Takashi Bungo

Last Updated :2019/07/01

Affiliations, Positions
Graduate School of Integrated Sciences for Life, ., Professor
Web Site
E-mail
bungohiroshima-u.ac.jp
Other Contact Details
*, Japan
TEL : (+81)82-424-7957 FAX : (+81)82-424-7957
Self-introduction
Our goal is to improve the productivity of domestic animals using effective animal management techniques. We investigate the physiological and behavioral responses of domestic animals/fowls to their environment to predict their needs and health.

Basic Information

Major Professional Backgrounds

  • 1999/01/01, Science and Technology Agency, Research Fellow
  • 2000/04/01, Ehime University, Department of Agrobiological Science, Faculty of Agriculture, Associate Professor
  • 2001/09/01, The United Graduate School of Agricultural Science, Ehime University, Associate Professor
  • 2005/08/01, Graduate School of Biosphere Science, Associate Professor
  • 2008/12/01, Graduate School of Biosphere Science, Professor

Educational Backgrounds

  • Kyushu University, Graduate School, Division of Agriculture, Japan
  • Kyushu University, Graduate School, Division of Agriculture, Japan
  • Kyushu University, Faculty of Agriculture, Japan

Academic Degrees

  • Doctor of Agriculture, Kyushu University
  • Master of Agriculture, Kyushu University

Educational Activity

  • 【Bachelor Degree Program】School of Applied Biological Science : Department of Applied Biological Science
  • 【Master's Program】Graduate School of Integrated Sciences for Life : Division of Integrated Sciences for Life : Program of Bioresource Science
  • 【Doctoral Program】Graduate School of Integrated Sciences for Life : Division of Integrated Sciences for Life : Program of Bioresource Science

In Charge of Primary Major Programs

  • Animal Science

Research Fields

  • Agricultural sciences;Animal life science;Animal production science

Research Keywords

  • Environmental Physiology
  • Behavioral Physiology
  • Nutritional Physiology
  • Neurophysiology
  • Genetic Polymorphism and Behavioral Traits
  • Fight or Flight Response
  • Feeding and Energy Metabolism
  • Poultry, Ruminants
  • Heat Stress, Thermotolerance
  • Neuroendocrinology

Affiliated Academic Societies

Educational Activity

Course in Charge

  1. 2019, Undergraduate Education, Intensive, Laboratory Work in General Biology II
  2. 2019, Liberal Arts Education Program1, 1Term, Introductory Seminar for First-Year Students
  3. 2019, Undergraduate Education, Academic Year, Graduation Thesis
  4. 2019, Undergraduate Education, 4Term, Farm Animal Management
  5. 2019, Undergraduate Education, 1Term, Grassland Farming
  6. 2019, Undergraduate Education, 2Term, Introduction to Biological Science of Animal Production and Fishery
  7. 2019, Undergraduate Education, 2Term, Environmental Animal Physiology
  8. 2019, Undergraduate Education, Intensive, Practice of Environmental Physiology
  9. 2019, Undergraduate Education, 3Term, Laboratory Animal Science
  10. 2019, Graduate Education (Master's Program) , OutOfTerm(1st), Animal Husbandry
  11. 2019, Graduate Education (Master's Program) , OutOfTerm(1st), Environmental Science in Farm Animals
  12. 2019, Graduate Education (Master's Program) , Second Semester, Research for Academic Degree Dissertation
  13. 2019, Graduate Education (Doctoral Program) , First Semester, Exercises in Animal Science(B)
  14. 2019, Graduate Education (Doctoral Program) , Second Semester, Exercises in Animal Science(B)
  15. 2019, Graduate Education (Master's Program) , OutOfTerm(1st), Practice in Animal Science
  16. 2019, Graduate Education (Master's Program) , 1Term, Exercises in Bioresource Science A
  17. 2019, Graduate Education (Master's Program) , 2Term, Exercises in Bioresource Science A
  18. 2019, Graduate Education (Master's Program) , 3Term, Exercises in Bioresource ScienceB
  19. 2019, Graduate Education (Master's Program) , 4Term, Exercises in Bioresource ScienceB
  20. 2019, Graduate Education (Master's Program) , 1Term, Animal Nutrition and Physiology I
  21. 2019, Graduate Education (Master's Program) , 3Term, Animal Nutrition and Physiology II
  22. 2019, Graduate Education (Doctoral Program) , Academic Year, Research for Academic Degree Dissertation in Integrated Life Sciences

