Physiological Pathways to Rapid Prosocial Evolution

Dogs (Canis lupus familiaris) descend from wolves (Canis lupus) sharing the same ecological niche of cooperative hunters, as humans. Initially, humans and wolves were competitors starting interspecific communication in order to avoid risk of injury. The evolutionary continuity of mammalian brains en...

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Bibliographic Details
Published in:Biologia Futura
Main Authors: Pörtl, Daniela, Jung, Christoph
Format: Article in Journal/Newspaper
Language:Hungarian
Published: Akadémiai Kiadó 2019
Subjects:
QH Natural history / természetrajz
Canis lupus
Online Access:http://real.mtak.hu/132958/
http://real.mtak.hu/132958/1/%5B26768607%20-%20Biologia%20Futura%5D%20Physiological%20pathways%20to%20rapid%20prosocial%20evolution.pdf
https://doi.org/10.1556/019.70.2019.12
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record_format openpolar
spelling ftmtak:oai:real.mtak.hu:132958 2023-05-15T15:49:43+02:00 Physiological Pathways to Rapid Prosocial Evolution Pörtl, Daniela Jung, Christoph 2019 text http://real.mtak.hu/132958/ http://real.mtak.hu/132958/1/%5B26768607%20-%20Biologia%20Futura%5D%20Physiological%20pathways%20to%20rapid%20prosocial%20evolution.pdf https://doi.org/10.1556/019.70.2019.12 hu hun Akadémiai Kiadó http://real.mtak.hu/132958/1/%5B26768607%20-%20Biologia%20Futura%5D%20Physiological%20pathways%20to%20rapid%20prosocial%20evolution.pdf Pörtl, Daniela and Jung, Christoph (2019) Physiological Pathways to Rapid Prosocial Evolution. BIOLOGIA FUTURA, 70 (2). pp. 93-102. ISSN 2676-8615 (print); 2676-8607 (online) QH Natural history / természetrajz Article PeerReviewed info:eu-repo/semantics/article 2019 ftmtak https://doi.org/10.1556/019.70.2019.12 2021-10-27T23:15:13Z Dogs (Canis lupus familiaris) descend from wolves (Canis lupus) sharing the same ecological niche of cooperative hunters, as humans. Initially, humans and wolves were competitors starting interspecific communication in order to avoid risk of injury. The evolutionary continuity of mammalian brains enabled interspecific prosocial contacts between both of them, which reduced stress, and enabled behavioral cultures leading to genetic isolation of those wolves. Dogs are the first domesticated animal living together with humans for about 25,000 years. Domestication means decreased aggression and flight distance toward humans, thus changes in the stress axis are crucial. The hypothesis of Active Social Domestication considers genetic selection as a necessary prediction but not a sufficient explanation of dog domestication. In addition, dog domestication is suggested to be an epigenetic disclosure. Due to changed stress activity, epigenetic mechanisms affect cerebral receptor activity and regulate transposon expressions, thus shaping brain function and behavior. Interspecific prosocial contacts initiated via serotonin release an enzymatic cascade enhancing, epigenetically, the glucocorticoid negative feedback loop. Reduced chronic stress improved social learning capability and inhibitory control. Over time, those wolves could integrate themselves into human social structures, thus becoming dogs. In analogy, human mental skills, such as creating art and culture, might have also improved during the Upper Paleolithic. Article in Journal/Newspaper Canis lupus MTAK: REAL (Library and Information Centre of the Hungarian Academy of Sciences Biologia Futura 70 2 93 102
institution Open Polar
collection MTAK: REAL (Library and Information Centre of the Hungarian Academy of Sciences
op_collection_id ftmtak
language Hungarian
topic QH Natural history / természetrajz
spellingShingle QH Natural history / természetrajz
Pörtl, Daniela
Jung, Christoph
Physiological Pathways to Rapid Prosocial Evolution
topic_facet QH Natural history / természetrajz
description Dogs (Canis lupus familiaris) descend from wolves (Canis lupus) sharing the same ecological niche of cooperative hunters, as humans. Initially, humans and wolves were competitors starting interspecific communication in order to avoid risk of injury. The evolutionary continuity of mammalian brains enabled interspecific prosocial contacts between both of them, which reduced stress, and enabled behavioral cultures leading to genetic isolation of those wolves. Dogs are the first domesticated animal living together with humans for about 25,000 years. Domestication means decreased aggression and flight distance toward humans, thus changes in the stress axis are crucial. The hypothesis of Active Social Domestication considers genetic selection as a necessary prediction but not a sufficient explanation of dog domestication. In addition, dog domestication is suggested to be an epigenetic disclosure. Due to changed stress activity, epigenetic mechanisms affect cerebral receptor activity and regulate transposon expressions, thus shaping brain function and behavior. Interspecific prosocial contacts initiated via serotonin release an enzymatic cascade enhancing, epigenetically, the glucocorticoid negative feedback loop. Reduced chronic stress improved social learning capability and inhibitory control. Over time, those wolves could integrate themselves into human social structures, thus becoming dogs. In analogy, human mental skills, such as creating art and culture, might have also improved during the Upper Paleolithic.
format Article in Journal/Newspaper
author Pörtl, Daniela
Jung, Christoph
author_facet Pörtl, Daniela
Jung, Christoph
author_sort Pörtl, Daniela
title Physiological Pathways to Rapid Prosocial Evolution
title_short Physiological Pathways to Rapid Prosocial Evolution
title_full Physiological Pathways to Rapid Prosocial Evolution
title_fullStr Physiological Pathways to Rapid Prosocial Evolution
title_full_unstemmed Physiological Pathways to Rapid Prosocial Evolution
title_sort physiological pathways to rapid prosocial evolution
publisher Akadémiai Kiadó
publishDate 2019
url http://real.mtak.hu/132958/
http://real.mtak.hu/132958/1/%5B26768607%20-%20Biologia%20Futura%5D%20Physiological%20pathways%20to%20rapid%20prosocial%20evolution.pdf
https://doi.org/10.1556/019.70.2019.12
genre Canis lupus
genre_facet Canis lupus
op_relation http://real.mtak.hu/132958/1/%5B26768607%20-%20Biologia%20Futura%5D%20Physiological%20pathways%20to%20rapid%20prosocial%20evolution.pdf
Pörtl, Daniela and Jung, Christoph (2019) Physiological Pathways to Rapid Prosocial Evolution. BIOLOGIA FUTURA, 70 (2). pp. 93-102. ISSN 2676-8615 (print); 2676-8607 (online)
op_doi https://doi.org/10.1556/019.70.2019.12
container_title Biologia Futura
container_volume 70
container_issue 2
container_start_page 93
op_container_end_page 102
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