Feeding habits of Holothuria (Stauropora) fuscocinerea (Echinodermata: Holothuroidea) in a Mexican Pacific reef / Hábitos alimenticios de Holothuria (Stauropora) fuscocinerea (Echinodermata: Holothuroidea) en un arrecife del Pacífico Mexicano

Introduction: The importance of holothuroids in marine ecosystems is related to their feeding activities, which have been little studied in the eastern Pacific. Objective: To describe the feeding habits of the sea cucumber Holothuria (Stauropora) fuscocinerea and their bioturbation potential in La Entrega reef, México. Methods: The population size of H. (Stauropora) fuscocinerea was determined by means of four 20 x 4 m (320 m2) band transects, while the available sediment for the sea cucumbers and their feces were characterized in three stations (A-C) via granulometry and quantification of organic carbon and organic matter. Excretion rate was determined every 4 hr over a 24 hr period and the relationship between sea cucumber length and biomass and the excretion rate evaluated. Results: According to non-parametric permutation, ordination and percentage similarity analyses, sea cucumber feces mostly comprised a large proportion of small grains compared to the available sediment, indicating that H. (Stauropora) fuscocinerea is selective on grain size. Preliminary bioturbation potential of the species may reach up to 8.71 ± 0.17 kg day of sediment in the study area. Conclusion: The spatial distribution of H. (Stauropora) fuscocinerea in the study area is a product of its selective feeding activity, evidencing the preliminary importance of the species in the trophic dynamics of La Entrega reef.

Introducción: La relevancia de los holoturoideos en los ecosistemas marinos está relacionada con sus actividades alimenticias, las cuales han sido escasamente estudiadas en el Pacífico oriental. Objetivo: Describir los hábitos alimenticios del pepino de mar Holothuria (Stauropora) fuscocinerea y su potencial de bioturbación en el arrecife La Entrega, México. Métodos: Se determinó el tamaño poblacional de H. (Stauropora) fuscocinerea mediante cuatro transectos de banda de 20 x 4 m (320 m2), mientras que la caracterización de los sedimentos disponibles y las heces de los pepinos se realizó en tres estaciones (A-C) mediante granulometría y cuantificación de carbono orgánico y materia orgánica. Se determinó la tasa de excreción cada 4 hr durante un periodo de 24 hr y se evaluó la relación entre la talla y la biomasa con la tasa de excreción. Resultados: De acuerdo con un análisis no paramétrico mediante permutaciones, ordenación y similitud, las heces de los pepinos estuvieron compuestas en su mayoría por una gran cantidad de granos pequeños en comparación con el sedimento disponible, lo que sugiere que H. (Stauropora) fuscocinerea es una especie selectiva respecto al tamaño de grano. El potencial de bioturbación preliminar de la especie puede alcanzar 8.71 ± 0.17 kg día en el área de estudio. Conclusiones: La distribución espacial de H. (Stauropora) fuscocinerea en el área de estudio es producto de su selectividad alimenticia, evidenciando la importancia de la especie en la dinámica trófica del arrecife La Entrega.

Estado poblacional del pepino de mar (Clase Holothuroidea) en el Caribe de Guatemala / Population status of Sea Cucumber (Class Holothuroidea) in the Caribbean of Guatemala

Los holoturoideos o pepinos de mar pertenecen al filo Echinodermata, e incluyen animales con cuerpo vermiforme alargado y blando que viven en los fondos de los mares de todo el mundo. Ecológicamente estos organismos son recicladores eficientes de sedimentos en el ambiente. En los últimos años han cobrado alto valor comercial en el mercado asiático, por lo que su pesquería se ha expandido hacia muchos países. En Guatemala se decretó una veda precautoria en el 2010 por cinco años, al terminar esta se extendió por dos años más, pero con el compromise de obtener información científica durante dicho período. Con este fin, se realizó una evaluación poblacional del pepino de mar a través de transectos lineales de 60 m2, en siete puntos de la bahía de Amatique y la zona expuesta del mar Caribe de Guatemala, durante abril, junio y septiembre del 2016. Se evaluaron 6,300 m2, encontrando un total de 64 individuos de pepinos de mar. La riqueza de holotúridos está representada por siete especies, siendo las más abundantes Isostichopus badionotus (Selenka, 1867) y Holothuria mexicana (Ludwig, 1875). Los sitios con mayor abundancia fueron Faro Rojo y King Fish (p = .004). En base a los resultados de esta evaluación se puede determinar que la explotación comercial de los pepinos de mar en el Caribe guatemalteco no es viable, y que para aprovechar el valor comercial de estas especies se podría impulsar la acuicultura y comercializarlo a través de un sistema eficiente de trazabilidad.

