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Journal articles on the topic 'Feralization'

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Published: 2 June 2025
Last updated: 31 July 2025

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1

Valayden, Diren. "Racial Feralization: Targeting Race in the Age of ‘Planetary Urbanization’." Theory, Culture & Society 33, no. 7-8 (2016): 159–82. http://dx.doi.org/10.1177/0263276416668976.

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In this article, I propose the concept of racial feralization to explain the links between planetary urbanization, risk societies and race. The threat of racial feralization – as an apocalyptic eschatology of regression and the unraveling of the species – has always animated and conditioned the emergence of the discourse of ‘Man’ as well as the concept of race. The history of racism, that is, is also a history of responses to possible catastrophic consequences of progress and modernization. A major shift has occurred in the last 25 years or so. Racial feralization is not simply treated as a co
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2

Mitchell, David T., and Sharon L. Snyder. "Compulsory Feralization: Institutionalizing Disability Studies." PMLA/Publications of the Modern Language Association of America 120, no. 2 (2005): 627–34. http://dx.doi.org/10.1632/s0030812900168038.

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While disability studies has opened up new discursive spaces for revising cultural attitudes and beliefs about disability, its increasing legitimation in the contemporary academy comes with conflicts. The university as a research location cannot merely divorce itself from the ethical and restrictive practices that have characterized the past two centuries. In fact, it does so only at its own risk and, even more important, at the risk of further entrenching disabled people in its institutional grounding. The institutionalization of disability studies is just that—a formal cultural ingestion pro
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3

Daniels, Thomas J., and Marc Bekoff. "Feralization: The making of wild domestic animals." Behavioural Processes 19, no. 1-3 (1989): 79–94. http://dx.doi.org/10.1016/0376-6357(89)90032-6.

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4

Göttert, Thomas, and Gad Perry. "Going Wild in the City—Animal Feralization and Its Impacts on Biodiversity in Urban Environments." Animals 13, no. 4 (2023): 747. http://dx.doi.org/10.3390/ani13040747.

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Domestication describes a range of changes to wild species as they are increasingly brought under human selection and husbandry. Feralization is the process whereby a species leaves the human sphere and undergoes increasing natural selection in a wild context, which may or may not be geographically adjacent to where the originator wild species evolved prior to domestication. Distinguishing between domestic, feral, and wild species can be difficult, since some populations of so-called “wild species” are at least partly descended from domesticated “populations” (e.g., junglefowl, European wild s
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5

Mabry, Makenzie E., Troy N. Rowan, J. Chris Pires, and Jared E. Decker. "Feralization: Confronting the Complexity of Domestication and Evolution." Trends in Genetics 37, no. 4 (2021): 302–5. http://dx.doi.org/10.1016/j.tig.2021.01.005.

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6

TAKAHASHI, Shunjo. "Distribution and Process of Feralization of Feral Pigs." Geographical Review of Japa,. Ser. A, Chirigaku Hyoron 62, no. 7 (1989): 513–37. http://dx.doi.org/10.4157/grj1984a.62.7_513.

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7

Scossa, Federico, and Alisdair R. Fernie. "When a Crop Goes Back to the Wild: Feralization." Trends in Plant Science 26, no. 6 (2021): 543–45. http://dx.doi.org/10.1016/j.tplants.2021.02.002.

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8

Page, Anna, Jane Gibson, Rachel S. Meyer, and Mark A. Chapman. "Eggplant Domestication: Pervasive Gene Flow, Feralization, and Transcriptomic Divergence." Molecular Biology and Evolution 36, no. 7 (2019): 1359–72. http://dx.doi.org/10.1093/molbev/msz062.

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9

Gering, Eben, Darren Incorvaia, Rie Henriksen, Jeffrey Conner, Thomas Getty, and Dominic Wright. "Getting Back to Nature: Feralization in Animals and Plants." Trends in Ecology & Evolution 34, no. 12 (2019): 1137–51. http://dx.doi.org/10.1016/j.tree.2019.07.018.