Research Activities

Academic Papers

  1. Induction of food intake by a noradrenergic system using clonidine and fusaric acid in the neonatal chick., Brain Research, 826(2), 313-316, 19990401
  2. Intracerebroventricular administration of mouse leptin does not reduce food intake in chicken., Brain Research, 817(42737), 196-198, 19990401
  3. Relationship between suckling behaviour and locomotor play behaviour in housed goats of early age., Journal of Livestock Housing and Environment, 5, 23-28, 19990401
  4. Central gastrin inhibits feeding behavior and food passage in neonatal chicks., Life Sciences, 65(3), 305-311, 19990401
  5. Direction of jaw movement by dairy cattle during the rumination period., Applied Animal Behaviour Science, 64(3), 227-232, 19990401
  6. Intracerebroventricular injection of orexins does not stimulate food intake in neonatal chicks., British Poultry Science, 40(5), 698-700, 19990401
  7. Effects of substitution of N-terminal amino acid of glucagon-like peptide-1 (7-36) amide on food intake of the neonatal chick., Life Sciences, 64(24), PL295-PL299, 19990401
  8. Central bombesin inhibits food intake and the orexigenic effect of neuropeptide Y in the neonatal chick., 70(5), 573-576, 20000401
  9. Intracerebroventricular injection of fusaric acid attenuates the anorexia by glucagon-like peptide-1 in the neonatal chick., Pharmacology, Biochemistry and Behavior, 70(42769), 251-255, 20010401
  10. nitric oxide synthase inhibitor attenuates neuropeptide Y- and clonidine-induced feeding in the neonatal chick., Journal of Applied Animal Research, 17(2), 257-264, 20000401
  11. Intracerebroventricularly injection of mammalian motilin, melanin-concentrating hormone or galanin does not stimulate food intake in neonatal chicks., British Poultry Science, 41(4), 508-511, 20000401
  12. Involvement of central gastrin and cholecystokinin in the regulation of food intake in the neonatal chick., Journal of Applied Animal Research, 18(2), 129-136, 20000401
  13. Administration of erythromycin does not stimulate food intake in fasted chickens., Japanese Poultry Science, 37(6), 372-378, 20000401
  14. The role of central catecholaminergic systems in regulation of food intake of chicks., Journal of Poultry Science, 38(1), 35-40, 20010401
  15. Effect of conjugated linoleic on isolation-induced distress behavior in chicks., Animal Science Journal, 72(5), 427-430, 20010401
  16. Intracerebroventricular injection of pipecolic acid inhibits food intake and induces sleeping-like behaviors in the neonatal chick., Neuroscience Letters, 310(42769), 97-100, 20010401
  17. Feeding responses for several neuropeptide Y receptor agonists in the neonatal chick., European Journal of Pharmacology, 427(1), 53-59, 20010401
  18. Relationships between feeding and locomotion behaviors after central administration of CRF in chicks., 72(42737), 287-289, 2001
  19. Chronic inhibition of the sympathetic nervous system with guanethidine: effects on body and organ weights and food intake of chicks given a phenylalanine excess diet., Journal of Applied Animal Research, 19(1), 97-106, 20010401
  20. The role of central serotonergic systems on the regulation of feeding behavior of chicks in two different strains., Journal of Applied Animal Research, 21(1), 17-23, 20020401
