-
آرشیو :
نسخه پاییز 1399 - جلد دوم
-
نوع مقاله :
پژوهشی
-
کد پذیرش :
11666
-
موضوع :
سایر شاخه های روانشناسی
-
نویسنده/گان :
امین سالم قهفرخی، ساهره علیخواه، سید رضا رضایی، محسن رستمی
-
کلید واژه :
گردشگری مبتنی بر اعصاب، انتقال دهنده عصبی، مونوآمینها، احساسات بنیادی.
-
مراجع :
World Travel and Tourism Council: Travel & Tourism - Global Economic Impact & Trends 2020 - May 2020.
[2] World Tourism Organization (2019), International Tourism Highlights, 2019 Edition, UNWTO, Madrid, https://doi.org/10.18111/9789284421152.
[3] Koc, E., Boz, H. (2014). "Psychoneurobiochemistry of tourism marketing," Tourism Management, Elsevier, vol. 44(C), pages 140-148.
[4] Piwinger, M.; Ebert, H. (2001). "Impression Management: Wie aus Niemand Jemand wird". in: Bentele, Guenther et al. (Ed.), Kommunikationsmanagement: Strategien, Wissen, Lösungen. Luchterhand, Neuwied.
[5] Tucker, H. (2009). Recognizing emotion and its postcolonial potentialities: Discomfort and shame in a tourism encounter in Turkey. Tourism Geographies, 11(4), 444–461.
[6] Brent D. M, Char-lee M., Bec A., Noel S. (2017): The next frontier in tourism emotion research, Current Issues in Tourism, http://dx.doi.org/10.1080/13683500.2017.1388770.
[7] Martin, M. (1998). Bodily sensations. In The Routledge Encyclopedia of Philosophy. Taylor and Francis. Retrieved 19 Sep. 2020, from https://www.rep.routledge.com/articles/thematic/bodily-sensations/v-1.
[8] Purves D, Augustine GJ, Fitzpatrick D, et al. (2001). What defines a neurotransmitter? Neuroscience. 2nd edition. Sunderland (MA): Sinauer Associates.
[9] Boto T, Tomchik SM. (2019). The excitatory the inhibitory, and the modulatory: mapping chemical neurotransmission in the brain. Neuron. 101(5):763-765. https://doi.org/10.1016/j.neuron.2019.02.021.
[10] Valenzuela CF, Puglia MP, Zucca S. (2011). Focus on: neurotransmitter systems. Alcohol Res Health. 34(1):106–120.
[11] Prasad, B.V. (2020). Examining Biological Foundations of Human Behavior. United States of America: IGI Global. p. 81.
[12] Ge D, Noakes PG, Lavidis NA. (2020). What are Neurotransmitter Release Sites and Do They Interact? Neuroscience; 425:157-168. https://doi.org/10.1016/j.neuroscience.2019.11.017.
[13] Gundersen CB. (2019). Fast, synchronous neurotransmitter release: Past, present and future. Neuroscience. 439:22-27. https://doi.org/10.1016/j.neuroscience.2019.04.030.
[14] Benarroch EE. (2009) The locus ceruleus norepinephrine system: functional organization and potential clinical significance. Neurology.73: 1699–704.
[15] Girault, J.A, Greengard P. (2004) The neurobiology of dopamine signaling. Arch Neural. 61:641–4.
[16] Löfhede J, Löfgren N, Thordstein M, Flisberg A, Kjellmer I, Lindecrantz K. (2008). Classification of burst and suppression in the neonatal electroencephalogram. J Neural Eng. (4):402-10. https://doi.org/10.1088/1741-2560/5/4/005. PMID: 18971517.
[17] Sawin ER, Ranganathan R, Horvitz HR. C. (2000). elegans locomotory rate is modulated by the environment through a dopaminergic pathway and by experience through a serotonergic pathway. Neuron. 26:619–31.
[18] Keltikangas-Jarvinen L, Salo J. (2009). Dopamine and serotonin systems modify environmental effects on human behavior: a review. Scand J Psychol. 50:574–82.