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10

Cong, Yunqi, Yijie Gui, Kaicheng Yong, et al. "Deciphering rice feralization: insights from genomics of weedy rice." Genomics Communications 2, no. 1 (2025): 0. https://doi.org/10.48130/gcomm-0025-0007.

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11

Neaux, Dimitri, Gabriele Sansalone, François Lecompte, et al. "Examining the effect of feralization on craniomandibular morphology in pigs, Sus scrofa (Artiodactyla: Suidae)." Biological Journal of the Linnean Society 131, no. 4 (2020): 870–79. http://dx.doi.org/10.1093/biolinnean/blaa156.

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Abstract Feralization is the process by which domestic animals return to the wild and produce self-sustaining populations. It is often considered as a model in understanding the permanence of morphological changes associated with domestication; however, it is still unclear how much the release of anthropogenic selective pressures affects domestic traits. Here, we assessed the influence of feralization on the domestic morphological traits acquired through selective breeding using craniomandibular differences in shape and size between populations of feral pigs, wild boar and domestic pigs, using
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12

Nieto-Blázquez, María Esther, Manuela Gómez-Suárez, Markus Pfenninger, and Katrin Koch. "Impact of feralization on evolutionary trajectories in the genomes of feral cat island populations." PLOS ONE 19, no. 8 (2024): e0308724. http://dx.doi.org/10.1371/journal.pone.0308724.

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Feralization is the process of domesticated animals returning to the wild and it is considered the counterpart of domestication. Molecular genetic changes are well documented in domesticated organisms but understudied in feral populations. In this study, the genetic differentiation between domestic and feral cats was inferred by analysing whole-genome sequencing data of two geographically distant feral cat island populations, Dirk Hartog Island (Australia) and Kaho’olawe (Hawaii) as well as domestic cats and European wildcats. The study investigated population structure, genetic differentiatio
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13

Rakhimov, I. I., E. Sh Shamsuvaleeva, and A. V. Arinina. "Ecological role of homeless dogs in anthropogenic territories." E3S Web of Conferences 265 (2021): 01009. http://dx.doi.org/10.1051/e3sconf/202126501009.

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The article presents materials of long-term observations for homeless dogs in the territory of the Republic of Tatarstan. Dogs that have passed the path of their domestication are currently showing the opposite process - feralization. According to unofficial data, there are tens of thousands of stray animals in Kazan alone. As the dominant land-based predators, and not only in cities, but also in the suburbs of settlements, they pose a threat to biodiversity in various ecosystems. Stray dogs are indicated as a limiting factor for the large jerboa and speckled ground squirrel included in the Re
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14

Grange, Sophie, Patrick Duncan, and Jean-Michel Gaillard. "Poor horse traders: large mammals trade survival for reproduction during the process of feralization." Proceedings of the Royal Society B: Biological Sciences 276, no. 1663 (2009): 1911–19. http://dx.doi.org/10.1098/rspb.2008.1828.

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We investigated density dependence on the demographic parameters of a population of Camargue horses ( Equus caballus ), individually monitored and unmanaged for eight years. We also analysed the contributions of individual demographic parameters to changes in the population growth rates. The decrease in resources caused a loss of body condition. Adult male survival was not affected, but the survival of foals and adult females decreased with increasing density. Prime-aged females maintained high reproductive performance at high density, and their survival decreased. The higher survival of adult
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Nieto-Blázquez, María Esther, Manuela Gómez-Suárez, Markus Pfenninger, and Katrin Koch. "Correction: Impact of feralization on evolutionary trajectories in the genomes of feral cat island populations." PLOS ONE 20, no. 3 (2025): e0320028. https://doi.org/10.1371/journal.pone.0320028.

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16

Neaux, Dimitri, Gabriele Sansalone, François Lecompte, Ashleigh Haruda, Renate Schafberg, and Thomas Cucchi. "Corrigendum to: Examining the effect of feralization on craniomandibular morphology in pigs, Sus scrofa (Artiodactyla: Suidae)." Biological Journal of the Linnean Society 133, no. 1 (2021): 249. http://dx.doi.org/10.1093/biolinnean/blab044.

