Densidad poblacional y estructura de talla del pepino de mar Holothuria (Halodeima) grisea (Aspidochirotida: Holothuriidae) en aguas someras del sur del golfo de Morrosquillo, Caribe Colombiano / Density population and size structure of the sea cucumber Holothuria (Halodeima) grisea (Aspidochirotida: Holothuriidae) in shallow waters south of the gulf of Morrosquillo, Colombian Caribbean

Resumen Holothuria grisea, a pesar de no ser considerado un recurso comercial, ha sido objeto de extracciones ilegales en Colombia, hecho que se vuelve más grave debido al vació de información biológica de estos organismos. Por esta razón, se estimó la densidad poblacional y estructura de talla de H. grisea en tres sectores del sur del golfo de Morrosquillo de abril a noviembre 2015. Para ello, se ubicaron mensualmente tres transectos circulares en cada sector de muestreo abarcando un área de 300 m2, donde se contabilizaron y midieron in situ los individuos encontrados. La densidad media de H. grisea en el área estudiada fue 0.4 ind m-2, presentándose los mayores valores en el sector La Ahumadera (1.09 ± 0.11 ind m-2) y los menores valores en el Banco de Arena (0.02 ± 0.004 ind m-2). El análisis de varianza señalo una diferencia significativa en los valores de densidad y talla de H. grisea en los sectores estudiados. La especie presentó una distribución de tallas unimodal, registrándose una talla promedio de 13.5 ± 0.91 cm con una talla mínima de 2.5 y una máxima de 30 cm, en general las tallas intermedias presentaron una mayor representatividad a lo largo de este estudio (77.2 %). Los aspectos biológicos presentados en este documento son de gran importancia para la conservación de esta especie y corresponde a un avance en el conocimiento de la clase Holothuroidea en el Caribe Colombiano.

Abstract Holothuria grisea, despite not being considered a commercial resource has been the subject of illegal extractions in Colombia, a fact that becomes more serious due to the empty of biological information of these organisms. For this reason the density population and size structure of H. grisea were evaluated in three sectors south of the gulf of Morrosquillo from April to November 2015. To this end, three circular transects were located each month in each sampling site covering an area of 300 m2, where individuals were counted and measured in situ. The average density of H. grisea in the study area was 0.4 ind m-2, with the highest values in the La Ahumadera (1.09 ± 0.11 ind m-2) and the lowest values in Banco de Arena (0.02 ± 0.004 ind m-2). The analysis of variance showed a significance in the values of density and size of H. grisea in the studied sectors. The species presented a unimodal distribution of sizes with an average size of 13.5 ± 0.9 cm with a minimum size of 2.5 and a maximum of 30 cm, intermediate sizes generally showed a higher representativeness throughout this study (77.2 %). The biological aspects presented in this paper are of great importance for the conservation of this species and corresponds to an advance in the knowledge of the Holothuroidea class in the Colombian Caribbean. Rev. Biol. Trop. 66(2): 776-787. Epub 2018 June 01.

The morphology of the digestive tract and respiratory organs of the holothurian Cladolabes schmeltzii (Holothuroidea, Dendrochirotida).

The microanatomy of the digestive and respiratory systems of the holothurian Cladolabes schmeltzii was studied. The digestive tube of C. schmeltzii is divided into seven parts. The pharynx, esophagus, and stomach are lined with cuticular immersed epithelium. In these regions, the epithelial cells are connected via desmosomes, septate junctions, and rivet-like structures. The presence of the cuticle and rivet-like structures suggests an ectodermal origin for these parts of the digestive tube. The luminal intestinal epithelium is formed by vesicular enterocytes, which have different structures in different intestinal regions. Moreover, the epithelium of the first descending part of the intestine contains the granular enterocytes. The respiratory system consists of paired respiratory trees lined by a luminal epithelium that is formed by cells of irregular shape. The apical surface of these epithelial cells has few lamellae. The cells are connected to each other through a system of intercellular junctions, consisting of both desmosomes and well-developed septate junctions. The coelomic epithelium of the intestine and the respiratory trees consists of peritoneal and myoepithelial cells.

A novel stiffening factor inducing the stiffest state of holothurian catch connective tissue.

The dermis of sea cucumbers is a catch connective tissue or mutable collagenous tissue that shows large changes in stiffness. Extensive studies on the dermis revealed that it can adopt three different states having different mechanical properties that can be reversibly converted. These are the stiff, standard and soft states. The standard state is readily produced when a dermal piece is immersed in the sea water containing Ca²+, whereas the soft state can be produced by removal of Ca²+. A stiffening protein, tensilin, has been isolated from some sea cucumbers (Cucumaria frondosa and Holothuria leucospilota). Although tensilin converts the state of the dermis from soft to standard, it cannot convert from standard to stiff. In this study, we isolated and partially purified a novel stiffening factor from the dermis of Holothuria leucospilota. The factor stiffened the dermis in normal artificial sea water (ASW) but did not stiffen the soft dermis in Ca²+-free ASW. It also stiffened the dermis that had been converted to the standard state in Ca²+-free ASW by the action of tensilin. These results suggest that the factor produces the stiff dermis from the standard state but cannot work as a stiffener on the soft dermis. Its addition to longitudinal muscles of the sea cucumber produced no effects, suggesting that its effect is specific to the catch connective tissue. Its stiffening activity was susceptible to trypsin, meaning that it is a polypeptide, and its molecular mass estimated from gel filtration chromatography was 2.4 kDa.