[19] Berntson GG, Bechara A, Damasio H, Tranel D, Cacioppo JT. (2007). Amygdala contribution to selective dimensions of emotion. Soc Cogn Affect Neurosci. 2:123–9.
[20] Phillips AG, Ahn S, Howland JG. (2003) Amygdalar control of the mesocorticolimbic dopamine system: parallel pathways to motivated behavior. Neurosci Biobehav Rev. 27:543–54.
[21] Lövheim H. A new three-dimensional model for emotions and monoamine neurotransmitters. (2012). Med Hypotheses;78(2):341-8. https://doi.org/10.1016/j.mehy.2011.11.016.
[22] Siegel, A. (2005). The neurobiology of aggression and rage. Boca Raton: CRC Press.
[23] Winstanley, C. A. (2007). The orbitofrontal cortex, impulsivity, and addiction. Annals of the New York Academy of Sciences, 1121, 639-655.
[24] Tendai, M., & Crispen, C. (2009). In-store shopping environment and impulse buying. African Journal of Marketing Management, 1(4), 102-108.
[25] Virvilaite, R., Saladiene, V., & Bagdonaite, R. (2009). Peculiarities of impulsive purchasing in the market of consumer goods, inzinerine ekonomika-engineering economics. Commerce of Engineering Decisions, 2, 101-108.
[26] Vohs, K., Faber, R. (2007). Spent resources: self-regulation and impulse buying. Journal of Consumer Research, 33, 537-547.
[27] Verplanken, B., Herabadi, A. (2001). Individual differences in impulse buying tendency: felling and no thinking. European Journal of Personality, 15, 71-83.
[28] Paredes, S. D., Barriga, C., Reiter, R. J., & Rodríguez, A. B. (2009). Assessment of the potential role of tryptophan as the precursor of serotonin and melatonin for the aged sleep-wake cycle and immune function: Streptopelia risoria as a model. International Journal of Tryptophan Research, 2, 23-36.
[29] Rehman, H. U., & Masson, E. A. (2001). Neuroendocrinology of ageing. Age and Ageing, 30, 279-287.
[30] Cassel, J. C., Schweizer, T., Lazaris, A., Knorle, R., Birthelmer, A., Godtel-Armbrust, U., et al. (2005). Cognitive deficits in aged rats correlate with levels of L-arginine, not with nNOS expression or 3,4-DAP-evoked transmitter release in the front parietal cortex. European Neuropsychopharmacology, 15(2), 163-175.
[31] Murakami, H., Bessinger, K., Hellmann, J., & Murakami, S. (2008). Manipulation of serotonin signal suppresses early phase of behavioral aging in Caenorhabditis elegans. Neurobiology of Aging, 29(7), 1093-1100.
[32] Koc, E. (2013). Inversionary and liminoidal consumption: gluttony on holidays and obesity. Journal of Travel and Tourism Marketing, 30(8), 825-838.
[33] Golden, R. N., Gaynes, B. N., Ekstrom, R. D, Hamer, R. M., Jacobsen, F. M., Suppes, T., et al. (2005). The efficacy of light therapy in the treatment of mood disorders: a review and meta-analysis of the evidence. American Journal of Psychiatry, 162(4), 656-662.
[34] Blomstrand, E. (2001). Amino acids and central fatigue. Amino Acids, 20, 25-34.
[35] Gomez-Merino, D., Béquet, F., Berthelot, M, Chennaoui, M., & Guezennec, C. Y. (2001). Site-dependent effects of an acute intensive exercise on extracellular 5- HT and 5-HIAA levels in rat brain. Neuroscience Letters, 301(2), 143-146.
[36] Suzuki, H., Sone, H., Kawamura, K., & Ishihara, K. (2008). Liver injury due to 3- amino-1-methyl-5h-pyrido [4,3-b] indole (Trp-P-2) and its prevention by miso. Bioscience Biotechnology and Biochemistry, 72(8), 2236-2238.