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17

Wang, Hongru, Filipe G. Vieira, Jacob E. Crawford, Chengcai Chu, and Rasmus Nielsen. "Asian wild rice is a hybrid swarm with extensive gene flow and feralization from domesticated rice." Genome Research 27, no. 6 (2017): 1029–38. http://dx.doi.org/10.1101/gr.204800.116.

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18

Souquet, Louise, Pascale Chevret, Guila Ganem, et al. "Back to the wild: does feralization affect the mandible of non-commensal house mice (Mus musculus domesticus)?" Biological Journal of the Linnean Society 126, no. 3 (2019): 471–86. http://dx.doi.org/10.1093/biolinnean/bly218.

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19

Kruska, Dieter C. T. "On the Evolutionary Significance of Encephalization in Some Eutherian Mammals: Effects of Adaptive Radiation, Domestication, and Feralization." Brain, Behavior and Evolution 65, no. 2 (2005): 73–108. http://dx.doi.org/10.1159/000082979.

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20

Hattori, Madoka, Atsuko Saito, Miho Nagasawa, Takefumi Kikusui, and Shinya Yamamoto. "Changes in Cat Facial Morphology Are Related to Interaction with Humans." Animals 12, no. 24 (2022): 3493. http://dx.doi.org/10.3390/ani12243493.

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We aimed to clarify the changes in facial morphology of cats in relation to their interactions with humans. In Study 1, we compared the facial morphology of cats (feral mixed breed, owned domestic mixed breed, and owned domestic purebreds) with that of African wildcats. After collecting 3295 photos, we found that owned domestic cats’ noses were significantly shorter than those of African wildcats and feral mixed breed, and there were no significant differences between the latter two. The eye angles were significantly more gradual in owned domestic purebreds than in the other groups. In Study 2
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21

Amaravathi, D., and M.S.Reddy. "Characterization and Expression of Immune Related Genes in Feral Colonies of Apis Species from Bengaluru." International Journal of Multidisciplinary Research and Analysis 05, no. 02 (2022): 568–78. https://doi.org/10.5281/zenodo.6324820.

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Eco-immunological studies on feral organisms can throw insights into how host–pathogen dynamics fluctuate with selective pressure from human interventions and other natural infestations. Feral colonies are more susceptible to pathogen attack than the managed bees, in the absence of disease treatments. During the study tried to investigate the role of pathogen infections [Deformed wing virus (DWV) and Nosema ceranae] and gene expression of immune members (defensin-1, hymenoptaecin, pgrp-lc, pgrp-s2 and argonaute- 2) in the survival of feral bee colonies across seasons (winter and summer).
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22

McAlvay, Alex C., Aaron P. Ragsdale, Makenzie E. Mabry, et al. "Brassica rapa Domestication: Untangling Wild and Feral Forms and Convergence of Crop Morphotypes." Molecular Biology and Evolution 38, no. 8 (2021): 3358–72. http://dx.doi.org/10.1093/molbev/msab108.

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Abstract The study of domestication contributes to our knowledge of evolution and crop genetic resources. Human selection has shaped wild Brassica rapa into diverse turnip, leafy, and oilseed crops. Despite its worldwide economic importance and potential as a model for understanding diversification under domestication, insights into the number of domestication events and initial crop(s) domesticated in B. rapa have been limited due to a lack of clarity about the wild or feral status of conspecific noncrop relatives. To address this gap and reconstruct the domestication history of B. rapa, we a
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23

Travers, Steven E., D. Bryan Bishop, and Cynthia L. Sagers. "Persistence of genetically engineered canola populations in the U.S. and the adventitious presence of transgenes in the environment." PLOS ONE 19, no. 5 (2024): e0295489. http://dx.doi.org/10.1371/journal.pone.0295489.

