Rapid behavioral assay using handling test provides breed and sex differences in tameness of chickens

Abe, H., Nagao, K., Nakamura, A., & Inoue‐Murayama, M. (2013).

Differences in responses to repeated fear‐relevant stimuli between

Nagoya and White Leghorn chicks. Behavioural Processes, 99, 95–99.

https​://doi.org/10.1016/j.beproc.2013.07.004

Agnvall, B., Jongren, M., Strandberg, E., & Jensen, P. (2012).

Heritability and genetic correlations of fear‐related behavior in

Red Junglefowl‐possible implications for early domestication.

PLoS ONE, 7, e35162.

Agnvall, B., Katajamaa, R., Altimiras, J., & Jensen, P. (2015). Is domesti‐

cation driven by reduced fear of humans? Boldness, metabolism and

serotonin levels in divergently selected red junglefowl (Gallus gallus).

Biology Letters, 11, 20150509.

Albert, F. W., Hodges, E., Jensen, J. D., Besnier, F., Xuan, Z., Rooks, M.,

… Pääbo, S. (2011). Targeted resequencing of a genomic region in‐

fluencing tameness and aggression reveals multiple signals of pos‐

itive selection. Heredity, 107, 205–214. https​

://doi.org/10.1038/

hdy.2011.4

Albert, F. W., Shchepina, O., Winter, C., Römpler, H., Teupser, D., Palme,

R., … Pääbo, S. (2008). Phenotypic differences in behavior, physiol‐

ogy and neurochemistry between rats selected for tameness and for

defensive aggression towards humans. Hormones and Behavior, 53,

413–421. https​://doi.org/10.1016/j.yhbeh.2007.11.010

Arnaud, I., Mignon‐Grasteau, S., Larzul, C., Guy, G., Faure, J.‐M., &

Guémené, D. (2008). Behavioural and physiological fear responses

in ducks: Genetic cross effects. Animal, 2, 1518–1525. https​://doi.

org/10.1017/S1751​73110​8 002784

Axelsson, E., Ratnakumar, A., Arendt, M.‐L., Maqbool, K., Webster, M. T.,

Perloski, M., … Lindblad‐Toh, K. (2013). The genomic signature of dog

domestication reveals adaptation to a starch‐rich diet. Nature, 495,

360–364. https​://doi.org/10.1038/natur​e11837

Besbes, B., Tixier‐Boichard, M., Hoffmann, I., & Jain, G. L. (2007).

Future trends for poultry genetic resources. In Proceedings of the

International Conference of Poultry in the 21st Century: Avian Influenza

and Beyond, Bankok, 5–7 November 2007. Retrieved from http://

www.fao.org/waice​nt/FAOIN​FO/Agric​u lt/again​f o/home/event ​s/

bangk​ok200​7/docs/part1/​1_8.pdf

Campler, M., Jongren, M., & Jensen, P. (2009). Fearfulness in

red junglefowl and domesticated White Leghorn chickens.

Behavioural Processes, 81, 39–43. https​

://doi.org/10.1016/j.

beproc.2008.12.018

Carneiro, M., Rubin, C.‐J., Di Palma, F., Albert, F. W., Alfoldi, J., Barrio, A.

M., … Andersson, L. (2014). Rabbit genome analysis reveals a poly‐

genic basis for phenotypic change during domestication. Science,

345, 1074–1079. https​://doi.org/10.1126/scien​ce.1253714

Comings, D. E., & MacMurray, J. P. (2000). Molecular heterosis: A re‐

view. Molecular Genetics and Metabolism, 71, 19–31. https​

://doi.

org/10.1006/mgme.2000.3015

Ekarius, C. (2007). Storey's illustrated guide to poultry breeds. North

Adams, MA: Storey Publishing.

Faure, J. M., Val‐Laillet, D., Guy, G., Bernadet, M. D., & Guemene, D.

(2003). Fear and stress reactions in two species of duck and their hy‐

brid. Hormones and Behavior, 43, 568–572. https​://doi.org/10.1016/

S0018-506X(03)00062-X

Favati, A., Leimar, O., & Løvlie, H. (2014). Personality predicts social

dominance in male domestic fowl. PLoS ONE, 9, e103535. https​://doi.

org/10.1371/journ​al.pone.0103535

Favati, A., Zidar, J., Thorpe, H., Jensen, P., & Lovlie, H. (2016). The ontog‐

eny of personality traits in the red junglefowl, Gallus gallus. Behavioral

Ecology, 27, 484–493.

