Ellis, L.T., Agcagil, E., Kırmacı, M., Aleffi, M., Bakalin, V.A., Bednarek-Ochyra, H., Cykowska-Marzencka, B., Stryjak-Bogacka, M., Bojaca, G.F.P., Fantacelle, L.B., Araújo, C.A.T., Maciel-Silva, A.S., Bruno Silva, J., Calleja, J.A., Cano, M.J., Castillo Diaz, J., Gabriel, R., Dias dos Santos, N., Enroth, J., Erzberger, P., Garilleti, R., Hájek, M., Hedenäs, L., Heras, P., Infante, M., Kiebacher, T., Koczur, A., Krawczyk, R., Kučera, J., Lebouvier, M., Lüth, M., Mazimpaka, V., Vigalondo, B., Lara, F., Nagy, J., Németh, C., Kovács, A., Nobis, M., Węgrzyn, M., Wietrzyk, P., Norhazrina, N., Vanderpoorten, A., Nowak, A., Poponessi, S., Gigante, D., Venanzoni, R., Plášek, V., Rangel Germano, S., Schäfer-Verwimp, A., Sérgio, C., Claro, D., Garcia, C.A., Shirzadian, S., Akhoondi Darzikolaei, S., Stebel, A., Suleiman, M., Yong, K.-T., Virchenko, V.M., Vončina, G., Yoon, Y.-J., Choi, H.-G., Kim, J.H. (2016) New National and Regional Bryophyte Records, 49. Journal of Bryology. : 1-21.LinkDoi: 10.1080/03736687.2016.1225777
García-Peña G.E., Sol D., Iwaniuk A.N., Székely T. (2013) Sexual selection on brain size in shorebirds (Charadriiformes). Journal of Evolutionary Biology. 26: 878-888.LinkDoi: 10.1111/jeb.12104
Natural selection is considered a major force shaping brain size evolution in vertebrates, whereas the influence of sexual selection remains controversial. On one hand, sexual selection could promote brain enlargement by enhancing cognitive skills needed to compete for mates. On the other hand, sexual selection could favour brain size reduction due to trade-offs between investing in brain tissue and in sexually selected traits. These opposed predictions are mirrored in contradictory relationships between sexual selection proxies and brain size relative to body size. Here, we report a phylogenetic comparative analysis that highlights potential flaws in interpreting relative brain size-mating system associations as effects of sexual selection on brain size in shorebirds (Charadriiformes), a taxonomic group with an outstanding diversity in breeding systems. Considering many ecological effects, relative brain size was not significantly correlated with testis size. In polyandrous species, however, relative brain sizes of males and females were smaller than in monogamous species, and females had smaller brain size than males. Although these findings are consistent with sexual selection reducing brain size, they could also be due to females deserting parental care, which is a common feature of polyandrous species. Furthermore, our analyses suggested that body size evolved faster than brain size, and thus the evolution of body size may be confounding the effect of the mating system on relative brain size. The brain size-mating system association in shorebirds is thus not only due to sexual selection on brain size but rather, to body size evolution and other multiple simultaneous effects. © 2013 The Authors. Journal of Evolutionary Biology © 2013 European Society For Evolutionary Biology.
Sol D., Maspons J., Vall-llosera M., Bartomeus I., García-Peña G.E., Piñol J., Freckleton R.P. (2012) Unraveling the life history of successful invaders. Science. 337: 580-583.LinkDoi: 10.1126/science.1221523
Despite considerable current interest in biological invasions, the common life-history characteristics of successful invaders remain elusive. The widely held hypothesis that successful invaders have high reproductive rates has received little empirical support; however, alternative possibilities are seldom considered. Combining a global comparative analysis of avian introductions (>2700 events) with demographic models and phylogenetic comparative methods, we show that although rapid population growth may be advantageous during invasions under certain circumstances, more generally successful invaders are characterized by life-history strategies in which they give priority to future rather than current reproduction. High future breeding expectations reduce the costs of reproductive failure under uncertain conditions and increase opportunities to explore the environment and respond to novel ecological pressures.
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