Effects of Temperature on Population Growth and Resting Egg Production of Freshwater Rotifer (Brachionus calyciflorus)

Date Received: Jun 10, 2020

Date Published: Dec 31, 2020

Views

1931

Download

662

Section:

ANIMAL SCIENCE – VETERINARY MEDICINE – AQUACULTURE

How to Cite:

Nhinh, D., Hong, P., Hoai, T., & Van, K. (2020). Effects of Temperature on Population Growth and Resting Egg Production of Freshwater Rotifer (Brachionus calyciflorus). Vietnam Journal of Agricultural Sciences, 3(4), 798–805. https://doi.org/10.31817/vjas.2020.3.4.03

Effects of Temperature on Population Growth and Resting Egg Production of Freshwater Rotifer (Brachionus calyciflorus)

Doan Thi Nhinh (*) 1 , Pham Thi Lam Hong 1 , Truong Dinh Hoai 1   , Kim Van Van 1

  • Corresponding author: dtnhinh@vnua.edu.vn
  • 1 Faculty of Fishery, Vietnam National University of Agriculture, Hanoi 131000, Vietnam
  • Keywords

    Rotifer, Brachionus calyciflorus, resting egg

    Abstract


    Resting egg production of rotifers provides critical advantages in larviculture of most fish species due to the reduction in the costs of labour and algae production. The study was conducted to investigate the effects of temperature on population growth and resting egg production of a freshwater rotifer, Brachionus calyciflorus, collected in Northern Vietnam. The rotifer was pre-cultured at 27ºC before being transferred to the cultures at 15 and 35ºC while the control was maintained at 27ºC. One-liter beakers filled with 500mL culture medium were used with three replicates for each temperature group. Stock rotifers were inoculated at an initial density of 200 ind ml-1 and fed with concentrated fresh algae. The results indicated that population growth rate (r) of rotifers cultured at 27 and 35ºC were significantly higher than that of rotifers at 15ºC while the highest density was attained from the treatment of 27ºC, at 608.3 ind mL-1, compared to 468.3 and 360.5 ind mL-1 at 35 and 15ºC, respectively. Transferring the cultures from 27 to 35ºC significantly increased the rate of resting egg carrying females with the maximum rate of 31.5% compared to 21.2 and 13.5% of the rotifers at 27 and 15ºC, respectively. The resting egg densities of the cultures at 35ºC were also significantly higher than those at 15 and 27ºC. The resting egg carrying females appeared and increased their rates in concurrence with increases in the population density. The present results are important information for resting egg induction and production of rotifer in larviculture.

    References

    Anitha P. S., Sabu A. S. & George R. M. (2016). Reproductive rate of Brachionus calyciflorus under the influence of salinity, temperature, feed type and feed concentration. International Journal of Fisheries and Aquatic Studies. 4: 219-226.

    Arimoro F. (2007). First Feeding in the African Catfish Clarias anguillaris Fry in Tanks with the Freshwater Rotifer Brachionus calyciflorus. Journal of Fisheries and Aquatic Science. 2(4): 275-284.

    Assavaaree M., Hagiwara A., Kogane T. & Arimoto M. (2003). Effect of temperature on resting egg formation of the tropical SStype rotifer Brachionus rotundiformis Tschugunoff. Fisheries Science. 69(3): 520-528.

    Awaïss A. & Kestemont P. (1992). An investigation into the mass production of the freshwater rotifer Brachionus calyciflorus Pallas. 2. Influence of temperature on the population dynamics. Aquaculture. 105(3-4): 337-344.

    Carmona M. J., Gómez A. & Serra M. (1995). Mictic patterns of the rotifer Brachionus plicatilis Müller 1786 in small ponds. Springer, Dordrecht. In Rotifera VII: 365-371.

    Dhert P., Schoeters K., Vermeulen P., Sun J., Gao S., Shang

    Z., Naihong X., Van Duffel H. & Sorgeloos P. (1997). Production, disinfection and evaluation for aquaculture applications of rotifer resting eggs from Bohai Bay, PR of China. Aquaculture International. 5(2): 105-112.

    Fengqi L. (1996). Production and application of rotifers in aquaculture. Aquaculture Magazine. 22(3): 16-22.

    García-Roger E. M., Martínez A. & Serra M. (2006). Starvation tolerance of rotifers produced from parthenogenetic eggs and from diapausing eggs: a life table approach. Journal of Plankton Research. 28(3): 257-265.

    Gilbert J. J. (2007). Timing of diapause in monogonont rotifers: mechanisms and strategies. In Diapause in Aquatic Invertebrates Theory and Human Use. Springer, Dordrecht: 11-27.

    Gilbert J. J. (2003). Specificity of crowding response that induces sexuality in the rotifer Brachionus. Limnology and Oceanography. 48: 1297-1303.

