TY - JOUR
T1 - Potencial de Tegula atra (mollusca
T2 - Gastropoda) como biorregulador del crecimiento de algas en estanques de cultivo de lenguado Paralichthys adspersus
AU - Sánchez, Jorge
AU - Canales-Cerro, Carlos
AU - Noll, Daly
AU - Safian, Diego
AU - Estrada, Juan Manuel
N1 - Funding Information:
Los autores agradecen en forma p?stuma al Dr. Roberto Mel?ndez Cort?s (QEPD), qui?n nos otorg? el financiamiento mediante la Escuela de Ciencias del Mar de la Universidad Andr?s Bello, para el desarrollo de herramientas profesionales, que hasta el d?a de hoy marcan un precedente dentro de nuestra formaci?n acad?mica.
Publisher Copyright:
© 2021 by the authors.
Copyright:
Copyright 2021 Elsevier B.V., All rights reserved.
PY - 2020
Y1 - 2020
N2 - One of the main problems in aquaculture lies in the stress to which the species in cultivation can be subjected, therefore the development of alternative techniques such a mixed culture are beneficial to minimize stress and improve the industry. Tegula atra is a gastropod that lives in subtidal and intertidal, with local economic importance and due its herbivorous behavior, we hypothesized that T. atra may be valuable in controlling macroalgae growth in culture tanks by mixed culture. Grazing percentage, respiratory behavior and excretion of nitrogen wastes, were measured in three size classes of T. atra, which were maintained in mixed culture together with the economically relevant Chilean flounder. While the largest specimens of T. atra (Class 3) were the most efficient in terms of algae consumption, the other classes were less effective and did not show significant differences in each other within a 24-hour period. Smaller and larger size classes organisms (Class 1 and Class 3), consumed the greatest amount of oxygen within a period of 120 min. Finally, smallest organisms (Class 1) emitted the greatest nitrogen wastes, in a period of 120 min. As the grazing ability was higher in larger specimens (Class 3), they could be the ideal candidates for polyculture. However, medium-sized specimens (Class 2) may be the most suitable, due its low O2 consumption and lower excretion of NH3, producing less negative effect on water quality. Future studies should evaluate the potential negative impacts of T. atra on the physiology of its cohabitants.
AB - One of the main problems in aquaculture lies in the stress to which the species in cultivation can be subjected, therefore the development of alternative techniques such a mixed culture are beneficial to minimize stress and improve the industry. Tegula atra is a gastropod that lives in subtidal and intertidal, with local economic importance and due its herbivorous behavior, we hypothesized that T. atra may be valuable in controlling macroalgae growth in culture tanks by mixed culture. Grazing percentage, respiratory behavior and excretion of nitrogen wastes, were measured in three size classes of T. atra, which were maintained in mixed culture together with the economically relevant Chilean flounder. While the largest specimens of T. atra (Class 3) were the most efficient in terms of algae consumption, the other classes were less effective and did not show significant differences in each other within a 24-hour period. Smaller and larger size classes organisms (Class 1 and Class 3), consumed the greatest amount of oxygen within a period of 120 min. Finally, smallest organisms (Class 1) emitted the greatest nitrogen wastes, in a period of 120 min. As the grazing ability was higher in larger specimens (Class 3), they could be the ideal candidates for polyculture. However, medium-sized specimens (Class 2) may be the most suitable, due its low O2 consumption and lower excretion of NH3, producing less negative effect on water quality. Future studies should evaluate the potential negative impacts of T. atra on the physiology of its cohabitants.
KW - Bioregulator
KW - Mixed culture
KW - Polyculture
KW - Tegula atra
UR - http://www.scopus.com/inward/record.url?scp=85100090083&partnerID=8YFLogxK
U2 - 10.22370/rbmo.2020.55.3.2586
DO - 10.22370/rbmo.2020.55.3.2586
M3 - Artículo
AN - SCOPUS:85100090083
SN - 0717-3326
VL - 55
SP - 217
EP - 224
JO - Revista de Biologia Marina y Oceanografia
JF - Revista de Biologia Marina y Oceanografia
IS - 3
ER -