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The role of vital dietary biomolecules in eco-evo-devo dynamics
Závorka, L., Blanco, A., Chaguaceda, F., Cucherousset, J., Killen, S. S., Liénart, C., … Kainz, M. J. (2023). The role of vital dietary biomolecules in eco-evo-devo dynamics. Trends in Ecology and Evolution, 38(1), 72-84. https://doi.org/10.1016/j.tree.2022.08.010
An integrative paleolimnological approach for studying evolutionary processes
Cuenca-Cambronero, M., Courtney-Mustaphi, C. J., Greenway, R., Heiri, O., Hudson, C. M., King, L., … Matthews, B. (2022). An integrative paleolimnological approach for studying evolutionary processes. Trends in Ecology and Evolution, 37(6), 488-496. https://doi.org/10.1016/j.tree.2022.01.007
The era of reference genomes in conservation genomics
Formenti, G., Theissinger, K., Fernandes, C., Bista, I., Bombarely, A., Bleidorn, C., … European Reference Genome Atlas (ERGA) Consortium (2022). The era of reference genomes in conservation genomics. Trends in Ecology and Evolution, 37(3), 197-202. https://doi.org/10.1016/j.tree.2021.11.008
Climate change creates nutritional phenological mismatches
Twining, C. W., Shipley, J. R., & Matthews, B. (2022). Climate change creates nutritional phenological mismatches. Trends in Ecology and Evolution, 37(9), 736-739. https://doi.org/10.1016/j.tree.2022.06.009
A combinatorial view on speciation and adaptive radiation
Marques, D. A., Meier, J. I., & Seehausen, O. (2019). A combinatorial view on speciation and adaptive radiation. Trends in Ecology and Evolution, 531-544. https://doi.org/10.1016/j.tree.2019.02.008
Upward adaptive radiation cascades: predator diversification induced by prey diversification
Brodersen, J., Post, D. M., & Seehausen, O. (2018). Upward adaptive radiation cascades: predator diversification induced by prey diversification. Trends in Ecology and Evolution, 33(1), 59-70. https://doi.org/10.1016/j.tree.2017.09.016
Deciphering the interdependence between ecological and evolutionary networks
Melián, C. J., Matthews, B., de Andreazzi, C. S., Rodríguez, J. P., Harmon, L. J., & Fortuna, M. A. (2018). Deciphering the interdependence between ecological and evolutionary networks. Trends in Ecology and Evolution, 33(7), 504-512. https://doi.org/10.1016/j.tree.2018.04.009
The ecology and evolution of stoichiometric phenotypes
Leal, M. C., Seehausen, O., & Matthews, B. (2017). The ecology and evolution of stoichiometric phenotypes. Trends in Ecology and Evolution, 32(2), 108-117. https://doi.org/10.1016/j.tree.2016.11.006
Reintroducing environmental change drivers in biodiversity–ecosystem functioning research
De Laender, F., Rohr, J. R., Ashauer, R., Baird, D. J., Berger, U., Eisenhauer, N., … Van den Brink, P. J. (2016). Reintroducing environmental change drivers in biodiversity–ecosystem functioning research. Trends in Ecology and Evolution, 31(12), 905-915. https://doi.org/10.1016/j.tree.2016.09.007
Integrating ecology and genetics in speciation research. Ecological Speciation by Patrik Nosil
Seehausen, O. (2013). Integrating ecology and genetics in speciation research. Ecological Speciation by Patrik Nosil. Trends in Ecology and Evolution, 28(1), 12-13. https://doi.org/10.1016/j.tree.2012.10.005
Community ecology: stasis, evolution or revolution? Community ecology, processes, models and applications edited by Herman A. Verhoef and Peter J. Morin
Melian, C. J. (2010). Community ecology: stasis, evolution or revolution? Community ecology, processes, models and applications edited by Herman A. Verhoef and Peter J. Morin. Trends in Ecology and Evolution, 25(12), 684-685. https://doi.org/10.1016/j.tree.2010.09.005
Ecological explanations for (incomplete) speciation
Nosil, P., Harmon, L. J., & Seehausen, O. (2009). Ecological explanations for (incomplete) speciation. Trends in Ecology and Evolution, 24(3), 145-156. https://doi.org/10.1016/j.tree.2008.10.011