  21. Feeding and drinking responses, and hypothalamic monoamine concentrations of neonatal chicks following intracerebroventricular injection of 6-OHDA., Journal of Applied Animal Research, 22(2), 183-192, 20020401
  22. Intracerebroventricularly administered excitatory amino acids: Effects on feeding behavior in chicks., Journal of Applied Animal Research, 22(2), 161-168, 20020401
  23. Central pipecolic acid increases food intake under ad libitum feeding conditions in the neonatal chick., Neuroscience Letters, 347(2), 93-96, 20030401
  24. Intracerebroventricular injection of muscimol, baclofen or nipecotic acid stimulates food intake of layer-type, but not meat-type chicks., Brain Research, 993(42737), 235-238, 2003
  25. Central administration of leucine, but not isoleucine and valine, stimulates feeding behavior in neonatal chicks., Neuroscience Letters, 354(2), 166-168, 2004
  26. Feeding responses to μ, δ and κ opioid receptor agonists in the meat-type chick., Pharmacology, Biochemistry and Behavior, 78(4), 707-710, 2004
  27. Intracerebroventricular administration of chicken motilin does not induce hyperphagia in meat-type chicks., Physiology & Behavior, 82(42769), 199-203, 2004
  28. Response of NPY-induced feeding to μ-, δ- and κ-opioid receptor antagonists in the neonatal chick., Neuroscience Letters, 373(1), 85-88, 2005
  29. Effects of various μ- and δ-opioid ligands on food intake in the meat-type chick., Physiology & Behavior, 85, 519-523, 2005
  30. Intracerebroventricular administration of growth hormone releasing peptide-6 (GHRP-6) inhibits food intake, but not food retention of crop and stomach in neonatal chicks., Journal of Poultry Science, 43(1), 35-40, 2006
  31. Central injection of endomorphin-2, but not endomorphin-1, increases food intake in chicks via m1-opioid receptors, Journal of Poultry Science, 44(2), 205-208, 2007
  32. Central insulin suppresses feeding behavior via melanocortins in chicks, DOMESTIC ANIMAL ENDOCRINOLOGY, 34(3), 223-228, 2008
  33. Mu-opioid receptor is involved in beta-endorphin-induced feeding in the meat-type chick, JOURNAL OF POULTRY SCIENCE, 45(2), 139-142, 2008
  34. Chicken leptin receptor is functional in activating JAK-STAT pathway in vitro, JOURNAL OF ENDOCRINOLOGY, 197(2), 335-342, 2008
  35. Responses to sweetener quinine mixtures in chicks: short-term fluid intake test, JOURNAL OF APPLIED ANIMAL RESEARCH, 33(2), 133-136, 2008
  36. Stress response and negative energy balance observed in the blood of transition dairy cows, Animal Behavior and Management, 44(3), 208-214, 2008
  37. Centrally administered tryptophan suppresses food intake in free fed chicks through the serotonergic system, JOURNAL OF POULTRY SCIENCE, 45(3), 215-219, 2008
  38. mu-Opioid receptor agonist diminishes POMC gene expression and anorexia by central insulin in neonatal chicks, NEUROSCIENCE LETTERS, 439(3), 227-229, 2008
  39. Effects of N-terminal fragments of beta-endorphin on feeding in chicks, NEUROSCIENCE LETTERS, 442(2), 140-142, 2008
  40. A Comparison of the Anorexic Effects of Chicken, Porcine, Human and Bovine Insulin on the Central Nervous System of Chicks, JOURNAL OF POULTRY SCIENCE, 46(2), 144-148, 2009
  41. Effect of nociceptin/orphanin FQ on feeding behavior and hypothalamic neuropeptide expression in layer-type chicks, GENERAL AND COMPARATIVE ENDOCRINOLOGY, 163(42737), 47-51, 2009
