研究生: |
張毓庭 Chang, Yu-Ting |
---|---|
論文名稱: |
親代勝敗經驗對子代的行為、生理與生活史特徵的影響 The importance of parent’s winning/losing experiences on individual’s behavioural, physiological and life-history traits |
指導教授: |
許鈺鸚
Hsu, Yu-Ying |
學位類別: |
碩士 Master |
系所名稱: |
生命科學系 Department of Life Science |
論文出版年: | 2019 |
畢業學年度: | 107 |
語文別: | 中文 |
論文頁數: | 79 |
中文關鍵詞: | 親代效應 、打鬥經驗 、賀爾蒙 、耗氧量 、攻擊性 、生活史特徵 、紅樹林鱂魚 |
英文關鍵詞: | Parent effect, Fighting experience, Hormones, Oxygen consumption, Aggressiveness, Life-history traits, Kryptolebias marmoratus |
DOI URL: | http://doi.org/10.6345/NTNU201900994 |
論文種類: | 學術論文 |
相關次數: | 點閱:116 下載:0 |
分享至: |
查詢本校圖書館目錄 查詢臺灣博碩士論文知識加值系統 勘誤回報 |
個體的經歷除了能影響自身的表型(如:行為),在許多研究中也被發現能影響後代的表型,進而提升後代的適存度,稱作親代效應。個體先前的打鬥經驗為一種社會經歷,許多的研究都發現先前的獲勝/落敗經驗會提升/降低個體的攻擊性。這些效應一般被認為有利於較強/較弱的個體在面對其他競爭者時適度的調整打鬥策略,提升個體的適存度。然而個體之獲勝/落敗經驗是否會影響其子代之打鬥行為則尚未被探討過。本研究目的之一即為檢測一個體之獲勝/落敗經驗,是否影響其子代的表型。另外,生活步調假說預測個體的行為、生理與生活史特徵具有關聯性:越積極的個體攻擊性越高、具有較高的睪固酮濃度及耗氧量、較低的皮質醇濃度以及展現較快之生長史策略。本研究目的之二則在檢測子代表型之間的相關性是否符合生活步調假說之預期。本實驗使用紅樹林鱂魚為實驗物種,強制給予親代個體指定的打鬥經驗(獲勝/落敗/控制經驗)後,觀察其子代個體的行為、生理及生活史策略,探討親代打鬥經驗是否影響子代的表型以及表型之間的相關性是否符合生活步調假說的預期。本研究結果顯示 (1)子代個體的睪固酮濃度受到親代打鬥經驗影響:親代具有落敗經驗,其子代的睪固酮濃度較高;(2)子代個體的攻擊性及勇敢程度受到親代打鬥能力影響:其親代打鬥能力較好,子代個體的攻擊性越高、勇敢程度越低;(3)子代個體表型之間的相關性和生活步調假說的預期不完全符合:行為特徵之間,攻擊性、勇敢程度及進食行為間,兩兩具有正相關;個體的生長速率、第一次生蛋時的年紀、各項行為均和耗氧量呈現正相關。上述相關性符合生活步調假說之預期。但個體孵化所需時間、第一次生蛋時的年紀和耗氧量呈正相關;個體的皮質醇濃度和耗氧量、攻擊性呈現正相關;此相關性則不符合生活步調假說之預期。總結上述,個體的睪固酮濃度受到親代打鬥獲勝/落敗經驗影響,在紅樹林鱂魚中展現出親代效應。另外在個體表型的相關性中,僅部分符合生活步調假說的預期。
Parental effects occur when the phenotype of an individual is affected by the phenotype or environment of its parents, and may increase the fitness of the offspring. Prior winning/losing experiences are known to increase/decrease individuals’ aggressiveness and modulate their fighting strategy in their next contest. The first purpose in my study is to determine whether winning/losing experiences suffered by parents will modify their offspring’s phenotypes. The pace-of-life syndrome hypothesis predicts that life-history and behavioural and physiological traits will co-vary under clearly defined conditions. The second purpose in my study is to examine whether the phenotypes influenced by winning/losing experiences are consistent with the pace-of-life syndrome hypothesis. Individuals of Kryptolebias marmoratus, a hermaphroditic killifish, were given different contest experiences (winning/ losing/ no experience) and the life-history and behavioural and physiological traits of their offspring were observed to examine the relationships between phenotypes and whether individual phenotypes were influenced by the parents’ winning/losing experiences. The results showed that: (1) individuals’ testosterone levels were influenced by their parents’ fighting experience — individuals whose parents had had losing experiences had higher levels of testosterone; (2) individuals’ aggressiveness and boldness were influenced by their parents’ fighting ability — individuals whose parents had better fighting ability were more aggressive but shyer; (3) the correlation between individuals’ behavioural, physiological and life-history traits partially matched the predictions of the pace-of-life syndrome hypothesis. Behavioural traits were correlated with each other; aggressiveness, boldness and