Holothurians or sea cucumbers belong to the filum Equinodermata, which includes animals with long soft vermiform bodies that live on the ocean bottom of the entire world. Ecologically these organisms are efficient recyclers of sediments in the environment. In recent years, they have gained high commercial value in the Asian market, so their fishery has expanded to many countries. In Guatemala, a precautionary ban was decreed in 2010 for five years, when it ended it was extended for two more years, but with the commitment to obtain scientific information during that period. For this purpose, a population assessment of sea cucumber was carried out through linear transects of 60 m2, in seven points of Amatique Bay and the exposed zone of the Caribbean Sea of Guatemala, during April, June and September of 2016. 6300 m2 were evaluated, founding 64 organisms. The holothurians richness is represented by seven species, being the most abundant Isostichopus badionotus (Selenka, 1867) and Holothuria mexicana (Ludwig, 1875). The most abundant sites were Faro Rojo and King Fish (p = .004). Based on the results of this evaluation, it can be determined that the commercial exploitation of sea cucumbers in the guatemalan Caribbean is not viable, and that to take advantage of the commercial value of these species, aquaculture could be promoted and marketed through an efficient traceability system.

Profiling bacterial communities associated with sediment-based aquaculture bioremediation systems under contrasting redox regimes.

Deposit-feeding invertebrates are proposed bioremediators in microbial-driven sediment-based aquaculture effluent treatment systems. We elucidate the role of the sediment reduction-oxidation (redox) regime in structuring benthic bacterial communities, having direct implications for bioremediation potential and deposit-feeder nutrition. The sea cucumber Holothuria scabra was cultured on sediments under contrasting redox regimes; fully oxygenated (oxic) and redox stratified (oxic-anoxic). Taxonomically, metabolically and functionally distinct bacterial communities developed between the redox treatments with the oxic treatment supporting the greater diversity; redox regime and dissolved oxygen levels were the main environmental drivers. Oxic sediments were colonised by nitrifying bacteria with the potential to remediate nitrogenous wastes. Percolation of oxygenated water prevented the proliferation of anaerobic sulphate-reducing bacteria, which were prevalent in the oxic-anoxic sediments. At the predictive functional level, bacteria within the oxic treatment were enriched with genes associated with xenobiotics metabolism. Oxic sediments showed the greater bioremediation potential; however, the oxic-anoxic sediments supported a greater sea cucumber biomass. Overall, the results indicate that bacterial communities present in fully oxic sediments may enhance the metabolic capacity and bioremediation potential of deposit-feeder microbial systems. This study highlights the benefits of incorporating deposit-feeding invertebrates into effluent treatment systems, particularly when the sediment is oxygenated.

Gametogenesis and weight change of body organs of the sea cucumber Holothuria (Halodeima) grisea (Aspidochirotida: Holothuriidae) in Southern Brazil / Aspectos reproductivos y la relación entre los órganos y la gametogénesis en Holothuria (Halodeima) grisea (Echinodermata: Holothuroidea)

Abstract The sea cucumber Holothuria (Halodeima) grisea is a widely distributed and economically important species that has been harvested in Brazil for several years, where there are no studies on its reproduction. We studied a population near Guaratuba Bay in Southern Brazil. Four sampling campaigns were made, in February, April, June and October 2008. We examined the macroscopic and microscopic features of the gonads to describe the gametogenesis. In addition, we analyzed the weight change of body organs. A total of 94 individuals were examined and no evidence of external sexual dimorphism was found. In April there were more males than females. Biometrically the body wall and gonads are the most important organs. The body wall increases in the June and the gonads during October and February; there might be an exchange of energy between these organs. Mature gonads are elongated and thick (red in females, cream in males). There were mature individuals year round, with an increase of sexual activity in February when oocyte mature diameter ranges from 70 to 160 µm. Spawning was in winter (June). Maturation period and body component variations were similar between sexes. Rev. Biol. Trop. 63 (Suppl. 2): 285-296. Epub 2015 June 01.