[37] Bergman, H. (2006). Midbrain dopamine neurons encode decisions for future action. Nature Neuroscience, 9, 1057-1063.
[38] Matsunaga, M, Isowa, T., Kimura, K., Miyakoshi, M., Kanayama, N., Murakami, H., et al. (2008). Associations among central nervous, endocrine, and immune activities when positive emotions are elicited by looking at a favorite person. Brain Behaviour and Immunity, 22(3), 408-417.
[39] Schetz, J. A., & Sibley, D. (2007). Dopaminergic neurotransmission. In D. Sibley, I. Hanin, M. J. Kuhar, & P. Skolnick (Eds.), Handbook of contemporary neuropharmacology (pp. 221-256). New York: John Wiley and Sons, Inc, Hoboken.
[40] Di Chiara, G., & Bassareo, V. (2007). Reward system and addiction: what dopamine does and doesn’t do. Current opinion in pharmacology, 7(1), 69-76.
[41] Kelley, A. E., & Berridge, K. C. (2002). The neuroscience of natural rewards: relevance to addictive drugs. Journal of Neuroscience, 22, 3306-3311.
[42] Phillips, P. E., Walton, M. E., & Jhou, T. C. (2007). Calculating utility: preclinical evidence for cost- benefit analysis by mesolimbic dopamine. Psychopharmacology, 191, 483-495.
[43] Salamone, J. D., Correa, M., Farrar, A., & Mıngote, S. M. (2007). Effort-related functions of nucleus accumbens dopamine and associated forebrain circuits. Psychopharmacology, 191, 461-482.
[44] Walton, M., Kennerley, S. W., Bannerman, D. M., Phıllıps, P. E., & Rushworth, M. F. (2006). Weighing up the benefits of work: behavioral and neural analyses of effort-related decision making. Neural Networks, 19, 1302-1314.
[45] Panksepp, J., & Watt, D. (2011). What is basic about basic emotions? Lasting lessons from affective neuroscience. Emotion Review, 3(4), 387-396.
[46] Hu, H., Real, E., Takamiya, K., Kang, M.-G., Ledoux, J., Huganir, R. L., & Malinow, R. (2007). Emotion Enhances Learning via Norepinephrine Regulation of AMPA-Receptor Trafficking. Cell, 131(1), 160-173. https://doi.org/10.1016/j.cell.2007.09.017.
[47] Harrison, N. A., Morgan, R., & Critchley, H. D. (2010). From facial mimicry to emotional empathy: A role for norepinephrine? Social Neuroscience, 5(4), 393-400. https://doi.org/10.1080/17470911003656330.
[48] Pringle, A., McCabe, C., Cowen, P. J., & Harmer, C. J. (2013). Antidepressant treatment and emotional processing: can we dissociate the roles of serotonin and noradrenaline? JOURNAL OF PSYCHOPHARMACOLOGY, 27(8), 719-731. https://doi.org/10.1177/0269881112474523.
[49] Segal, S. K., Stark, S. M., Kattan, D., Stark, C. E., & Yassa, M. A. (2012). Norepinephrine-mediated emotional arousal facilitates subsequent pattern separation. NEUROBIOLOGY OF LEARNING AND MEMORY, 97(4), 465. https://doi.org/10.1016/j.nlm.2012.03.010.
[50] Nicholson, E. L., Bryant, R. A., & Felmingham, K. L. (2014). Interaction of noradrenaline and cortisol predicts negative intrusive memories in posttraumatic stress disorder. NEUROBIOLOGY OF LEARNING AND MEMORY, 112, 204-211. https://doi.org/10.1016/j.nlm.2013.11.018.
[51] Terbeck, S., Savulescu, J., Chesterman, L. P., & Cowen, P. J. (2016). Noradrenaline effects on social behavior, intergroup relations, and moral decisions. Neuroscience and biobehavioral reviews, 66, 54–60. https://doi.org/10.1016/j.neubiorev.2016.03.031.
[52] De Rojas, C., & Camarero, C. (2008). Visitors’ experience, mood and satisfaction in a heritage context: evidence from an interpretation center. Tourism Management, 29(3), 525-537.
