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Attachment behavior in the rotifer Brachionus rubens: induction by Asplanchna and effect on sexual reproduction

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Abstract

Experiments with two strains of the facultative epibiont, Brachionus rubens, tested the ability of this rotifer to avoid predation by the rotifer Asplanchna, and its propensity for sexual reproduction and consequent diapause at different population densities. Unlike some congeners, B. rubens did not have a morphological response to Asplanchna by developing longer spines or a larger body. However, it responded to this predator, and its kairomone, with a behavioral defense: a higher propensity to transition from free-swimming to attachment, typically in dense aggregations. Attached individuals were less likely to be captured and ingested, so that B. rubens outlived Asplanchna in some mixed-species cultures. Although crowding induces sex in some congeners, it did not do so in B. rubens. Instead, the proportion of sexual (mictic) daughters produced by females cultured in different volumes (0.5–60 ml) was density-independent: ~ 0.2 for the Argentina strain and ~ 0.6 for the Australia strain. Such fixed levels of sex have rarely been detected in rotifers. In B. rubens, they may be a strategy to ensure some sex with diapause at all times, but permit continued population growth via female parthenogenesis at the very high densities that normally occur on hosts and other surfaces.

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References

  • Gilbert, J. J., 1967. Asplanchna and posterolateral spine induction in Brachionus calyciflorus. Archiv für Hydrobiologie 64: 1–62.

    Google Scholar 

  • Gilbert, J. J., 1985. Escape response of the rotifer Polyarthra: a high-speed cinematographic analysis. Oecologia 66: 322–331.

    Article  Google Scholar 

  • Gilbert, J. J., 1987. The Polyarthra escape response: defense against interference from Daphnia. Hydrobiologia 147: 235–238.

    Article  Google Scholar 

  • Gilbert, J. J., 2004. Population density, sexual reproduction and diapause in monogonont rotifers: new data for Brachionus and a review. Journal of Limnology 63(Suppl 1): 32–36.

    Article  Google Scholar 

  • Gilbert, J. J., 2014. Morphological and behavioral responses of a rotifer to the predator Asplanchna. Journal of Plankton Research 36: 1576–1584.

    Article  Google Scholar 

  • Gilbert, J. J., 2017. Non-genetic polymorphisms in rotifers: environmental and endogenous controls, development, and features for predictable or unpredictable environments. Biological Reviews 92: 964–992.

    Article  Google Scholar 

  • Gilbert, J. J., 2018. Morphological variation and its significance in a polymorphic rotifer: environmental, endogenous and genetic controls. BioScience 68: 169–181.

    Article  Google Scholar 

  • Gilbert, J. J. & M. C. Diéguez, 2010. Low crowding threshold for induction of sexual reproduction and diapause in a Patagonian rotifer. Freshwater Biology 55: 1705–1718.

    Article  Google Scholar 

  • Gilbert, J. J. & K. L. Kirk, 1988. Escape response of the rotifer Keratella: description, stimulation, fluid dynamics, and ecological significance. Limnology and Oceanography 33: 1440–1450.

    Google Scholar 

  • Gilbert, J. J. & M. A. McPeek, 2013. Maternal age and spine development in a rotifer: ecological implications and evolution. Ecology 94: 2166–2172.

    Article  Google Scholar 

  • Green, J., 1974. Parasites and epibionts of Cladocera. Transactions of the Zoological Society of London 32: 417–515.

    Article  Google Scholar 

  • Halbach, U., 1969. Das Zusammenwirken von Konkurrenz und Räuber-Beute-Beziehungen bei Rädertieren. Zoologischer Anzeiger, Supplement band 33: 72–79.

    Google Scholar 

  • Iyer, N. & R. T. Rao, 1993. Effect of the epizoic rotifer Brachionus rubens on the population growth of three cladoceran species. Hydrobiologia 255(256): 325–332.

    Article  Google Scholar 

  • Iyer, N. & R. T. Rao, 1995. Epizoic mode of life in Brachionus rubens Ehrenberg as a deterrent against predation by Asplanchna intermedia Hudson. Hydrobiologia 313(314): 377–380.

    Article  Google Scholar 

  • Kirk, K. L. & J. J. Gilbert, 1988. The escape behavior of Polyarthra in response to artificial flow stimuli. Bulletin of Marine Science 43: 551–560.

    Google Scholar 

  • Matveeva, L. K., 1989. Interrelations of rotifers with predatory and herbivorous Cladocera: a review of Russian works. Hydrobiologia 186(187): 69–73.

