4.1 Article

ONTOGENETIC SCALING OF SKELETAL COMPONENTS IN THE COMMON SEA URCHIN LYTECHINUS VARIEGATUS

Journal

JOURNAL OF SHELLFISH RESEARCH
Volume 40, Issue 2, Pages 325-338

Publisher

NATL SHELLFISHERIES ASSOC
DOI: 10.2983/035.040.0210

Keywords

Lytechinus variegatus; ontogeny; allometry; echinoid; skeletal defense; feeding efficiency

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Ontogenetic allometric analyses can provide new insights into aspects of evolution, ecology, and conservation. The study on Lytechinus variegatus found nonlinear and isometric scaling between body size and various metrics of skeletal spine defense during late juvenile to adult growth phase. Interestingly, most metrics of spine defense showed a nonsignificant, body-size-independent relationship, indicating heavy investment in spine defenses at an early age for L. variegatus. On the other hand, hyperallometric scaling described the relationship between body size and lantern size (feeding efficiency), highlighting the importance of increasing food intake with age.
Ontogenetic allometric analyses can provide novel insights into aspects of evolution, ecology, and conservation. The present study exploits a model sea urchin to evaluate the ontogenetic allometry of skeletal defense and feeding efficiency. Individuals of Lytechinus variegatus were sampled from St. Joseph Bay, FL, and a range of different-sized late juvenile to adult individuals were weighed, measured, and dissected into skeletal components. Skeletal defense was evaluated by examining whole-body wet mass versus primary spine density (number/cm(2)), length (mm), breakage strength (N), and magnesium calcite levels (%). Feeding efficiency was indirectly inferred from the relationship between whole-body wet mass versus whole lantern dry weight and magnesium calcite content. It was found that between the late juvenile to adult growth phase, L. variegatus displays nonlinear and isometric scaling between body size and various metrics of skeletal spine defense. Intriguingly, most metrics of spine defense against predators displayed a nonsignificant, body-size-independent relationship, indicating L. variegatus invests heavily in spine defenses at an early age. In contrast, hyperallometric scaling best described the relationship between body size and lantern size (feeding efficiency) reflecting the potential importance of elevating food intake with increasing age.

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