Salinity variation affect population growth rate and reproductive capacity of Brachionus plicatilis: an approach to climate change

Authors

DOI:

https://doi.org/10.5377/ribcc.v6i13.11872

Keywords:

Rotifers, Salinity, Stress, Reproduction

Abstract

The aim of the present study was to evaluate, under non-acclimatization conditions, the population growth rate and the reproductive capacity of Brachionus plicatilis, after being subjected to stress due to reduced salinity. On the day of the experiment, they were placed in a battery of four experimental groups (1: acclimatized and 3: without acclimatization): control group (35 ‰), Treatment 1 (25 ‰), Treatment 2 (10 ‰) and Treatment 3 (7 ‰). ), N = 30 rot / ml. Distilled water was used to reduce salinity. The rotifers were cultured at a temperature of 31 ± 1ºC, pH 8.33 and fed with a single dose of Saccharomyces cerevisiae (1 x 106 cells / ml). Constant aeration was used throughout the experiment. The rotifers were counted once a day. The results show that rotifers cultivated in the salinities of 35 ‰ and 25 ‰ present a higher rate of population growth and reproductive capacity than those cultivated in 10 and 7 ‰, during the two days of study. Likewise, 35 ‰ correspond to the highest values ​​of growth rate (K: 1.66) and yield (r: 129), followed by 25 ‰. However, in 25 ‰ the highest number of rotifers in reproductive stage was observed (96% of rotifers with eggs and a reproductive index value of 0.964). Consequently, our results show that B. plicatilis, when cultivated in seawater (35 ‰) and moved without prior acclimatization to low salinity media, decreases its growth rate and yield.

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Author Biographies

Katherinne del Rosario Osorio Urtecho, National Autonomous University of Nicaragua, León

Asistent Professor. Aquaculture Deparment. Project Pargo team.

Karen Mercedes Palacios Sánchez, National Autonomous University of Nicaragua, León

Research official. Biology Department. Project Pargo team.

Dalia Mercedes Lumbi Ortega, National Autonomous University of Nicaragua, León

Technical Biology Department. Project Pargo team.

Po Yuan Hsieh, Enríque, Taiwan Technical Mission, International Cooperation and Development Fund (ICDF- Nicaragua)

Reseacrh collaborator, Project Pargo team

Carlos Alberto Zúniga-Gonzalez, Prof. Ph.D, National Autonomous University of Nicaragua, León

Research professor of the department of agroecology, School of Agricultural and Veterinary Sciences. Director of the Research Center in Agricultural Sciences and Applied Economics.

Ariel José Aguilar, Prof. Ph.D, National Autonomous University of Nicaragua, León

Doctor in Marine Biology and Aquaculture from the University of Vigo. Spain
Specialist in Marine Biology and Aquaculture from the University of Vigo. Spain
Diploma of Advanced Studies from the University of Vigo. Spain
Master in Analytical Chemistry with "mention in Water Quality Control" by UNAN-León. Nicaragua
Graduated in Biology from UNAN-León. Nicaragua

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Published

2021-07-01

How to Cite

Osorio Urtecho, K. del R., Palacios Sánchez, K. M., Lumbi Ortega, D. M., Hsieh, P. Y., Zúniga-Gonzalez, C. A., & Aguilar, A. J. (2021). Salinity variation affect population growth rate and reproductive capacity of Brachionus plicatilis: an approach to climate change. Rev. Iberoam. Bioecon. Cambio Clim., 7(14), 1587–1594. https://doi.org/10.5377/ribcc.v6i13.11872

Issue

Vol. 7 No. 14 (2021)

Section

Climate Change

Categories

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Copyright (c) 2021 Ibero-American Journal of Bioeconomy and Climate Change

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

Copyright © Rev. iberoam. bioecon. climate change (Graduate School and UNAN-León, School of Agricultural and Veterinary Sciences / Department of Agroecology / Center for Research in Bioeconomy and Climate Cahnge (CRByCC).

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