Thanks for listening! (also I meant to say "La" Niña not "El" Niña!)
Follow me on instagram: matt.rossella
Support the podcast: patreon.com/blurbs439
References:
Abzhanov, A. (2010). Darwin's Galapagos finches in modern biology. Philosophical Transactions of the Royal Society B: Biological Sciences, 365(1543), 1001-1007.
Beausoleil, M. O., Lorena Carrión-Avilés, P., Podos, J., Camacho, C., Rabadán-González, J., Richard, R., ... & Hendry, A. P. (2023). The fitness landscape of a community of Darwin’s finches. Evolution, qpad160.
Carrión, P. L., Raeymaekers, J. A., De León, L. F., Chaves, J. A., Sharpe, D. M., Huber, S. K., ... & Hendry, A. P. (2022). The terroir of the finch: How spatial and temporal variation shapes phenotypic traits in DARWIN'S finches. Ecology and Evolution, 12(10), e9399.
Carvajal‐Endara, S., Hendry, A. P., Emery, N. C., Neu, C. P., Carmona, D., Gotanda, K. M., ... & Johnson, M. T. (2020). The ecology and evolution of seed predation by Darwin's finches on Tribulus cistoides on the Galápagos Islands. Ecological monographs, 90(1), e01392.
De León, L. F., Sharpe, D. M., Gotanda, K. M., Raeymaekers, J. A., Chaves, J. A., Hendry, A. P., & Podos, J. (2019). Urbanization erodes niche segregation in Darwin's finches. Evolutionary Applications, 12(7), 1329-1343.
Enbody, E. D., Sendell-Price, A. T., Sprehn, C. G., Rubin, C. J., Visscher, P. M., Grant, B. R., ... & Andersson, L. (2022). Large effect loci have a prominent role in Darwin’s finch evolution. bioRxiv, 2022-10.
Funk, E. R., & Burns, K. J. (2018). Biogeographic origins of Darwin's finches (Thraupidae: Coerebinae). The Auk: Ornithological Advances, 135(3), 561-571.
Harvey, J. A., Chernicky, K., Simons, S. R., Verrett, T. B., Chaves, J. A., & Knutie, S. A. (2021). Urban living influences the nesting success of Darwin’s finches in the Galápagos Islands. Ecology and Evolution, 11(10), 5038-5048.
Hervías-Parejo, S., Olesen, J. M., Nogales, M., Traveset, A., & Heleno, R. (2019). Dispersal of fern spores by Galápagos finches. Journal of Ornithology, 160, 831-833.
Knutie, S. A., Chaves, J. A., & Gotanda, K. M. (2019). Human activity can influence the gut microbiota of Darwin's finches in the Galapagos Islands. Molecular ecology, 28(9), 2441-2450.
Lawson, L. P., Niedzwiecki, J., & Petren, K. (2019). Darwin's finches: a model of landscape effects on metacommunity dynamics in the Galápagos Archipelago. Ecography, 42(10), 1636-1647.
Long, K. L., Prothero, D. R., & Syverson, V. J. (2020). How do small birds evolve in response to climate change? Data from the long‐term record at La Brea tar pits. Integrative Zoology, 15(4), 249-261.
Ranganath, H. A. (2018). Darwin’s finches: a goldmine for evolutionary biologists. Journal of Genetics, 97(4), 807-809.
Reaney, A. M., Bouchenak‐Khelladi, Y., Tobias, J. A., & Abzhanov, A. (2020). Ecological and morphological determinants of evolutionary diversification in Darwin's finches and their relatives. Ecology and Evolution, 10(24), 14020-14032.
Román‐Palacios, C., & Wiens, J. J. (2018). The Tortoise and the Finch: Testing for island effects on diversification using two iconic Galápagos radiations. Journal of biogeography, 45(8), 1701-1712.
Rubin, C. J., Enbody, E. D., Dobreva, M. P., Abzhanov, A., Davis, B. W., Lamichhaney, S., ... & Andersson, L. (2022). Rapid adaptive radiation of Darwin’s finches depends on ancestral genetic modules. Science Advances, 8(27), eabm5982.
Tattersall, G. J., Chaves, J. A., & Danner, R. M. (2018). Thermoregulatory windows in Darwin's finches. Functional Ecology, 32(2), 358-368.