    Hagiwara A., & Hino A. (1989). Effect of incubation and preservation on resting egg hatching and mixis in the derived clones of the rotifer Brachionus plicatilis. Springer, Dordrecht. In Rotifer symposium V: 415421.

    Hagiwara A., Kotani T., Snell T. W., Assava-Aree M. & Hirayama K. (1995). Morphology, reproduction, genetics, and mating behavior of small, tropical marine Brachionus strains (Rotifera). Journal of Experimental Marine Biology and Ecology. 194(1): 25-37.

    Hagiwara A., Lee C. S., Miyamoto G. & Hino A. (1989). Resting egg formation and hatching of the S-type rotifer Brachionus plicatilis at varying salinities. Marine Biology. 103(3): 327-332.

    Hagiwara A., Lee C. S., Miyamoto G. & Hino A. (1991). Resting egg formation of the L-and S-type rotifer Brachionus plicatilis under different water temperature. Nippon Suisan Gakkaishi. 57(9): 16451650.

    Hino A. & Hirano R. (1976). Ecological studies on the mechanism of bisexual reproduction in the rotifer Brachionus plicatilis. I. General aspects of bisexual reproduction inducing factors. Bulletin of the Japanese Society for the Science of Fish. 42(10): 1093-1099.

    Lavens P. & Sorgeloos P. (1996). Manual on the Production and Use of Live Food for Aquaculture. Rome: FAO, 375 pp.

    Lim L. C. & Wong C. C. (1997). Use of the rotifer, Brachionus calyciflorus Pallas, in freshwater ornamental fish larviculture. Hydrobiologia. 358(1-3): 269-273.

    Lubzens E., Tandler A. & Minkoff G. (1989). Rotifers as food in aquaculture. Hydrobiologia. 186(1): 387-400.

    New M. B. & Valenti W. C. (2008). Freshwater prawn culture: the farming of Macrobrachium rosenbergii. John Wiley & Sons.

    Ogello E. O., Kim H. J., Suga K. & Hagiwara A. (2016). Lifetable demography and population growth of the rotifer Brachionus angularis in Kenya: influence of temperature and food density. African Journal of Aquatic Science. 41(3): 329-336.

    Park H. G., Woo K. L., Cho S. H., Kim H. S., Jung M. M. & Kim H. S. (2001). High density culture of the freshwater rotifer, Brachionus calyciflorus. Springer, Dordrecht. In Rotifera IX: 369-374.

    Schröder T. (2001). Colonising strategies and diapause of planktonic rotifers (Monogononta, Rotifera) during aquatic and terrestrial phases in a floodplain (Lower Oder Valley, Germany). International Review of Hydrobiology: A Journal Covering all Aspects of Limnology and Marine Biology. 86(6): 635-660.

    Segers H. & Chittapun S. (2001). The interstitial Rotifera of a tropical freshwater peat swamp on Phuket Island, Thailand. Belgian Journal of Zoology. 131: 25-31.

    Snell T. W. & Boyer E. M. (1988). Thresholds for mictic female production in the rotifer Brachionus plicatilis (Muller). Journal of Experimental Marine Biology and Ecology. 124(2): 73-85.

    Snell T., Walsh, E., Sarma, S. S.S. & Segers H. (2019). Phylum Rotifera. 10.1016/B978-0-12-385024-9.00008-3.

    Stelzer C. P. & Snell T. W. (2003). Induction of sexual reproduction in Brachionus plicatilis (Monogononta, Rotifera) by a density‐dependent chemical cue. Limnology and Oceanography. 48(2): 939-943.

    Vu N. U., Pham T. H., Huynh P. V., & Huynh T. G. (2021).

    Importance of the freshwater rotifer Brachionus angularis for improved survival rate of early lifehistory stages of pangasius catfish, Pangasianodon hypophthalmus. Aquaculture Research. 52(2): 783-792.

    Wang Y., Hu M., Wang W. & Cao L. (2009). Effects on growth and survival of loach (Misgurnus anguillicaudatus) larvae when co‐fed on live and microparticle diets. Aquaculture Research. 40(4): 385-394.

    Xi Y. L., Dong L. L., Ge Y. L. & Liu G. Y. (2004). Resting egg production of Brachionus calyciflorus (Rotifera) at different water temperatures. Journal of Freshwater Ecology. 19(4): 567-573.

    Yin X. W., Tan B. B., Zhou Y. C., Li X. C. & Liu W. (2016). Development time of male and female rotifers with sexual size dimorphism. Hydrobiologia. 767(1): 27-35.

    Yona G. K. (2018). Effect of culture temperature on rotifers (Brachionus plicatilis sensu strictu) size and reproduction activities. Tanzania Journal of Agricultural Sciences. 17(1): 23-30.