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Feralization of genetically engineered (GE) crops increases the risk that transgenes will become integrated into natural and naturalizing plant populations. A key assumption of the management of GE crops is that populations of escaped plants are short-lived and therefore the risks they pose are limited. However, few populations of escaped crop plants have been tracked over the long term so our understanding of their persistence in ruderal or natural landscapes is limited. We repeated a large-scale road survey of feral GE canola populations in North Dakota, USA, initially conducted in 2010. Our
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24

Cera, Agostino. "The Technocene or Technology as (Neo)Environment." Techné: Research in Philosophy and Technology 21, no. 2 (2017): 243–81. http://dx.doi.org/10.5840/techne201710472.

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Abstract: While putting forward the proposal of a “philosophy of technology in the nominative case,” grounded on the concept of Neoenvironmentality, this paper intends to argue that the best definition of our current age is not “Anthropocene.” Rather, it is “Technocene,” since technology represents here and now the real “subject of history” and of (a de-natured) nature, i.e. the (neo)environment where man has to live.This proposal culminates in a new definition of man’s humanity and of technology. Switching from natura hominis to conditio humana, the peculiarity of man can be defined on the ba
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25

Wall, Tyler. "The police invention of humanity: Notes on the “thin blue line”." Crime, Media, Culture: An International Journal 16, no. 3 (2019): 319–36. http://dx.doi.org/10.1177/1741659019873757.

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This article unpacks the idea of police as a “thin blue line” as narrating a story about the police invention of the human through a civilizing and exterminating war against beasts. To speak in the name of the “thin blue line,” then, is to articulate the police as the primary force which secures, or makes possible, all the things said to be at the core of “human” existence: liberty, security, property, sociality, accumulation, law, civility, and even happiness. The current project is less a history of the thin blue line slogan than a more conceptually grounded sketch, and abolitionist critique
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26

Arnesen, Henriette, Turhan Markussen, George Birchenough, et al. "Microbial experience through housing in a farmyard-type environment alters intestinal barrier properties in mouse colons." Scientific Reports 13, no. 1 (2023). http://dx.doi.org/10.1038/s41598-023-40640-5.

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AbstractTo close the gap between ultra-hygienic research mouse models and the much more environmentally exposed conditions of humans, we have established a system where laboratory mice are raised under a full set of environmental factors present in a naturalistic, farmyard-type habitat—a process we have called feralization. In previous studies we have shown that feralized (Fer) mice were protected against colorectal cancer when compared to conventionally reared laboratory mice (Lab). However, the protective mechanisms remain to be elucidated. Disruption of the protective intestinal barrier is
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27

Sherratt, Emma, Christine Böhmer, Cécile Callou, et al. "From wild to domestic and in between: how domestication and feralization changed the morphology of rabbits." Proceedings of the Royal Society B: Biological Sciences 292, no. 2050 (2025). https://doi.org/10.1098/rspb.2025.1150.

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One of the world’s most recognizable domestic animals is the rabbit, domesticated from the European rabbit. Domestication can drive morphospace expansion into novel phenotypes not observed in their wild counterparts; the consequences of feralization are less understood. Through these processes, we examine how humans have inadvertently driven great morphological change in this species. Characterizing skull morphological variation in a global sample of 912 wild, feral and domesticated specimens, we show that both domestication and feralization of rabbits have resulted in novel morphologies that
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28

Zhou, Chengchuan, Yang Feng, Gengyun Li, et al. "The New Is Old: Novel Germination Strategy Evolved From Standing Genetic Variation in Weedy Rice." Frontiers in Plant Science 12 (June 21, 2021). http://dx.doi.org/10.3389/fpls.2021.699464.

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Feralization of crop plants has aroused an increasing interest in recent years, not only for the reduced yield and quality of crop production caused by feral plants but also for the rapid evolution of novel traits that facilitate the evolution and persistence of weedy forms. Weedy rice (Oryza sativa f. spontanea) is a conspecific weed of cultivated rice, with separate and independent origins. The weedy rice distributed in eastern and northeastern China did not diverge from their cultivated ancestors by reverting to the pre-domestication trait of seed dormancy during feralization. Instead, they
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Ashari, Hidayat, Li‐Sheng Liu, Muhammad Ihsan Andi Dagong, et al. "Genome sequencing and assembly of feral chickens in the wild of Sulawesi, Indonesia." Animal Genetics 56, no. 1 (2024). https://doi.org/10.1111/age.13497.

