PFD and consistently showed greater performance when grown in single‐species rather than in mixed‐species stands. While growth rate was 2 × greater for C. vagabunda in single‐species than in mixed‐species stands at saturating PFD, this pattern was reversed under limiting irradi‐ances. In mixed‐species stands at high PFD (comparable to shallow regions of the bay), the growth rate of G. tikvahiae was over 4 × higher than that of C . vagabunda. Cladophora vagabunda grew at a faster rate than G. tikvahiae only in the low PFD, mixed‐species treatment. Results of this study suggest that the observed distributional patterns of these macroalgae are due in part to interspecific exploitative competition but that tolerance of low PFD by C. vagabunda has led to dominance of these species in distinctive regions of the embayment .

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