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References
Andics, A., Gábor, A., Gácsi, M., Faragó, T., Szabó, D., Miklósi, A. (2016) Neural mechanisms for lexical processing in dogs. Science 353(6303), 1030–1032.
Andics, A., Gácsi, M., Faragó, T., Kis, A., Miklósi, Á. (2014) Voice-sensitive regions in the dog and human brain are revealed by comparative fMRI. Curr. Biol. 24(5), 574–578.
Bateson, P., Laland, K. N. (2013) Tinbergen’s four questions: an appreciation and an update. Trends Ecol. Evol. 28(12), 712–718.
Bonanni, R., Valsecchi, P., Natoli, E. (2010) Pattern of individual participation and cheating in conflicts between groups of free-ranging dogs. Anim. Behav. 79(4), 957–968.
Czeibert, K., Andics, A., Petneházy, Ö., Kubinyi, E. (2019) A detailed canine brain label map for neuroimaging analysis. Biol. Fut. 70(2), 112–120.
Driscoll, C. A., Macdonald, D. W., O’Brien, S. J. (2009) From wild animals to domestic pets, an evolutionary view of domestication. Proc. Natl. Acad. Sci U. SA. 106, 9971–9978.
Gábor, A., Kaszás, N., Miklósi, Á., Faragó, T., Andics, A. (2019) Interspecific voice discrimination in dogs. Biol. Fut. 70(2), 121–127.
Gunter, L. M., Feuerbacher, E. N., Gilchrist, R. J., Wynne, C. D. (2019) Evaluating the effects of a temporary fostering program on shelter dog welfare. PeerJ 7, e6620.
Hare, B., Rosati, A., Kaminski, J., Bräuer, J., Call, J., Tomasello, M. (2010) The domestication hypothesis for dogs’ skills with human communication: a response to Udell et al. (2008) and Wynne et al. (2008). Anim. Behav. 79(2), e1–e6.
Hiby, E. F., Rooney, N. J., Bradshaw, J. W. S. (2004) Dog training methods: their use, effectiveness and interaction with behaviour and welfare. Anim. Welf. 13(1), 63–70.
Iotchev, I. B., Egerer, A., Grafe, S., Adorján, A., Kubinyi, E. (2019) Encounters between pairs of unfamiliar dogs in a dog park. Biol. Fut. 70(2), 156–165.
Kaminski, J., Pitsch, A., Tomasello, M. (2013) Dogs steal in the dark. Anim. Cogn. 16(3), 385–394.
Kiss, O., Topál, J. (2019) How do dogs monitor the human’s attentional state after challenged by the presence of forbidden food? Biol. Fut. 70(2), 103–111.
Larson, G., Karlsson, E. K., Perri, A., Webster, M. T., Ho, S. Y., Peters, J., Stahl, P. W., Piper, P. J., Lingaas, F., Fredholm, M., Comstock, K. E., Modiano, J. F., Schelling, C., Agoulnik, A. L, Leegwater, P. A., Dobney, K., Vigne, J. D., Vilà, C., Andersson, L., Lindblad-Toh, K. (2012) Rethinking dog domestication by integrating genetics, archeology, and biogeography. Proc. Natl. Acad. Sci. 109(23), 8878–8883.
Lenkei, R., Pogány, A., Fugazza, C. (2019) Social behaviour in dog puppies: breed differences and the effect of rearing conditions. Biol. Fut. 70(2), 134–142.
MacHugh, D. E., Larson, G., Orlando, L. (2017) Taming the past: ancient DNA and the study of animal domestication. Ann. Rev. Anim. Biosci. 5, 329–351.
Meaney, M. J., Szyf, M. (2005) Maternal care as a model for experience-dependent chromatin plasticity? Trends Neurosci. 28, 456–463.
Miklósi, A., Topál, J. (2013) What does it take to become “best friends’? Evolutionary changes in canine social competence. Trends Cogn. Sci. 17, 287–294.
O’Hara, S. J., Worsley, H. K. (2019) A cost-effective, simple measure of emotional response in the brain for use by behavioural biologists. Biol. Fut. 70(2), 143–148.
Polgár, Z., Miklósi, A., Gácsi, M. (2015) Strategies used by pet dogs for solving olfaction-based problems at various distances. PLoS One 10, e0131610.