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AbstractThe feralization of domestic chicken makes the conservation and management of red jungle fowl (Gallus gallus) more complicated and challenging. We collected two Sulawesi feral chickens, located east of the Wallace Line, for whole‐genome sequencing and de novo genome assembly. Phylogenetic and f4‐statistics analyses indicated that the Sulawesi feralized domestic chickens (G. g. domesticus) received gene flow from G. g. gallus. We integrated ~45× ultra‐long Oxford Nanopore Technology reads and ~28× PacBio HiFi reads to generate a de novo genome assembly of a female Sulawesi feral chicken
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30

Mysterud, Atle, Øystein Flagstad, and Olav Strand. "Feralization: A threat to conservation of wild reindeer." Conservation Science and Practice, March 13, 2024. http://dx.doi.org/10.1111/csp2.13105.

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AbstractConservation reintroduction is an increasingly applied tool for population restoration. The choice of source population is important from a conservation genetic perspective, but there is ambiguity in IUCN policies surrounding reintroductions from (semi‐)domestic sources. After the depopulation of an entire wild reindeer population due to detection of chronic wasting disease in Norway, the plan is to re‐establish reindeer after years of fallowing. Establishing wild reindeer has become challenging due to arguments for disease control favoring a semidomestic origin of the reintroduced sto
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31

Niego, Amy, and Antonio Benítez-Burraco. "Are feralization and domestication truly mirror processes?" Ethology Ecology & Evolution, December 28, 2021, 1–34. http://dx.doi.org/10.1080/03949370.2021.1975314.

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32

Qiu, Jie, Lei Jia, Dongya Wu, et al. "Diverse genetic mechanisms underlie worldwide convergent rice feralization." Genome Biology 21, no. 1 (2020). http://dx.doi.org/10.1186/s13059-020-01980-x.

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33

Cucchi, T., D. Neaux, L. Féral, et al. "How domestication, feralization and experience-dependent plasticity affect brain size variation in Sus scrofa." Royal Society Open Science 11, no. 9 (2024). http://dx.doi.org/10.1098/rsos.240951.

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Among domestic species, pigs experienced the greatest brain size reduction, but the extent and factors of this reduction remain unclear. Here, we used the brain endocast volume collected from 92 adult skulls of wild, captive, feral and domestic Sus scrofa to explore the effects of domestication, feralization and captivity over the brain size variation of this species. We found a constant brain volume increase over 24 months, while body growth slowed down from month 20. We observed an 18% brain size reduction between wild boars and pigs, disagreeing with the 30%–40% reduction previously mention
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Zhang, Shao-jie, Guo-Dong Wang, Pengcheng Ma, et al. "Genomic regions under selection in the feralization of the dingoes." Nature Communications 11, no. 1 (2020). http://dx.doi.org/10.1038/s41467-020-14515-6.

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35

Petrelli, Simona, Maria Buglione, Eleonora Rivieccio, et al. "Reprogramming of the gut microbiota following feralization in Sus scrofa." Animal Microbiome 5, no. 1 (2023). http://dx.doi.org/10.1186/s42523-023-00235-x.

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Abstract Background Wild boar has experienced several evolutionary trajectories from which domestic (under artificial selection) and the feral pig (under natural selection) originated. Strong adaptation deeply affects feral population’s morphology and physiology, including the microbiota community. The gut microbiota is generally recognized to play a crucial role in maintaining host health and metabolism. To date, it is unclear whether feral populations’ phylogeny, development stages or lifestyle have the greatest impact in shaping the gut microbiota, as well as how this can confer adaptabilit
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Zhou, Min, Muyang Wang, Weikang Yang, Yuanming Zhang, and Shen Yu. "Fecal ARGs characterized progressive feralization of Przewalski's horses via re-introduction." Global Ecology and Conservation, October 2024, e03241. http://dx.doi.org/10.1016/j.gecco.2024.e03241.

