Long-Term Coexistence of Rotifer Cryptic Species

Montero‐Pau, Javier; Ramos–Rodríguez, Eloísa; Serra, Manuel; Gómez, África

doi:10.1371/journal.pone.0021530

Cited by 58 publications

(59 citation statements)

References 66 publications

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“…Our second aim is to present a study of the evolutionary relationships among the species in the complex for a comparative analysis exploring the phylogenetic signal of biological traits and correlations among species-specific traits of the different species. The B. plicatilis species complex is by far the most extensively studied group of rotifers, and these animals have been used to investigate a wide variety of phenomena including ecological interactions (CirosPérez et al, 2001b(CirosPérez et al, , 2004(CirosPérez et al, , 2015Montero-Pau et al, 2011;Gabaldon et al, 2015), toxicology (Serrano et al, 1986;Snell & Persoone, 1989;Dahms et al, 2011), osmoregulation (Lowe et al, 2005), local adaptation (Campillo et al, 2009;Alcántara-Rodrí-guez et al, 2012), the evolution of sex , phylogeography Mills et al, 2007), ageing (Snell et al, 2015), and evolutionary processes (Stelzer et al, 2011;Fontaneto et al, 2012;Tang et al, 2014a). In addition, due to the ease and low cost of producing highly dense cultures of these rotifers, members of this species complex have been widely used in aquaculture as a source of live feed for larval crustaceans and fishes (Fukusho, 1983;Watanabe et al, 1983;Lubzens & Zmora, 2003).…”

Section: Introductionmentioning

confidence: 99%

Fifteen species in one: deciphering the Brachionus plicatilis species complex (Rotifera, Monogononta) through DNA taxonomy

et al. 2016

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Understanding patterns and processes in biological diversity is a critical task given current and rapid environmental change. Such knowledge is even more essential when the taxa under consideration are important ecological and evolutionary models. One of these cases is the monogonont rotifer cryptic species complex Brachionus plicatilis, which is by far the most extensively studied group of rotifers, is widely used in aquaculture, and is known to host a large amount of unresolved diversity. Here we collate a dataset of previously available and newly generated sequences of COI and ITS1 for 1273 isolates of the B. plicatilis complex and apply three approaches in DNA taxonomy (i.e. ABGD, PTP, and GMYC) to identify and provide support for the existence of 15 species within the complex. We used these results to explore phylogenetic signal in morphometric and ecological traits, and to understand correlation among the traits using phylogenetic comparative models. Our results support niche conservatism for some traits (e.g. body length) and phylogenetic plasticity for others (e.g. genome size).

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Section: Introductionmentioning

confidence: 99%

Fifteen species in one: deciphering the Brachionus plicatilis species complex (Rotifera, Monogononta) through DNA taxonomy

et al. 2016

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“…Molecular techniques have shown that the former taxon B. plicatilis is actually a complex of fifteen cryptic species (Mills et al, 2017). Four species from this complex co-exist in the shallow ponds of the Mediterranean coast of Spain (Gomez et al, 1995;Ortells et al, 2003;Montero-Pau et al, 2011). Recently, three of them, B. plicatilis sensu stricto Müller, 1786, B. ibericus Ciros-Pérez, Serra, 2001 andB.…”

Section: Introductionmentioning

confidence: 99%

Empirical evidence for fast temperature-dependent body size evolution in rotifers

Walczyńska

Franch‐Gras

2017

Hydrobiologia

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Organisms tend to decrease in size with increasing temperature by phenotypic plasticity (the temperature-size rule; ectotherms) and/or genetically (Bergmann's rule; all organisms). In this study, the evolutionary response of body size to temperature was examined in the cyclically parthenogenetic rotifer Brachionus plicatilis. Our aim was to investigate whether this species, already known to decrease in size with increasing temperature by phenotypic plasticity, presents a similar pattern at the genetic level. We exposed a multiclonal mixture of B. plicatilis to experimental evolution at low and high temperature and monitored body size weekly. Within a month, we observed a smaller size at higher temperature, as compared to body size at lower temperature. The pattern was consistent for the size of both mature females and eggs; rotifers kept at high temperature evolved to be on average 14% (after 2 weeks) and 3% (after 3 weeks) smaller than the ones kept at low temperature (10 and 5% in the case of eggs, respectively). We therefore found that B. plicatilis is genetically programmed to adjust its body size-toenvironmental temperature.

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“…Hypotheses about ecological niche differentiation between cryptic species are usually based on often limited information about geographical distributions (Ortells et al, 2003;Rissler and Apodaca, 2007). Abiotic niche differentiation has already been invoked as a likely explanation for the coexistence of cryptic species in e.g., rotifers, sea urchins and nematodes (Montero-Pau et al, 2011;Ortells et al, 2003;Palumbi and Metz, 1991;Van Campenhout et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

Temperature and salinity induce differential responses in life histories of cryptic nematode species

Meester

Derycke

Rigaux

et al. 2015

Journal of Experimental Marine Biology and Ecology

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Long-Term Coexistence of Rotifer Cryptic Species

Cited by 58 publications

References 66 publications

Fifteen species in one: deciphering the Brachionus plicatilis species complex (Rotifera, Monogononta) through DNA taxonomy

Fifteen species in one: deciphering the Brachionus plicatilis species complex (Rotifera, Monogononta) through DNA taxonomy

Empirical evidence for fast temperature-dependent body size evolution in rotifers

Temperature and salinity induce differential responses in life histories of cryptic nematode species

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