Goto, T., Matsumoto, Y., Tanave, A., & Koide, T. (2015). Genetic analyses

for tame behavior in animals: Exploration of genetic loci affecting an‐

imal domestication. Journal of Animal Genetics, 43, 3–11 (In Japanese).

https​://doi.org/10.5924/abgri.43.3

9 of 9

MOROI et al.

Goto, T., Tanave, A., Moriwaki, K., Shiroishi, T., & Koide, T. (2013).

Selection for reluctance to avoid humans during the domestication

of mice. Genes, Brain and Behavior, 12, 760–770.

Goto, T., & Tsudzuki, M. (2017). Genetic mapping of quantitative trait loci

for egg production and egg quality traits in chickens: A review. Journal

of Poultry Science, 54, 1–12. https​://doi.org/10.2141/jpsa.0160121

Havenstein, G. B., Ferket, P. R., & Qureshi, M. A. (2003). Growth, liva‐

bility, and feed conversion of 1957 versus 2001 broilers when fed

representative 1957 and 2001 broiler diets. Poultry Science, 82,

1500–1508. https​://doi.org/10.1093/ps/82.10.1500

Havenstein, G. B., Ferket, P. R., & Qureshi, M. A. (2003). Carcass com‐

position and yield of 1957 versus 2001 broilers when fed represen‐

tative 1957 and 2001 broiler diets. Poultry Science, 82, 1509–1518.

https​://doi.org/10.1093/ps/82.10.1509

Hong, K. W., Inoue‐Murayama, M., Nakamura, A., Nagao, K., & Ito, S.

(2008). Characterization of two microsatellites in chicken mono‐

amine oxidase A. Animal Science Journal, 79, 641–643. https​://doi.

org/10.1111/j.1740-0929.2008.00575.x

Katajamaa, R., Larsson, L. H., Lundberg, P., Sorensen, I., & Jensen, P.

(2018). Activity, social and sexual behaviour in Red Junglefowl

selected for divergent levels of fear of humans. PLoS ONE, 13,

e0204303. https​://doi.org/10.1371/journ​al.pone.0204303

Koolhaas, J. M., Korte, S. M., De Boer, S. F., Van Der Vegt, B. J., Van

Reenen, C. G., Hopster, H., … Blokhuis, H. J. (1999). Coping styles

in animals: Current status in behavior and stress‐physiology.

Neuroscience and Biobehavioral Reviews, 23, 925–935. https​

://doi.

org/10.1016/S0149-7634(99)00026-3

Liu, Y.‐P., Wu, G.‐S., Yao, Y.‐G., Miao, Y.‐W., Luikart, G., Baig, M., … Zhang,

Y.‐P. (2006). Multiple maternal origins of chickens: Out of the Asian

jungles. Molecular Phylogenetics and Evolution, 38, 12–19. https​://doi.

org/10.1016/j.ympev.2005.09.014

Matsumoto, Y., Goto, T., Nishino, J. O., Nakaoka, H., Tanave, A., Takano‐

Shimizu, T., … Koide, T. (2017). Selective breeding and selection

mapping using a novel wild‐derived heterogeneous stock of mice

revealed two closely‐linked loci for tameness. Scientific Reports, 7,

4607. https​://doi.org/10.1038/s41598-017-04869-1

Montague, M. J., Li, G., Gandolfi, B., Khan, R., Aken, B. L., Searle, S. M.

J., … Warren, W. C. (2014). Comparative analysis of the domestic

cat genome reveals genetic signatures underlying feline biology

and domestication. Proceedings of the National Academy of Sciences

of the United States of America, 111(48), 17230–17235. https​://doi.

org/10.1073/pnas.14100​83111​

Nagayama, H., Matsumoto, Y., Tanave, A., Nihei, M., Goto, T., & Koide,

T. (2018). Measuring active and passive tameness separately in

mice. Journal of Visualied Experiments, 138, e58048. https​

://doi.

org/10.3791/58048​

Nakasai, E., Tanizawa, H., Takawaki, M., Yanagita, K., Kawakami, S.‐I.,

Oka, T., … Bungo, T. (2013). Age‐dependent change of tonic immobil‐

ity response in chicks of a native Japanese chicken breed, Tosa‐Jidori.

