期刊
JOURNAL OF EXPERIMENTAL MARINE BIOLOGY AND ECOLOGY
卷 252, 期 2, 页码 221-253出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/S0022-0981(00)00237-9
关键词
energy budget; heterotrophy; autotrophy; turbidity; sediment; diet theory; trophic plasticity; symbiotic cnidarian; scleractinian coral; Goniastrea; Porites
Suspended particulate matter (SPM) strongly alters the trophic environment of photosymbiotic aquatic organisms. At high particles loads, phototrophic energy gains can be diminished due to light absorption by suspended particles, and stress from particle abrasion or deposition on tissues. However, energy gains are enhanced if organisms are able to use SPM as a food source. For photosymbiotic benthic suspension feeders, increases in SPM concentrations may require both phototrophic and heterotrophic acclimation to sustain a positive energy balance. This study provides an experimental analysis of the effects of contrasting light and SPM regimes on the energy budget (scope for growth) of two zooxanthellate corals (Goniastrea retiformis and Porites cylindrica). Using a factorial design in a flow-through Lank system, corals were exposed fur 2 months to shaded and unshaded conditions (equivalent to 3-4 m depth at 4 and 16 mg dry weight SPM 1(-1), respectively) and a. range of controlled SPM loads with a natural organic content (similar to 3% w/w). In G. retiformis, rates of particle ingestion were a linear function of SPM concentration within a broad range (1-30 mg dry weight 1(-1)). After 2 months of shading, photosynthetic acclimation was significant in G. retiformis, but did not compensate for the reduced light level, as daily respiration exceeded daily photosynthesis. However, in response to the prolonged shading, G. retiformis more than doubled its: rate of particle feeding. At high SPM treatments (16 mg dw 1(-1)), sediment feeding by this species compensated fully for the 35-47% lower phototrophy in the shaded treatment. Due to both photo- and hc heterotrophic plasticity, G. retiformis gained tissue and skeletal mass at all experimental levels of light and SPM. in contrast, rates of particle intake by P. cylindrica contributed < 10% to the energy budget in shaded and < 3% in unshaded conditions. Feeding rates of P. cylindrica were half-saturated at similar to 3 mg dry weight 1(-1), and four- to eight-fold lower than those of G. retiformis. Skeletal growth was sustained, but tissue mass and lipid contents declined in shaded and high-SPM treatments, and carbon loss due to shading by SPM was not compensated for by particle feeding. Thus, due to a lack of photo- and heterotrophic plasticity, periods of high turbidity resulted in energy deficiency in P. cylindrica, and high turbidity conditions appeared physiologically unsustainable for this species. This study is the first to show heterotrophic plasticity in a symbiotic coral, and to show that such plasticity can offset stress from high particle loads. It demonstrates that changes in the trophic mode of some coral species are a mechanism for sustaining a positive energy balance in turbid environments, thereby broadening their physiological niche. (C) 2000 Elsevier Science B.V. All rights reserved.
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