Xiaofei Tian scite author profile

Background Several genetic lineages of obligate parthenogenetic Daphnia pulex , a common zooplankton species, have invaded Japan from North America. Among these, a lineage named JPN1 is thought to have started colonization as a single genotype several hundred to thousand years ago and subsequently produced many genotypes in Japan. To examine the phenotypic variations due to ecological drivers diverging the genotypes in new habitats, we measured heritability and variation in 17 traits, including life history, morphology and digestive traits, and the genetic distance among the D. pulex JPN1 genotypes in Japan. Results We found that most of the traits measured varied significantly among the genotypes and that heritability was highest in the morphological traits, followed by the digestive and life history traits. In addition, 93% of the variation in these traits was explained by the first three components in the principal component analysis, implying that variation of these heritable traits is not random but rather converged into a few directions. These relations among traits revealed the potential importance of predation pressures and food conditions as factors for diverging and selecting different genotypes. However, the magnitude of the difference in any single trait group did not correlate with the genetic distance. Conclusions Our findings show that the divergent traits evolved within D. pulex JPN1 lineage without genetic recombination, since their ancestral clone invaded Japan. Large variations and covariations of the phenotypic traits, irrespective of the genetic distance among the genotypes, support the view that the invasive success of D. pulex JPN1 was promoted by a genetic architecture that allowed for large phenotypic variations with a limited number of functionally important mutations without recombination. Electronic supplementary material The online version of this article (10.1186/s12862-019-1453-9) contains supplementary material, which is available to authorized users.

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Family Growth and Survival Response to Two Simulated Water Temperature Environments in the Sea Urchin Strongylocentrotus intermedius

Chang

Tian

Zhang

et al. 2016

IJMS

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Heat tolerance is a target trait in the selective breeding of the sea urchin Strongylocentrotus intermedius, as it plays an important role in the survival and growth of cultured S. intermedius during summer. We investigated family growth and survival response to two temperature treatments to evaluate the genotype by temperature interaction (GEI) in the family selection of S. intermedius. Sea urchins from 11 families were exposed to two simulated water temperature environments—high temperature (HE) and control temperature (CE)—for 12 months, with each experiment divided into four periods (P1, stress-free period I; P2, stress-full high period; P3, stress-response period; and P4, stress-free period II) based on the temperature changes and the survival. Test diameter (TD), body weight (BW), and survival rate (SR) in HE and CE were measured monthly. Effects of family, temperature, and family-temperature interaction on TD, BW, SR, and specific growth rate (SGR) for BW were examined. In CE, BW differed significantly between families in P2, P3, and P4, while TD differed significantly between families in P3 and P4 (p < 0.05). In HE, family had significant effects on BW in P4, and on TD in P3 and P4, while temperature had significant effects on SR, TD, and BW in P3 and P4 (p < 0.05). GEI effects were not significant for TD or BW; however, family ranking changes revealed the existence of GEI in SR. The GEI results indicate the necessity of applying family selection in CE and HE for SR, but not for TD or BW. These results may provide a guide for aquaculture and selective breeding of S. intermedius under temperature pressure.

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Diel observation on the distribution of the sea urchinStrongylocentrotus intermediusunder different food availability and shelter conditions in the laboratory

Zhao

Liu

Zhou

et al. 2013

Marine and Freshwater Behaviour and Physiology

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Opsin4,Opsin5, andPax6significantly increase their expression in recently settled juveniles of the sea urchinStrongylocentrotus intermedius(Echinodermata: Echinoidea)

Zhao

Tian

et al. 2015

Invertebrate Reproduction & Development

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Detection of light is essential for the interaction of sea urchins with a complex marine environment because it strongly affects various behavioral and physiological responses. Gene expression patterns of related genes of photoreceptor cells during larva development and metamorphosis in sea urchins remain unknown. We investigated the expression patterns of two representative opsin genes (Opsin4 and Opsin5) and Pax6 during larva development and after metamorphosis in the sea urchin Strongylocentrotus intermedius. Gene expression patterns of SIPax6, SIOpsin4, and SIOpsin5 were significantly different during the experimental period (p < 0.001). Expression of SIPax6 generally increased from the blastula stage to the eight-arm larva. However, SIOpsin5 and SIOpsin4 kept a relatively low expression during the whole experimental period except for a significant increase at the stage of early post-metamorphosis (23 days after fertilization) (p < 0.001). Like the expression pattern of SIOpsin4 and SIOpsin5, SIPax6 significantly increased its expression from the eight-arm larva stage to the juvenile (p < 0.001). After the high expression in early settled juveniles, however, the expression of all the three genes significantly decreased to a level similar to that in eight-arm larvae (p < 0.05).

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The effects of prolonged food deprivation on the covering behavior of the sea urchinsGlyptocidaris crenularisandStrongylocentrotus intermedius

Zhao

Zhou

Tian

et al. 2014

Marine and Freshwater Behaviour and Physiology

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In this study, we investigated effects of 24 weeks of food deprivation on covering behavior of Glyptocidaris crenularis and Strongylocentrotus intermedius. Neither G. crenularis nor S. intermedius significantly reduced covering behavior during both short-and long-term food deprivation. However, G. crenularis and S. intermedius had significantly different behavioral patterns over the 24 weeks. Covering behavior of G. crenularis greatly increased from the first to the second week, with decreasing reaction time and increasing covering ability, while the covering behavior of S. intermedius generally remained unchanged during the experiment of 24 weeks. As prolonged food deprivation does not significantly affect covering behavior of G. crenularis and S. intermedius, the present study highlights the innate nature and biological significance of covering behavior in sea urchins, providing new insights into its behavioral mechanism.

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Xiaofei Tian

Evolution of asexual Daphnia pulex in Japan: variations and covariations of the digestive, morphological and life history traits

Family Growth and Survival Response to Two Simulated Water Temperature Environments in the Sea Urchin Strongylocentrotus intermedius

Diel observation on the distribution of the sea urchinStrongylocentrotus intermediusunder different food availability and shelter conditions in the laboratory

Opsin4,Opsin5, andPax6significantly increase their expression in recently settled juveniles of the sea urchinStrongylocentrotus intermedius(Echinodermata: Echinoidea)

The effects of prolonged food deprivation on the covering behavior of the sea urchinsGlyptocidaris crenularisandStrongylocentrotus intermedius

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