[53] Scherer KR, Ellgring H. (2007) Are facial expressions of emotion produced by categorical affect programs or dynamically driven by appraisal? Emotion; 7:113–30.
[54] Yuksel, A. (2007). Tourist shopping habitat: effects on emotions, shopping value and behaviours. Tourism Management, 28(1), 58-69.
[55] Hanoch, Y. (2002). ‘‘Neither an angel nor an ant’’: emotion as an aid to bounded rationality. Journal of Economic Psychology, 23, 1-25.
[56] Gorman, P. (2004). Motivation and emotion. Routledge, New York.
[57] Mejias-Aponte CA, Drouin C, Aston-Jones G. (2009). Adrenergic and noradrenergic innervation of the midbrain ventral tegmental area and retrorubral field: prominent inputs from medullary homeostatic centers. J Neurosci; 29:3613–26.
[58] Panksepp J. (2005). Affective consciousness: core emotional feelings in animals and humans. Conscious Cogn; 14:30–80.
[59] Moyle, B. D., Moyle, C.-l., Bec, A., and Scott, N., (2017). “The next frontier in tourism emotion research,” Current Issues in Tourism, pp. 1–7.
[60] Tracy JL, Robins RW, Schriber RA. (2009). Development of a FACS-verified set of basic and self-conscious emotion expressions. Emotion; 9:554–9.
[61] Matsumoto D, Willingham B. (2009). Spontaneous facial expressions of emotion of congenitally and noncongenitally blind individuals. J Pers Soc Psychol; 96:1–10.
[62] Leggio GM, Cathala A, Neny M, Rouge-Pont F, Drago F, Piazza PV, et al. (2009). In vivo evidence that constitutive activity of serotonin 2C receptors in the medial prefrontal cortex participates in the control of dopamine release in the rat nucleus accumbens: differential effects of inverse agonist versus antagonist. J Neurochem; 111:614–23.
[63] Faure A, Reynolds SM, Richard JM, Berridge KC. (2008). Mesolimbic dopamine in desire and dread: enabling motivation to be generated by localized glutamate disruptions in nucleus accumbens. J Neurosci; 28:7184–92.
[64] Mallo T, Alttoa A, Koiv K, Tonissaar M, Eller M, Harro J. (2007). Rats with persistently low or high exploratory activity: behaviour in tests of anxiety and depression and extracellular levels of dopamine. Behav Brain Res; 177:269–81.
[65] Ortigue S, Bianchi-Demicheli F, Patel N, Frum C, Lewis JW. (2010). Neuroimaging of love: fMRI meta-analysis evidence toward new perspectives in sexual medicine. J Sex Med; 7:3541–52.
[66] Tancer M, Johanson CE. (2007). The effects of fluoxetine on the subjective and physiological effects of 3, 4-methylenedioxymethamphetamine (MDMA) in humans. Psychopharmacology (Berl); 189:565–73.
[67] Bedi G, Hyman D. H. de Wit, (2010). Is ecstasy an ‘‘empathogen’’? Effects of +/-3, 4- methylenedioxymethamphetamine on prosocial feelings and identification of emotional states in others. Biol Psychiatry; 68:1134–40.
[68] Norbury R, Taylor MJ, Selvaraj S, Murphy SE, Harmer CJ, Cowen PJ. (2009). Short-term antidepressant treatment modulates amygdala response to happy faces. Psychopharmacology (Berl); 206:197–204.
[69] Tondo L, Vazquez G, Baldessarini RJ. (2010). Mania associated with antidepressant treatment: comprehensive meta-analytic review. Acta Psychiatr Scand; 121:404–14.
[70] Young EJ, Williams CL. Valence (2010), dependent asymmetric release of norepinephrine in the basolateral amygdala. Behav Neurosci; 124:6. 33–44.
[71] Ventura R, Latagliata EC, Morrone C, La Mela I. (2008). Prefrontal norepinephrine determines attribution of ‘‘high’’ motivational salience. PLoS One; 3:30-44.