Resumen El pepino de mar Holothuria (Halodeima) grisea es una especie ampliamente distribuida y económicamente importante que se ha recolectado en Brasil desde hace varios años. No hay estudios previos realizados sobre la reproducción de esta especie en Brasil. Además, son aún poco conocidos los aspectos bio-ecológicos de esta especie. En este estudio, se investigaron algunos aspectos de la reproducción del pepino de mar Holothuria (Halodeima) grisea en una población cerca de la bahía de Guaratuba en el sur de Brasil. Se hicieron cuatro salidas de muestreo, en febrero, abril, junio y octubre de 2008, abarcando las cuatro estaciones. Examinamos las características macroscópicas y microscópicas de las gónadas para describir la gametogénesis, adicionalmente, se analizó el cambio de peso de cada componente de los órganos del cuerpo (pared corporal, gónadas, sistema haemal, tracto digestivo y árbol respiratorio). Se examinó un total de 94 individuos y no se encontraron evidencias de dimorfismo sexual externo. Los resultados del análisis estadístico de la prueba x² rechazan la hipótesis nula (H0) con una relación de sexos igual a 1, sin embargo, el análisis de cada mes, esta diferencia de género se observó sólo en el mes de abril, cuando el número de los males es mucho mayor que la de las hembras. Las medidas biométricas mostraron que la pared del cuerpo y las gónadas son los órganos más importantes, con aumentos de la pared corporal en el junio y de las gónadas durante octubre y febrero, que pueden indicar que hay un intercambio de energía entre estos órganos. Macroscópicamente, las gónadas maduras muestran túbulos largos, gruesos y ramificados siendo que las hembras presentan coloración rojiza e los machos tonos de crema. Sin embargo, durante el crecimiento y agotado, no se observaron diferencias morfológicas macroscópicas entre los sexos. Microscópicamente, se observó la presencia constante de individuos maduros entre meses, con un aumento de la actividad sexual en febrero, cuando los ovocitos maduros tuvieron un diámetro oscila entre 70 a 160 μ. El período de desove ocurrió en los meses de invierno (junio). El periodo de maduración y la variación del cuerpo de los componentes fueron similares entre los sexos. La similitud en las demandas metabólicas de la población podría estar confirmando una estrategia para maximizar la sincronía reproductiva.

Optimisation of mesh enclosures for nursery rearing of juvenile sea cucumbers.

Mariculture of tropical sea cucumbers is promising, but the nursery rearing of juveniles is a bottleneck for farming and sea ranching. We conducted four medium-scale experiments lasting 3-6 weeks, using thousands of cultured juvenile sandfish Holothuria scabra, to optimise nursery rearing in mesh enclosures in earthen seawater ponds and to test rearing in enclosures in the sea. In one experiment, survival in fine-mesh enclosures (1 m(3); 660-µm mesh) related nonlinearly to juvenile size, revealing a threshold body length of 5-8 mm for initial transfer from hatchery tanks. Survival in enclosures within ponds in the other experiments ranged from 78-97%, and differences in growth rates among experiments were explained largely by seasonal differences in seawater temperatures in ponds. Stripped shadecloth units within fine-mesh enclosures increased feeding surfaces and improved growth rates by >15%. On the other hand, shading over the enclosures may lower growth rates. Following the rearing in fine-mesh enclosures, small juveniles (0.5 to 1 g) were grown to stocking size (3-10 g) in coarse-mesh enclosures of 1-mm mesh. Sand or mud added to coarse-mesh enclosures did not significantly improve growth compared to controls without sediment. Survival of sandfish juveniles in coarse-mesh enclosures set on the benthos within seagrass beds differed between two sheltered bays and growth was slow compared to groups within the same type of enclosures in an earthen pond. Our findings should lead to significant improvement in the cost-effectiveness of rearing sandfish juveniles to a stocking size compared to established methods and highlight the need for further research into nursery systems in the sea.

Radial glial cells play a key role in echinoderm neural regeneration.

BACKGROUND: Unlike the mammalian central nervous system (CNS), the CNS of echinoderms is capable of fast and efficient regeneration following injury and constitutes one of the most promising model systems that can provide important insights into evolution of the cellular and molecular events involved in neural repair in deuterostomes. So far, the cellular mechanisms of neural regeneration in echinoderm remained obscure. In this study we show that radial glial cells are the main source of new cells in the regenerating radial nerve cord in these animals. RESULTS: We demonstrate that radial glial cells of the sea cucumber Holothuria glaberrima react to injury by dedifferentiation. Both glia and neurons undergo programmed cell death in the lesioned CNS, but it is the dedifferentiated glial subpopulation in the vicinity of the injury that accounts for the vast majority of cell divisions. Glial outgrowth leads to formation of a tubular scaffold at the growing tip, which is later populated by neural elements. Most importantly, radial glial cells themselves give rise to new neurons. At least some of the newly produced neurons survive for more than 4 months and express neuronal markers typical of the mature echinoderm CNS. CONCLUSIONS: A hypothesis is formulated that CNS regeneration via activation of radial glial cells may represent a common capacity of the Deuterostomia, which is not invoked spontaneously in higher vertebrates, whose adult CNS does not retain radial glial cells. Potential implications for biomedical research aimed at finding the cure for human CNS injuries are discussed.