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37

Barmentlo, Niek W. G., Patrick G. Meirmans, William H. Stiver, et al. "Natural selection on feralization genes contributed to the invasive spread of wild pigs throughout the United States." Molecular Ecology, May 15, 2024. http://dx.doi.org/10.1111/mec.17383.

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AbstractDespite a long presence in the contiguous United States (US), the distribution of invasive wild pigs (Sus scrofa × domesticus) has expanded rapidly since the 1980s, suggesting a more recent evolutionary shift towards greater invasiveness. Contemporary populations of wild pigs represent exoferal hybrid descendants of domestic pigs and European wild boar, with such hybridization expected to enrich genetic diversity and increase the adaptive potential of populations. Our objective was to characterize how genetic enrichment through hybridization increases the invasiveness of populations by
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38

Gautier, Mathieu, Thierry Micol, Louise Camus, et al. "Genomic reconstruction of the successful establishment of a feralized bovine population on the subantarctic island of Amsterdam." Molecular Biology and Evolution, June 18, 2024. http://dx.doi.org/10.1093/molbev/msae121.

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Abstract The feral cattle of the subantarctic island of Amsterdam provide an outstanding case study of a large mammalian population that was established by a handful of founders and thrived within a few generations in a seemingly inhospitable environment. Here, we investigated the genetic history and composition of this population using genotyping and sequencing data. Our inference showed an intense but brief founding bottleneck around the late 19th century and revealed contributions from European taurine and Indian Ocean zebu in the founder ancestry. Comparative analysis of whole genome seque
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Tuckett, Quenton M., Kirsten N. Ressel, Jared L. Ritch, Katelyn M. Lawson, and Jeffrey E. Hill. "Domestication and feralization influence the distribution and phenotypes of escaped ornamental fish." Biological Invasions, January 5, 2021. http://dx.doi.org/10.1007/s10530-020-02415-1.

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Wu, Zeng-Yuan, Mark A. Chapman, Jie Liu, et al. "Genomic variation, environmental adaptation and feralization in ramie, an ancient fiber crop." Plant Communications, May 2024, 100942. http://dx.doi.org/10.1016/j.xplc.2024.100942.

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41

Henry, Philippe. "On Domestication and Feralization: re-rethinking invasive species from a genetic perspective." January 22, 2016. https://doi.org/10.5281/zenodo.45084.

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Zhu, Min, Kaicheng Yong, Kai Xu, et al. "Landrace introgression contributed to the recent feralization of weedy rice in East China." Plant Communications, August 2024, 101066. http://dx.doi.org/10.1016/j.xplc.2024.101066.

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43

Imaizumi, Toshiyuki, Kaworu Ebana, Yoshihiro Kawahara, et al. "Genomic divergence during feralization reveals both conserved and distinct mechanisms of parallel weediness evolution." Communications Biology 4, no. 1 (2021). http://dx.doi.org/10.1038/s42003-021-02484-5.

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AbstractAgricultural weeds are the most important biotic constraints to global crop production, and chief among these is weedy rice. Despite increasing yield losses from weedy rice in recent years worldwide, the genetic basis of weediness evolution remains unclear. Using whole-genome sequence analyses, we examined the origins and adaptation of Japanese weedy rice. We find evidence for a weed origin from tropical japonica crop ancestry, which has not previously been documented in surveys of weedy rice worldwide. We further show that adaptation occurs largely through different genetic mechanisms
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44

Wehr, Nathaniel H. "Historical range expansion and biological changes of Sus scrofa corresponding to domestication and feralization." Mammal Research, September 11, 2020. http://dx.doi.org/10.1007/s13364-020-00534-7.

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45

Niego, Amy, and Antonio Benítez-Burraco. "Revisiting the case for ‘feral’ humans under the light of the human self-domestication hypothesis: Focusing on language." Biolinguistics 16 (September 30, 2022). http://dx.doi.org/10.5964/bioling.9319.