    Article  Google Scholar 

  • May, L., 1989. Epizoic and parasitic rotifers. Hydrobiologia 186(187): 59–67.

    Article  Google Scholar 

  • Nandini, S., R. Pérez-Chávez & S. S. S. Sarma, 2003. The effect of prey morphology on the feeding behavior and population growth of the predatory rotifer Asplanchna sieboldi: a case study using five species of Brachionus (Rotifera). Freshwater Biology 48: 2131–2140.

    Article  Google Scholar 

  • Pauwels, K., L. De Meester, H. Michels, E. Jeppesen & E. Decaestecker, 2014. An evolutionary perspective on the resistance of Daphnia to the epizoic rotifer Brachionus rubens. Freshwater Biology 59: 1247–1256.

    Article  Google Scholar 

  • Pejler, B. & B. Bērziņš, 1989. On choice of substrate and habitat in brachionid rotifers. Hydrobiologia 186(187): 137–144.

    Article  Google Scholar 

  • Peña-Aguado, F., J. Morales-Ventura, S. Nandini & S. S. S. Sarma, 2008. Influence of vertebrate and invertebrate infochemicals on the population growth and epizoic tendency of Brachionus rubens (Ehrenberg) (Rotifera: Brachionidae). Allelopathy Journal 22: 123–130.

    Google Scholar 

  • Pourriot, R., C. Rougier & D. Benest, 1986. Qualité de la nourriture et contrôle de la mixis chez le Rotifère Brachionus rubens, Ehr. Bulletin de la Société Zoologique de France 111(105–111): 208–209.

    Google Scholar 

  • Schröder, T. & E. J. Walsh, 2010. Genetic differentiation, behavioural reproductive isolation and mixis cues in three sibling species of monogonont rotifers. Freshwater Biology 55: 2570–2584.

    Article  Google Scholar 

  • Serra, M. & M. J. Carmona, 1993. Mixis strategies and resting egg production of rotifers living in temporally-varying habitats. Hydrobiologia 255(256): 117–126.

    Article  Google Scholar 

  • Serra, M. & C. E. King, 1999. Optimal rates of bisexual reproduction in cyclical parthenogens with density-dependent growth. Journal of Evolutionary Biology 12: 263–271.

    Article  Google Scholar 

  • Snell, T. W., 1987. Sex, population dynamics and resting egg production in rotifers. Hydrobiologia 144: 105–111.

    Article  Google Scholar 

  • Snell, T. W., 2011. A review of the molecular mechanisms of monogonont reproduction. Hydrobiologia 662: 89–97.

    Article  CAS  Google Scholar 

  • Stemberger, R. S., 1981. A general approach to the culture of planktonic rotifers. Canadian Journal of Fisheries and Aquatic Sciences 38: 721–724.

    Article  Google Scholar 

  • Viaud, G., 1947. Recherches experimentales sur les tropisms des Rotifères l’oscillorhéotropisme de Brachionus rubens Ehrenberg, cause de la fixation de ce Rotifère phorétique sur les daphnies et autres crustacés d’eau douce. Annales des Sciences Naturelles, Zoologie 9: 39–62.

    Google Scholar 

  • Yin, X. W., W. Jin, Y. Zhou, P. Wang & W. Zhao, 2017. Hidden defensive mor-phology in rotifers: benefits, costs, and fitness consequences. Scientific Reports 7(1): 4488.

    Article  Google Scholar 

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Acknowledgements

I thank Maria C. Diéguez for collecting dried sediment from Laguna los Juncos, Argentina, and Daryl Nielsen for collecting and sending me dried sediment from Ryan’s 2 billabong, Australia. I am grateful to Russell Shiel for identifications of Brachionus rubens and Moina tenuicornis from this billabong, and for providing GPS coordinates. Many helpful comments and suggestions from reviewers improved the manuscript and are greatly appreciated.

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  1. Department of Biological Sciences, Dartmouth College, Hanover, NH, 03755, USA

    John J. Gilbert

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  1. John J. Gilbert
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Correspondence to John J. Gilbert.

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Guest editors: Steven A. J. Declerck, Diego Fontaneto, Rick Hochberg & Terry W. Snell / Crossing Disciplinary Borders in Rotifer Research

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Gilbert, J.J. Attachment behavior in the rotifer Brachionus rubens: induction by Asplanchna and effect on sexual reproduction. Hydrobiologia 844, 9–20 (2019). https://doi.org/10.1007/s10750-018-3805-7

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  • DOI: https://doi.org/10.1007/s10750-018-3805-7

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