Pollinger, J. P., Vonholdt, B. M., Lohmueller, K. E., Han, E., Parker, H. G., Quignon, P., Degenhardt, J. D., Boyko, A. R., Earl, D. A., Auton, A., Reynolds, A., Bryc, K., Brisbin, A., Knowles, J. C, Mosher, D. S., Spady, T. C., Elkahloun, A., Geffen, E., Pilot, M., Jedrzejewski, W., Greco, C., Randi, E., Bannasch, D., Wilton, A., Shearman, J., Musiani, M., Cargill, M., Jones, P. G., Qian, Z., Huang, W., Ding, Z. L., Zhang, Y. P., Bustamante, C. D., Ostrander, E. A., Novembre, J., Wayne, R. K. (2010) Genome-wide SNP and haplotype analyses reveal a rich history underlying dog domestication. Nature 464(7290), 898.
Pongrácz, P. (2017) Modeling evolutionary changes in information transfer: effects of domestication on the vocal communication of dogs (Canis familiaris). Eur. Psychol. 22, 219–232.
Pongrácz, P., Szabó, É., Kis, A., Péter, A., Miklósi, Á. (2014) More than noise? - field investigations of intraspecific acoustic communication in dogs (Canis familiaris). Appl. Anim. Behav. Sci. 159, 62–68.
Pörtl, D., Jung, C. (2019) Physiological pathways to rapid prosocial evolution. Biol. Fut. 70(2) 93–102.
Proops, L., McComb, K. (2012) Cross-modal individual recognition in domestic horses (Equus caballus) extends to familiar humans. Proc. R. Soc. B Biol. Sci. 279(1741), 3131–3138.
Reem, N. (2019) Shelter-housed versus re-homed dogs: adjustment, behavior, and adoption outcomes. Biol. Fut. 70(2), 149–155.
Rudin, F. S., Simmons, L. W., & Tomkins, J. L. (2019) Social cues affect quantitative genetic variation and covariation in animal personality traits. Evolution 73(3), 540–553.
Savolainen, P., Zhang, Y. P., Luo, J., Lundeberg, J., Leitner, T. (2002) Genetic evidence for an East Asian origin of domestic dogs. Science 298(5598), 1610–1613.
Shorter, K., Brown, W. (2019) Ground force kinetic adaptations associated with canine boots. Biol. Fut. 70(2), 128–133.
Tibbetts, E. A., Dale, J. (2007) Individual recognition: it is good to be different. Trends Ecol. Evol. 22(10), 529–537.
Topál, J., Gergely, Gy., Erdhegyi, A., Csibra, G., Miklósi, A. (2009a) Differential sensitivity to human communication in dogs, wolves, and human infants. Science 325, 1269–1272.
Topál, J., Miklósi, A., Gácsi, M., Dóka, A., Pongrácz, P., Kubinyi, E., Virányi, Zs., Csányi, V. (2009b) The dog as a model for understanding human social behavior. Adv. Study Anim. Behav. 39, 71–116.
Trut, L., Oskina, I., Kharlamova, A. (2009) Animal evolution during domestication: the domesticated fox as a model. BioEssays 31, 349–360.
Trut, L. N., Plyusnina, I. Z., Oskina, I. N. (2004) An experiment on fox domestication and debatable issues of evolution of the dog. Russ. J. Genet. 40(6), 644–655.
Udell, M. A., Dorey, N. R., Wynne, C. D. (2010) What did domestication do to dogs? A new account of dogs’ sensitivity to human actions. Biol. Rev. 85(2), 327–345.
Wang, G. D., Zhai, W., Yang, H. C., Fan, R. X., Cao, X., Zhong, L., Wang, L., Liu, F., Wu, H., Cheng, L. G., Poyarkov, A. D., Poyarkov, N. A., Tang, S. S., Zhao, W. M., Gao, Y., Lv, X. M., Irwin, D. M., Savolainen, P., Wu, C. I., Zhang, Y. P. (2013) The genomics of selection in dogs and the parallel evolution between dogs and humans. Nat. Commun. 4, 1860.
Wayne, R. K., Ostrander, E. A. (2007) Lessons learned from the dog genome. Trends Genet. 23(11), 557–567.
Winslow, T., Payne, S. W., Massoudi, K. A. (2018) Functional analysis and treatment of problem behavior in 3 animal shelter dogs. J. Vet. Behav. 26, 27–37.
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Pongrácz, P. The future of biology from a canine perspective. BIOLOGIA FUTURA 70, 89–92 (2019). https://doi.org/10.1556/019.70.2019.11
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DOI: https://doi.org/10.1556/019.70.2019.11