Spring 2015
May 8, 2015
Grossenbacher et al. (preprint). Geographic range size is predicted by plant mating system. Biorxiv preprint http://dx.doi.org/10.1101/013417. pdf
Grossenbacher et al. (preprint). Geographic range size is predicted by plant mating system. Biorxiv preprint http://dx.doi.org/10.1101/013417. pdf
May 1, 2015
Drovetski et al. (2014). Does the niche breadth or the trade-off hypothesis explain the abundance–occupancy relationship in avian Haemosporidia?. Molecular Ecology 23: 3322–3329. pdf
Optional additional reading:
Gaston et al. (2000). Abundance–occupancy relationships. Journal of Applied Ecology 37: 39–59. pdf
Drovetski et al. (2014). Does the niche breadth or the trade-off hypothesis explain the abundance–occupancy relationship in avian Haemosporidia?. Molecular Ecology 23: 3322–3329. pdf
Optional additional reading:
Gaston et al. (2000). Abundance–occupancy relationships. Journal of Applied Ecology 37: 39–59. pdf
April 24, 2015
Bouchenak-Khelladi et al. (2015). On the complexity of triggering evolutionary radiations. New Phytologist doi: 10.1111/nph.13331. pdf
Optional additional reading:
Donoghue & Sanderson (2015). Confluence, synnovation, and depauperons in plant diversification. New Phytologist doi: 10.1111/nph.13367. pdf
Bouchenak-Khelladi et al. (2015). On the complexity of triggering evolutionary radiations. New Phytologist doi: 10.1111/nph.13331. pdf
Optional additional reading:
Donoghue & Sanderson (2015). Confluence, synnovation, and depauperons in plant diversification. New Phytologist doi: 10.1111/nph.13367. pdf
April 17, 2015
Harmon, L.J. & Harrison, S. (2015). Species Diversity Is Dynamic and Unbounded at Local and Continental Scales. Am. Nat. 185: 000. pdf
Rabosky, D.L. & Hurlbert, A.H. (2015). Species Richness at Continental Scales Is Dominated by Ecological Limits. Am. Nat. 185: 000. pdf
Harmon, L.J. & Harrison, S. (2015). Species Diversity Is Dynamic and Unbounded at Local and Continental Scales. Am. Nat. 185: 000. pdf
Rabosky, D.L. & Hurlbert, A.H. (2015). Species Richness at Continental Scales Is Dominated by Ecological Limits. Am. Nat. 185: 000. pdf
April 10, 2015
Monzón et al. (2014). Assessment of coyote-wolf-dog admixture using ancestry-informative diagnostic SNPs. Molecular Ecology 23: 182–197. pdf
Optional additional reading:
Kays et al. (2010). Rapid adaptive evolution of northeastern coyotes via hybridization with wolves. Biology Letters 6: 89–93. pdf
Monzón et al. (2014). Assessment of coyote-wolf-dog admixture using ancestry-informative diagnostic SNPs. Molecular Ecology 23: 182–197. pdf
Optional additional reading:
Kays et al. (2010). Rapid adaptive evolution of northeastern coyotes via hybridization with wolves. Biology Letters 6: 89–93. pdf
April 3, 2015
Szollosi et al. (2015). The inference of gene trees with species trees. Systematic Biology 64: e42–e62. pdf
Szollosi et al. (2015). The inference of gene trees with species trees. Systematic Biology 64: e42–e62. pdf
March 20, 2015
Quintero et al. (2014). Asynchrony of seasons: genetic differentiation associated with geographic variation in climatic seasonality and reproductive phenology. American Naturalist 184: 352-263. pdf
Optional additional reading:
Martin et al. (2009). Latitudinal variation in the asynchrony of seasons: implications for higher rates of population differentiation and speciation in the tropics. Ideas in Ecology and Evolution 2: 9–17. pdf
Quintero et al. (2014). Asynchrony of seasons: genetic differentiation associated with geographic variation in climatic seasonality and reproductive phenology. American Naturalist 184: 352-263. pdf
Optional additional reading:
Martin et al. (2009). Latitudinal variation in the asynchrony of seasons: implications for higher rates of population differentiation and speciation in the tropics. Ideas in Ecology and Evolution 2: 9–17. pdf
March 13, 2015
Lamichhaney, S., Berglund, J., Almén, M.S., Maqbool, K., Grabherr, M., Martinez-Barrio, A., et al. (2015). Evolution of Darwin’s finches and their beaks revealed by genome sequencing. Nature, 518, 371–375. pdf
Farrington, H.L., Lawson, L.P., Clark, C.M. & Petren, K. (2014). The Evolutionary History of Darwin’s Finches: Speciation, Gene Flow, and Introgression in a Fragmented Landscape. Evolution, 68, 2932–2944. pdf