  42. The number of taste buds is related to bitter taste sensitivity in layer and broiler chickens, ANIMAL SCIENCE JOURNAL, 81(2), 240-244, 2010
  43. Insulin Dynamics in Transition Dairy Cows as Revealed by Intravenous Glucose Tolerance Testing, JOURNAL OF ANIMAL AND VETERINARY ADVANCES, 9(18), 2333-2337, 2010
  44. Effect of Centrally Administered Methionine or Related Compounds on Feeding Behavior in Chicks, JOURNAL OF APPLIED ANIMAL RESEARCH, 38(2), 197-200, 2010
  45. Hypothalamic Melanocortin System on Feeding Regulation in Birds: A Review, JOURNAL OF POULTRY SCIENCE, 48(1), 1-13, 2011
  46. Localization of hypothalamic insulin receptor in neonatal chicks: Evidence for insulinergic system control of feeding behavior, NEUROSCIENCE LETTERS, 491(3), 177-180, 2011
  47. Time Course Changes in the Blood Parameters and the Expression of Diencephalic CRH and AVT mRNA Due to Acute Isolation Stress in Chicks, JOURNAL OF POULTRY SCIENCE, 48(2), 125-129, 2011
  48. Comparisons of insulin related parameters in commercial-type chicks: Evidence for insulin resistance in broiler chicks, PHYSIOLOGY & BEHAVIOR, 103(2), 233-239, 2011
  49. Effect of High Environmental Temperature on Egg Production, Serum Lipoproteins and Follicle Steroid Hormones in Laying Hens, JOURNAL OF POULTRY SCIENCE, 48(3), 207-211, 2011
  50. Secretory patterns of catecholamines in Indo-Pacific bottlenose dolphins, GENERAL AND COMPARATIVE ENDOCRINOLOGY, 177(1), 76-81, 2012
  51. A genetically female brain is required for a regular reproductive cycle in chicken brain chimeras, NATURE COMMUNICATIONS, 4, 2013
  52. Comparison of plasma amino acid levels of two breeds of Japanese native chicken and a commercial layer line., International Journal of Poultry Science, 12(2), 90-93, 2013
  53. Age-Dependent Change of Tonic Immobility Response in Chicks of a Native Japanese Chicken breed, Tosa-Jidori, JOURNAL OF POULTRY SCIENCE, 50(4), 321-325, 2013
  54. Effect of Short-Term Thermal Conditioning on Physiological and Behavioral Responses to Subsequent Acute Heat Exposure in Chicks, JOURNAL OF POULTRY SCIENCE, 51(1), 80-86, 2014
  55. Effect of simultaneous exposure to mixture of two skin sensitizers on skin sensitization response in guinea pigs and mice, JOURNAL OF TOXICOLOGICAL SCIENCES, 39(1), 163-171, 2014
  56. Comparison of response to restraint test in two breeds of Japanese native chicken., International of Poultry Science, 13(9), 545-548, 2014
  57. Brain Monoamine Asymmetry in Chicks Subjected to a Separation-Stress Procedure with Litter Substrate, JOURNAL OF POULTRY SCIENCE, 52(1), 37-41, 2015
  58. Evaluation of a modified manual restraint test for estimating fearfulness in laying hens., International of Poultry Science, 14(11), 602-605, 2015
  59. Acute effect of oral administration of fructose on blood parameters and hepatic glycogen in layer chicks., International Journal of Poultry Science, 16(2), 56-59, 2017
  60. Increase in serum noradrenaline concentration by short dives with bradycardia in Indo-Pacific bottlenose dolphin Tursiops aduncus, GENERAL AND COMPARATIVE ENDOCRINOLOGY, 248, 1-4, 20170701
  61. Transporter gene expressions and transference of fructose in the intestine of broiler chicks, Journal of Poultry Science, 55(2), 136-140, 2018