[72] Luby J, Belden A, Sullivan J, Hayen R, McCadney A, Spitznagel E. (2009). Shame and guilt in preschool depression: evidence for elevations in self-conscious emotions in depression as early as age 3. J Child Psychol Psychiatry; 50:1156–66.
[73] Vikan A, Hassel AM, Rugset A, Johansen HE, Moen T. (2010). A test of shame in outpatients with emotional disorder. Nord J Psychiatry; 64:196–202.
[74] Fergus TA, Valentiner DP, McGrath PB, Jencius S. (2010). Shame- and guilt-proneness: relationships with anxiety disorder symptoms in a clinical sample. J Anxiety Disord; 24:811–5.
[75] Van der Wee NJ, van Veen JF, Stevens H, van Vliet IM, van Rijk PP, Westenberg HG. (2008). Increased serotonin and dopamine transporter binding in psychotropic medication-naive patients with generalized social anxiety disorder shown by 123I-beta-(4-iodophenyl)-tropane SPECT. J Nucl Med; 49:757–63.
[76] Schank JR, Liles LC, Weinshenker D. (2008). Norepinephrine signaling through beta-adrenergic receptors is critical for expression of cocaine-induced anxiety. Biol Psychiatry; 63:1007–12.
[77] Yu BH, Kang EH, Ziegler MG, Mills PJ, Dimsdale JE. (2008). Mood states, sympathetic activity, and in vivo beta-adrenergic receptor function in a normal population. Depress Anxiety; 25:559–64.
[78] Fadok JP, Dickerson TM, Palmiter RD. (2009). Dopamine is necessary for cuedependent fear conditioning. J Neurosci; 29:11089–97.
[79] Ponnusamy R, Nissim HA, Barad M. (2005). Systemic blockade of D2-like dopamine receptors facilitates extinction of conditioned fear in mice. Learn Mem; 12:399–406.
[80] Seo D, Patrick CJ, Kennealy PJ. (2008). Role of serotonin and dopamine system interactions in the neurobiology of impulsive aggression and its comorbidity with other clinical disorders. Aggress Violent Behav; 13:383–95.
[81] Silva H, Iturra P, Solari A, Villarroel J, Jerez S, Vielma W, et al. (2007). Serotonin transporter polymorphism and fluoxetine effect on impulsiveness and aggression in borderline personality disorder. Actas Esp Psiquiatr; 35:387–92.
[82] De Martino B, Strange BA, Dolan RJ. (2008). Noradrenergic neuromodulation of human attention for emotional and neutral stimuli. Psychopharmacology (Berl); 197:127–36.
[83] McCaughey J, Ross RS, Eichenbaum H. (2008). Noradrenergic, but not cholinergic, differentiation of prefrontal cortex impairs attentional set-shifting. Neuroscience; 153:63–71.
[84] Douglas KM, Porter RJ. (2010). Recognition of disgusted facial expressions in severe depression. Br J Psychiatry; 197:156–7.
[85] Montagne B, Schutters S, Westenberg HG, Van Honk J, Kessels RP, De Haan EH. (2006). Reduced sensitivity in the recognition of anger and disgust in social anxiety disorder. Cogn Neuropsychiatry; 11:389–401.
[86] Murakami, H., et al. (2008). Associations among central nervous, endocrine, and immune activities when positive emotions are elicited by looking at a favorite person. Brain Behaviour and Immunity, 22(3), 408-417.Schetz, J. A., & Sibley, D. (2007). Dopaminergic neurotransmission. In D. Sibley, I. Hanin, M.
[87] J. Kuhar, & P. Skolnick (Eds.), Handbook of contemporary neuropharmacology (pp. 221-256). New York: John Wiley and Sons, Inc, Hoboken. Kelley, A. E., & Berridge, K. C. (2002). The neuroscience of natural rewards: relevance to addictive drugs. Journal of Neuroscience, 22, 3306-3311.
- صفحات : 53-73
-
دانلود فایل
( 1.29 MB )
