Abstract
During speciation different kinds of reproductive barriers originate to preclude gene flow between diverging populations. Reproductive isolation or barriers to gene flow can be categorized by the temporal nature of their effect: pre-zygotic barriers occur before fertilization and post-zygotic barriers occur after fertilization. In this study, we studied each components of reproductive isolation between D. ananassae and D. pallidosa, including both pre-zygotic and post-zygotic barriers. Because it might be possible that by dissecting these barriers one can get the answers of many unresolved questions related to the process of speciation of these two sibling species. We reported premating isolation because females of both D. ananassae and D. pallidosa were more discriminative for mating against the alien males rather than conspecific males, and this discrimination was much stronger in case of D. ananassae females for being the ancestral and cosmopolitan species. We also did not find any decrease in the production of progeny or viable offspring in comparison to conspecific males, indicating a lack of postmating prezygotic isolating barriers. Further, there is no complete lack of intrinsic post-zygotic isolation between these species or not complete presence of post-zygotic isolation, as both the hybrid sons were producing less number of progeny in comparison to all the crosses but it is near to significant but not significant and this is contrasting to the results of a previous study.
Highlights
After the debates of many decades in evolutionary biology, mechanistic understanding of speciation is yet a formidable challenge for the evolutionary biologists and speciation has been largely associated with several important mysteries, to the reproductive isolation within Drosophila
F1(PC x NOU88) are F1 hybrids from D. ananassae PC females, F1(NOU 88 x PC) are F1 hybrids from D. pallidosa NOU 88 females, PC refers to D. ananassae PC and NOU 88 refers to D. pallidosa NOU 88 (#p< 0.001, *p< 0.01)
F1(PC x NOU 88) are F1 hybrids from D. ananassae PC females, PC refers to D. ananassae PC and NOU 88 refers to D. pallidosa NOU88
Summary
After the debates of many decades in evolutionary biology, mechanistic understanding of speciation is yet a formidable challenge for the evolutionary biologists and speciation has been largely associated with several important mysteries, to the reproductive isolation within Drosophila. Reproductive isolation or barriers to gene flow can be categorized by the temporal nature of their effect: pre-zygotic barriers occur before fertilization and post-zygotic barriers occur after fertilization (Coyne & Orr, 2004). When pre-zygotic barriers will fail, postmating prezygotic barriers will act to prevent the generation of hybrid offspring by many ways (Palumbi, 1999; Price, 1997; Rice, 1996). If postmating prezygotic isolating barriers fail, post-zygotic barriers come in picture. To understand speciation between two species it is must that one can quantify both pre-zygotic and post-zygotic barriers. It might be possible that one can get the answers of many unresolved questions related to the process of speciation by dissecting these barriers (Coyne & Orr, 1989, 1997)
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