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Contemporary descriptions of ‘feral’ children generally preclude any insightful inference about the language deficits exhibited by these children, as well as the ultimate causes of their problems with language. However, they have been regularly used to support the view that language acquisition requires a proper social environment in order to occur. In this paper, we revisit the case for ‘feral’ children with the viewpoint that human evolution entailed a process of self-domestication that parallels what we find in domesticated animals. Because feralization commonly occurs in nature and because
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46

Toledo-Guedes, Kilian, Alberto Brito, and Carlos Garcia de Leaniz. "Phenotypic Convergence in Sea Bass (Dicentrarchus labrax) Escaping From Fish Farms: The Onset of Feralization?" Frontiers in Marine Science 8 (July 1, 2021). http://dx.doi.org/10.3389/fmars.2021.674635.

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The impact of fish escaping from fish farms may depend on the extent to which escapees adapt to the natural environment, resemble wild conspecifics, and become feral. Yet, little is known about the process of feralization in marine fish. We examined phenotypic changes in body shape, body condition, and scale growth profiles of sea bass escaping from fish farms in the Canary Islands and quantified the extent to which escapees had diverged from farmed conspecifics. Most feral sea bass had sizes that overlapped with those of farmed fish, indicating that they had escaped throughout the production
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47

Tiret, M., M. ‐H Wagner, L. Gay, et al. "An Unexplored Diversity for Adaptation of Germination to High Temperatures in Brassica Species." Evolutionary Applications 18, no. 3 (2025). https://doi.org/10.1111/eva.70089.

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ABSTRACTElevated temperatures inhibit the germination of a concerning number of crop species. One strategy to mitigate the impact of warming temperatures is to identify and introgress adaptive genes into elite germplasm. Diversity must be sought in wild populations, coupled with an understanding of the complex pattern of adaptation across a broad range of landscapes. By investigating the landraces, wild, and feral populations of Algeria, Italy, France, Slovenia, Spain, and Tunisia, we assessed the response of germination to temperature increase in an unexplored diversity of 117 accessions of B
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Pan, Zhangyuan, Shengdi Li, Qiuyue Liu, et al. "Whole-genome sequences of 89 Chinese sheep suggest role of RXFP2 in the development of unique horn phenotype as response to semi-feralization." GigaScience 7, no. 4 (2018). http://dx.doi.org/10.1093/gigascience/giy019.

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Panziera, Delphine, Fabrice Requier, Panuwan Chantawannakul, Christian W. W. Pirk, and Tjeerd Blacquière. "The Diversity Decline in Wild and Managed Honey Bee Populations Urges for an Integrated Conservation Approach." Frontiers in Ecology and Evolution 10 (March 3, 2022). http://dx.doi.org/10.3389/fevo.2022.767950.

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Many parts of the globe experience severe losses and fragmentation of habitats, affecting the self-sustainability of pollinator populations. A number of bee species coexist as wild and managed populations. Using honey bees as an example, we argue that several management practices in beekeeping threaten genetic diversity in both wild and managed populations, and drive population decline. Large-scale movement of hive stocks, introductions into new areas, breeding programs and trading of queens contribute to reducing genetic diversity, as recent research demonstrated for wild and managed honey be
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Dwivedi, Sangam L., Mark A. Chapman, Michael T. Abberton, Ufuoma Lydia Akpojotor, and Rodomiro Ortiz. "Exploiting genetic and genomic resources to enhance productivity and abiotic stress adaptation of underutilized pulses." Frontiers in Genetics 14 (June 16, 2023). http://dx.doi.org/10.3389/fgene.2023.1193780.

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Underutilized pulses and their wild relatives are typically stress tolerant and their seeds are packed with protein, fibers, minerals, vitamins, and phytochemicals. The consumption of such nutritionally dense legumes together with cereal-based food may promote global food and nutritional security. However, such species are deficient in a few or several desirable domestication traits thereby reducing their agronomic value, requiring further genetic enhancement for developing productive, nutritionally dense, and climate resilient cultivars. This review article considers 13 underutilized pulses a
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