Thanks for listening! (also I meant to say "La" Niña not "El" Niña!)
Follow me on instagram: matt.rossella
Support the podcast: patreon.com/blurbs439
References:
Abzhanov, A. (2010). Darwin's Galapagos finches in modern biology. Philosophical Transactions of the Royal Society B: Biological Sciences, 365(1543), 1001-1007.
Beausoleil, M. O., Lorena Carrión-Avilés, P., Podos, J., Camacho, C., Rabadán-González, J., Richard, R., ... & Hendry, A. P. (2023). The fitness landscape of a community of Darwin’s finches. Evolution, qpad160.
Carrión, P. L., Raeymaekers, J. A., De León, L. F., Chaves, J. A., Sharpe, D. M., Huber, S. K., ... & Hendry, A. P. (2022). The terroir of the finch: How spatial and temporal variation shapes phenotypic traits in DARWIN'S finches. Ecology and Evolution, 12(10), e9399.
Carvajal‐Endara, S., Hendry, A. P., Emery, N. C., Neu, C. P., Carmona, D., Gotanda, K. M., ... & Johnson, M. T. (2020). The ecology and evolution of seed predation by Darwin's finches on Tribulus cistoides on the Galápagos Islands. Ecological monographs, 90(1), e01392.
De León, L. F., Sharpe, D. M., Gotanda, K. M., Raeymaekers, J. A., Chaves, J. A., Hendry, A. P., & Podos, J. (2019). Urbanization erodes niche segregation in Darwin's finches. Evolutionary Applications, 12(7), 1329-1343.
Enbody, E. D., Sendell-Price, A. T., Sprehn, C. G., Rubin, C. J., Visscher, P. M., Grant, B. R., ... & Andersson, L. (2022). Large effect loci have a prominent role in Darwin’s finch evolution. bioRxiv, 2022-10.
Funk, E. R., & Burns, K. J. (2018). Biogeographic origins of Darwin's finches (Thraupidae: Coerebinae). The Auk: Ornithological Advances, 135(3), 561-571.
Harvey, J. A., Chernicky, K., Simons, S. R., Verrett, T. B., Chaves, J. A., & Knutie, S. A. (2021). Urban living influences the nesting success of Darwin’s finches in the Galápagos Islands. Ecology and Evolution, 11(10), 5038-5048.
Hervías-Parejo, S., Olesen, J. M., Nogales, M., Traveset, A., & Heleno, R. (2019). Dispersal of fern spores by Galápagos finches. Journal of Ornithology, 160, 831-833.
Knutie, S. A., Chaves, J. A., & Gotanda, K. M. (2019). Human activity can influence the gut microbiota of Darwin's finches in the Galapagos Islands. Molecular ecology, 28(9), 2441-2450.
Lawson, L. P., Niedzwiecki, J., & Petren, K. (2019). Darwin's finches: a model of landscape effects on metacommunity dynamics in the Galápagos Archipelago. Ecography, 42(10), 1636-1647.
Long, K. L., Prothero, D. R., & Syverson, V. J. (2020). How do small birds evolve in response to climate change? Data from the long‐term record at La Brea tar pits. Integrative Zoology, 15(4), 249-261.
Ranganath, H. A. (2018). Darwin’s finches: a goldmine for evolutionary biologists. Journal of Genetics, 97(4), 807-809.
Reaney, A. M., Bouchenak‐Khelladi, Y., Tobias, J. A., & Abzhanov, A. (2020). Ecological and morphological determinants of evolutionary diversification in Darwin's finches and their relatives. Ecology and Evolution, 10(24), 14020-14032.
Román‐Palacios, C., & Wiens, J. J. (2018). The Tortoise and the Finch: Testing for island effects on diversification using two iconic Galápagos radiations. Journal of biogeography, 45(8), 1701-1712.
Rubin, C. J., Enbody, E. D., Dobreva, M. P., Abzhanov, A., Davis, B. W., Lamichhaney, S., ... & Andersson, L. (2022). Rapid adaptive radiation of Darwin’s finches depends on ancestral genetic modules. Science Advances, 8(27), eabm5982.
Tattersall, G. J., Chaves, J. A., & Danner, R. M. (2018). Thermoregulatory windows in Darwin's finches. Functional Ecology, 32(2), 358-368.