Journal of Poultry Science, 50, 321–325. https​

://doi.org/10.2141/

jpsa.0130018

Natt, D., Agnvall, B., & Jensen, P. (2014). Large sex differences in chicken

behavior and brain gene expression coincide with few differences

in promoter DNA‐methylation. PLoS ONE, 9, e96376. https​

://doi.

org/10.1371/journ​al.pone.0096376

Nelson, R. M., Temnykh, S. V., Johnson, J. L., Kharlamova, A. V.,

Vladimirova, A. V., Gulevich, R. G., … Kukekova, A. V. (2017). Genetics

of interactive behavior in silver foxes (Vulpes vulpes). Behavior

Genetics, 47, 88–101. https​://doi.org/10.1007/s10519-016-9815-1

Osman, S. A. M., Sekino, M., Nishihata, A., Kobayashi, Y., Takenaka, W.,

Kinoshita, K., … Tsudzuki, M. (2006). The genetic variability and re‐

lationships of Japanese and foreign chickens assessed by microsat‐

ellite DNA profiling. Asian‐Australasian Journal of Animal Science, 19,

1369–1378. https​://doi.org/10.5713/ajas.2006.1369

Peres, J. F. P., Goncalves, A. L., & Peres, M. F. P. (2009). Psychological

trauma in chronic pain: Implications of PTSD for fibromyalgia and

headache disorders. Current Pain and Headache Reports, 13, 350–357.

https​://doi.org/10.1007/s11916-009-0057-2

Peters, J., Lebrasseur, O., Deng, H., & Larson, G. (2016). Holocene cultural

history of Red jungle fowl (Gallus gallus) and its domestic descendant

in East Asia. Quaternary Science Reviews, 142, 102–119. https​://doi.

org/10.1016/j.quasc​irev.2016.04.004

Price, E. O. (2002). Animal domestication and behavior. New York, NY:

CABI Publishing.

R Core Team (2018). R: A language and environment for statistical com‐

puting. Vienna, Austria: R Foundation for Statistical Computing.

Retrieved from https​://www.R-proje​c t.org/

Rikimaru, K., & Takahashi, H. (2010). Evaluation of the meat from Hinai‐

jidori chickens and broilers: Analysis of general biochemical compo‐

nents, free amino acids, inosine 5′‐monophosphate, and fatty acids.

The Journal of Applied Poultry Research, 19, 327–333. https​

://doi.

org/10.3382/japr.2010-00157​

Rubin, C.‐J., Zody, M. C., Eriksson, J., Meadows, J. R. S., Sherwood, E.,

Webster, M. T., … Andersson, L. (2010). Whole‐genome resequenc‐

ing reveals loci under selection during chicken domestication. Nature,

464, 587–591. https​://doi.org/10.1038/natur​e 08832

Sasaki, K., Motoyama, M., Tagawa, Y., Akama, K., Hayashi, T., Narita, T., &

Chikuni, K. (2017). Qualitative and quantitative comparisons of tex‐

ture characteristics between broilers and Jidori‐niku, Japanese indig‐

enous chicken meat, assessed by a trained panel. Journal of Poultry

Science, 54, 87–96.

Tomonaga, S., Noda, K., Suenaga, R., Asechi, M., Adachi, N., Kino, K.,

… Furuse, M. (2007). Stress responses in neonatal meat and layer

Nagoya chicks. Animal Science Journal, 78, 541–545. https​

://doi.

org/10.1111/j.1740-0929.2007.00474.x

Trut, L. N. (1999). Early canid domestication: The farm‐fox experiment.

American Scientist, 87, 160–169. https​://doi.org/10.1511/1999.2.160

Tsudzuki, M. (2003). Japanese native chickens. In H. L. Chang & Y. C.

Huang (Eds.), The relationship between indigenous animals and humans

in APEC region (pp. 91–116). Tainan, Taiwan: CSAS.

Wang, X., Pipes, L., Trut, L. N., Herbeck, Y., Vladimirova, A. V., Gulevich,

R. G., … Clark, A. G. (2018). Genomic responses to selection for tame/

aggressive behaviors in the silver fox (Vulpes vulpes). Proceedings of

the National Academy of Science of the United States of America, 115,

10398–10403.

How to cite this article: Moroi S, Nishimura K, Imai N,

Kunishige K, Sato S, Goto T. Rapid behavioral assay using

handling test provides breed and sex differences in tameness

of chickens. Brain Behav. 2019;9:e01394. https​://doi.

org/10.1002/brb3.1394

...