Antischistosomal effect of holothurin extracted from some Egyptian sea cucumbers.

CONTEXT: Holothuria polii (H. polii) Linnaeus (Holothuriidae), Actinopyga mauritiana (A. mauritiana) Quoy & Gaimard (Holothuriidae) and Bohadschia vitiensis (B. vitiensis) Semper (Holothuriidae) are sea cucumbers inhabiting the coasts of Egypt. Their tegument and the cuvierian gland contained a substance called holothurin that was used in traditional medicine. These three species are abundant in the Egyptian coast, however there are no reports about their efficacy as antiparasitic agent. OBJECTIVE: The antischistosomal effect of the holothurin extracted from the three species of sea cucumber is investigated. MATERIALS AND METHODS: The ethanol extract was made from the tegument of both H. polii and A. mauritiana while it was made from the cuvierian gland of B. vitiensis. The body wall (or cuvierian gland) of the sea cucumber was blended with 95% ethanol in a volume = 4 × tissue weight. Extraction was done at room temperature for one day then filtered. The ethanol was removed by evaporation using Rotavapour (BÜCHI 461 water bath REIII) at 40°C. Later the aqueous residue was placed in a vacuum oven at 20°C for about 48 h to remove water. The resulting dried mass was then stored at -4°C until use. The percentage yield and the LD50 were calculated for each extract. Each extract was administered orally to Shistosoma mansoni infected mice in acute and chronic phases of infection. The dose of one-tenth of LD50 of each extract was administrated to mice (5.4, 62.2, and 10 mg/kg body weight/mouse for H. polii extract (HPE), A. mauritiana extract (AME), and cuvierian gland of B. vitiensis, respectively) for 24 h. The effects of each extract on the worm burden and total egg count was studied. The effects of each extract on the worm tegument using scanning electron microscope (SEM) were investigated in vivo and in vitro. RESULTS: The percentage yield of cuvierian gland extract (CGE) was higher (70%) than the tegument AME (33.4%) and HPE (9.3%). The 24 h LD50 of investigated sea cucumber ethanol extracts were 54.46, 627, and 100 mg/kg body weight/mouse for HPE, AME, and CGE. Oral administration of HPE caused decrease in male and female worm burden of 30-day infected mice to reach 60 and 90%, respectively. HPE decreased the egg count significantly in those mice with 30-day (1.75 egg counts/g tissue, p < 0.05) and 45-day (3.25 egg counts/g tissue, p < 0.05) infections. SEM studies of recovered worms from treated mice with all extracts showed different tegumental changes like formation of blebs, wrinkling, formation of numerous pores, and rupturing of some tubercles. These effects were more pronounced in those worms treated in vitro represented by severe shrinkage of the tegument, deformation of spines, rupturing, and collapsing of tubercles. DISCUSSION AND CONCLUSION: Results support the hypothesis that holothurin is a promising antischistosomal agent.

Ontogeny of the holothurian larval nervous system: evolution of larval forms.

Echinoderm larvae share numerous features of neuroanatomy. However, there are substantial differences in specific aspects of neural structure and ontogeny between the dipleurula-like larvae of asteroids and the pluteus larvae of echinoids. To help identify apomorphic features, we have examined the ontogeny of the dipleurula-like auricularia larva of the sea cucumber, Holothuria atra. Neural precursors arise in the apical ectoderm of gastrulae and appear to originate in bilateral clusters of cells. The cells differentiate without extensive migration, and they align with the developing ciliary bands and begin neurogenesis. Neurites project along the ciliary bands and do not appear to extend beneath either the oral or aboral epidermis. Apical serotonergic cells are associated with the preoral loops of the ciliary bands and do not form a substantial commissure. Paired, tripartite connectives form on either side of the larval mouth that connect the pre-oral, post-oral, and lateral ciliary bands. Holothurian larvae share with hemichordates and bipinnariae a similar organization of the apical organ, suggesting that the more highly structured apical organ of the pluteus is a derived feature. However, the auricularia larva shares with the pluteus larva of echinoids several features of neural ontogeny. Both have a bilateral origin of neural precursors in ectoderm adjacent to presumptive ciliary bands, and the presumptive neurons move only a few cell diameters before undergoing neurogenesis. The development of the holothurian nervous systems suggests that the extensive migration of neural precursors in asteroids is a derived feature.