Publications such as books

  1. 2002, Avian Endocrinology, Glucagon-like peptide-1 (7-36) amide (GLP-1) is a potent satiety agent in chickens., Narosa Publishing House, 2002, Bungo, T. and Furuse, M., 458, 25
  2. 2006, Trends in Brain Mapping Research, Functions of L-pipecolic acid as an L-lysine metabolite in the brain., Functions of L-pipecolic acid as an L-lysine metabolite in the brain. In:, 2006, English, Furuse, M., Takagi, T., Bungo, T. and Denbow, D.M.
  3. 2013, Hormones and Behavior (Endocrinology research and clinical developments), Neuroendocrine regulation of sedation and excitation in neonatal chicks., Nova Science Publishers, 2013, English, Furuse, M., Cline, M.A., Bungo, T. and Sugahara, K.
  4. 2013, Molecular Structure, Role in Food Intake and Direct/indirect Effects, Chicken neuropeptide Y in the control of appetite and metabolism. In: Neuropeptide Y, Nova Science Publishers, 2013, English, Bungo, T., Shiraishi, J.-i., Kawakami, S.-I., Denbow, D.M. and Furuse, M.

Invited Lecture, Oral Presentation, Poster Presentation

  1. Nociceptin/orphanin FQ-induced hyperphagia in chicks is mediated by agouti-related protein., 9th International Symposium on Avian Endocrinology, 2008, With Invitation
  2. Glycyl-glutamine injected centrally attenuates neuropeptide Y-induced feeding in chicks., XXIII World's Poultry Congress, 2008, Without Invitation
  3. Comparison of tonic immobility response in four-day-old native Japanese chickens., The 14th AAAP Animal Science Congress, 2010, Without Invitation
  4. Comparison of physiological and behavioral responses in Japanese native chickens exposed to acute heat stress., Tanizawa, H., Shiraishi, J.-i., Goto, T., Kawakami, S.-I., Tsudzuki, M. and Bungo, T., The 9th Asia Pacific Poultry Conference, 2011, Without Invitation, Taiwan, Republic of China
  5. Effect of acute heat exposure on levels of blood parameters and hypothalamic monoamine in neonatal chicks., 2012, Without Invitation
  6. Antisense reduction of neuropeptide Y Y1 receptor modulates energy expenditure in chicks., Ueno, Y., Shiraishi, J.-i., Tanizawa, H., Kawakami, S.-I., Ohkubo, T. and Bungo, T., 10th International Symposium on Avian Endocrinology, 2012, Without Invitation
  7. Effect of thyroidectomy on blood parameters in chicks under restricted feeding schedule., Bungo, T., Tanizawa, H. and Nikki, T., The 16th AAAP Animal Science Congress, 2014, Without Invitation
  8. Effect of early restraint treatment on responses to subsequent restraint in chicks., Fukano, N., Nakasai, E., Tanizawa, H. and Bungo, T., The 16th AAAP Animal Science Congress, 2014, Without Invitation
  9. Thermal Conditioning to Mitigate Heat Stress in Chickens, Takashi Bungo, 17th AAAP ANIMAL SCIENCE CONGRESS, 2016, With Invitation
  10. Effects of early-life stress on stress responsiveness in later life of chicks, Takashi Bungo, Kouichi Yoshitome, Yoshimitsu Iuchi, The 8th Intercongress Symposium of the Asia and Oceania Society for Comparative Endocrinology, 2018, With Invitation, the Asia and Oceania Society for Comparative Endocrinology, Sydney, Australia
  11. Is Responses to Fear at Early Life Similar after Growth in Japanese Native Chicken, Tosa-Jidori?, Bungo, T., Yoshidome, K. and Ouchi, Y., The 18th AAAP Animal Congress, 2018, Without Invitation, Kuching, Malaysia

Awards

  1. 2015年03月28日, Animal Science Journal Reviewers Award, Japanese Society of Animal Science
  2. 2015年09月10日, The Journal of Poultry Science Outstanding Paper Award, Japan Poultry Science Association
  3. 2018年03月29日, Animal Science Journal Reviewers Award, Japanese Society of Animal Science
  4. 2018年09月12日, Publons Peer Review Awards 2018, Publons

Social Activities

History as Committee Members

  1. Editor in Chief, 2016, Journal of Poultry Science
  2. Editorial Board, 2016, Animal Science Journal
  3. Editorial Board, 2016, Hellion, Elsevier