Luis Chasqui-Velasco scite author profile

Luis Chasqui-Velasco

2Publications

1Citation Statement Received

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Affiliations

José Benito Vives de Andréis Marine and Coastal Research Institute

Publications

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Efecto de la herbivoría y coralivoría por peces en la supervivencia de corales trasplantados en el Caribe colombiano

Chasqui-Velasco¹,

Alvarado²,

Acero³

et al. 2007

RBT

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Effect of herbivorous and corallivorous fishes on the survival of transplanted corals in the Colombian Caribbean. To examine the effects of herbivorous and corallivorous fishes on the survival of transplanted colonies of Montastraea annularis, Diploria labyrinthiformis and Porites astreoides, both transplanted and native colonies were full-cage enclosed and compared to open (uncaged) colonies, while caging effects were assessed with a partial-cage (roof treatment). To evaluate if transplant stress increased the corals availability to fish predation, comparisons of fish foraging intensity among transplanted versus native colonies were made. To determine the density of herbivorous and corallivorous fishes on the transplants area visual censuses were made. The transient herbivorous fishes (Scaridae and Acanthuridae) were the most abundant fishes, and the corallivorous fishes (mainly Chaetodontidae) were the scarcest. A negative effect of territorial herbivorous fishes on M. annularis transplants survival was observed, mainly early on the study. Fish foraging intensity was similar on transplanted and native colonies, but differed among coral species, being lowest on D. labyrinthiformis. Fast macroalgal growth inside full-cages due to reduced fish grazing was observed. This caused partial bleaching and partial mortality in some colonies, mainly of P. astreoides. No significant difference in healthy tissue percentages among full-cage and uncaged colonies on M. annularis and D. labyrinthiformis was found, while in P. astreoides there were evident differences. The results indicate a damselfish negative effect on transplants survival early on the study, which can change depending on the fish and coral species involved. Results also indicate a fish grazing positive effect, caused by the reduction of coral-algae competition pressure, mainly on P. astreoides. Parrotfishes seem to affect corals survival both negatively through direct biting, and positively by controlling algal growth. Overall, coral transplant success was almost unaffected by fish foraging activity although several differences among coral species were obvious in relation to colony shape. Additionally, the interaction among herbivorous fish grazing and coral-algae competition balance appear important in determining transplant survival. Rev. Biol.

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Amplificación Cruzada De Microsatélites Para Estudios Poblacionales De Dos Especies De Camarón Del Género Litopenaeus en Colombia

Fresneda-Rodríguez

Chasqui-Velasco

Alonso-Carvajal

et al. 2016

BIM

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Microsatellites are molecular markers frequently used in population genetic studies despite of the high cost, and long time involved in developing them, mainly due to their high specificity. One method to save money and time is cross-amplification, which is the DNA amplification of the target species using primers developed for a different species. By using cross-amplification, the suitability of 15 developed microsatellite loci from Litopenaeus setiferus and L. vannamei to amplify microsatellite regions of L. schmitti and L. occidentalis was evaluated. Five primers showed consistent amplification and were polymorphic in L. schmitti and four in L. occidentalis. These results point out the usefulness of cross-amplification with these primers for population genetics studies of both species.

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