Lamichhaney, S., Berglund, J., Almén, M.S., Maqbool, K., Grabherr, M., Martinez-Barrio, A., et al. (2015). Evolution of Darwin’s finches and their beaks revealed by genome sequencing. Nature, 518, 371–375. pdf
Farrington, H.L., Lawson, L.P., Clark, C.M. & Petren, K. (2014). The Evolutionary History of Darwin’s Finches: Speciation, Gene Flow, and Introgression in a Fragmented Landscape. Evolution, 68, 2932–2944. pdf
March 6, 2015
Fontaine et al. (2015). Extensive introgression in a malaria vector species complex revealed by phylogenomics. Science, 347,1258524. pdf
Optional additional readings:
Neafsev et al. (2015). Highly evolvable malaria vectors: the genomes of 16 Anopheles mosquitoes. Science 347, 1258522. pdf
Clark & Messer (2015). Conundrum of jumbled mosquito genomes. Science 347, 27. pdf
Fontaine et al. (2015). Extensive introgression in a malaria vector species complex revealed by phylogenomics. Science, 347,1258524. pdf
Optional additional readings:
Neafsev et al. (2015). Highly evolvable malaria vectors: the genomes of 16 Anopheles mosquitoes. Science 347, 1258522. pdf
Clark & Messer (2015). Conundrum of jumbled mosquito genomes. Science 347, 27. pdf
February 27, 2015
Vereecken, N.J., Streinzer, M., Ayasse, M., Spaethe, J., Paulus, H.F., Stökl, J., et al. (2011). Integrating past and present studies on Ophrys pollination – a comment on Bradshaw et al. Bot. J. Linn. Soc., 165, 329–335. pdf
Bateman, R.M., Bradshaw, E., Devey, D.S., Glover, B.J., Malmgren, S., Sramkó, G., et al. (2011). Species arguments: clarifying competing concepts of species delimitation in the pseudo-copulatory orchid genus Ophrys. Bot. J. Linn. Soc., 165, 336–347. pdf
Optional additional reading:
Sedeek, K.E.M., Scopece, G., Staedler, Y.M., Schönenberger, J., Cozzolino, S., Schiestl, F.P., et al. (2014). Genic rather than genome-wide differences between sexually deceptive Ophrys orchids with different pollinators. Mol. Ecol., 23, 6192–6205. pdf
Vereecken, N.J., Streinzer, M., Ayasse, M., Spaethe, J., Paulus, H.F., Stökl, J., et al. (2011). Integrating past and present studies on Ophrys pollination – a comment on Bradshaw et al. Bot. J. Linn. Soc., 165, 329–335. pdf
Bateman, R.M., Bradshaw, E., Devey, D.S., Glover, B.J., Malmgren, S., Sramkó, G., et al. (2011). Species arguments: clarifying competing concepts of species delimitation in the pseudo-copulatory orchid genus Ophrys. Bot. J. Linn. Soc., 165, 336–347. pdf
Optional additional reading:
Sedeek, K.E.M., Scopece, G., Staedler, Y.M., Schönenberger, J., Cozzolino, S., Schiestl, F.P., et al. (2014). Genic rather than genome-wide differences between sexually deceptive Ophrys orchids with different pollinators. Mol. Ecol., 23, 6192–6205. pdf
February 20, 2015
Gallinat, A.S., Primack, R.B. & Wagner, D.L. (2015). Autumn, the neglected season in climate change research. Trends Ecol. Evol., 0. pdf
Optional additional reading:
Wolkovich, E.M. & Ettinger, A.K. (2014). Back to the future for plant phenology research. New Phytol., 203, 1021–1024. pdf
Gallinat, A.S., Primack, R.B. & Wagner, D.L. (2015). Autumn, the neglected season in climate change research. Trends Ecol. Evol., 0. pdf
Optional additional reading:
Wolkovich, E.M. & Ettinger, A.K. (2014). Back to the future for plant phenology research. New Phytol., 203, 1021–1024. pdf
February 13, 2015
Wolkovich, E.M., Cook, B.I., McLauchlan, K.K. & Davies, T.J. (2014). Temporal ecology in the Anthropocene. Ecol. Lett., 17, 1365–1379. pdf - supporting information
Wolkovich, E.M., Cook, B.I., McLauchlan, K.K. & Davies, T.J. (2014). Temporal ecology in the Anthropocene. Ecol. Lett., 17, 1365–1379. pdf - supporting information
February 6, 2015
Asner et al. (2014) Amazonian functional diversity from forest canopy chemical assembly. PNAS 111: 5604 –5609. pdf - supporting information
Asner et al. (2014) Amazonian functional diversity from forest canopy chemical assembly. PNAS 111: 5604 –5609. pdf - supporting information
January 30, 2015
Jarvis et al. (2014) Whole-genome analyses resolve early branches in the tree of life of modern birds. Science 346: 1320–1331. pdf
Jarvis et al. (2014) Whole-genome analyses resolve early branches in the tree of life of modern birds. Science 346: 1320–1331. pdf