feeding behaviour were positively correlated. The individuals’ growth rate, time to first reproduce and behaviours were positively correlated with oxygen consumption. These findings matched the predictions of the hypothesis. But some life-history traits were positively correlated with oxygen consumption, and cortisol levels were correlated with oxygen consumption and aggressiveness, which did not match the predictions. Overall, this study shows a parental effect in K. marmoratus; individuals’ phenotypes were influenced by parents’ fighting experience. Also, individual phenotypes were correlated with each other, partly matching the predictions of the pace-of-life syndrome hypothesis.
Arnott, G., & Elwood, R. (2009). Probing aggressive motivation in a cichlid fish. Biology Letters 5:762-764.
Arnott, G., & Elwood, R. W. (2007). Fighting for shells: how private information about resource value changes hermit crab pre-fight displays and escalated fight behaviour. Proceedings of the Royal Society B: Biological Sciences 274:3011-3017.
Badyaev, A. V., & Uller, T. (2009). Parental effects in ecology and evolution: mechanisms, processes and implications. Philosophical Transactions of the Royal Society B: Biological Sciences 364:1169-1177.
Bakker, T. C. M., Bruijn, E. F.-D. & Sevenster, P. (1989). Asymmetrical Effects of Prior Winning and Losing on Dominance in Sticklebacks (Gasterosteus aculeatus). Ethology 82:224-229.
Barki, A., Harpaz, S. & Karplus, I. (1997). Contradictory asymmetries in body and weapon size, and assessment in fighting male prawns, Macrobrachium rosenbergii. Aggressive Behavior: Official Journal of the International Society for Research on Aggression 23:81-91.
Beacham, J. L., & Newman, J. A. (1987). Social experience and the formation of dominance relationships in the pumpkinseed sunfish, Lepomis gibbosus. Animal Behaviour 35:1560-1563.
Bell, A. M., & Sih, A. (2007). Exposure to predation generates personality in threespined sticklebacks (Gasterosteus aculeatus). Ecology Letters 10:828-834.
Bernardo, J. 1996. Maternal Effects in Animal Ecology. American Zoologist 36:83-105.
Biro, P. A., Abrahams, M. V., Post, J. R., & Parkinson, E. A. (2004). Predators select against high growth rates and risk–taking behaviour in domestic trout populations. Proceedings of the Royal Society of London B: Biological Sciences 271:2233-2237.
Biro, P. A., & Stamps, J. A. (2008). Are animal personality traits linked to life-history productivity? Trends in Ecology & Evolution 23:361-368.
Blackmer, A. L., Mauck, R. A., Ackerman, J. T., Huntington, C. E., Nevitt, G. A., & Williams, J. B. (2005). Exploring individual quality: basal metabolic rate and reproductive performance in storm-petrels. Behavioral Ecology 16:906-913.
Bonduriansky, R., & Day, T. (2009). Nongenetic Inheritance and Its Evolutionary Implications. Annual Review of Ecology, Evolution, and Systematics 40:103-125.
Book, A. S., Starzyk, K. B., & Quinsey, V. L. (2001). The relationship between testosterone and aggression: a meta-analysis. Aggression and Violent Behavior 6:579-599.
Budaev, S., & Brown, C. (2011). Personality traits and behaviour. Fish cognition and behavior:135-165.
Careau, V., Réale, D., Humphries, M. M., & Thomas, D. W. (2010). The pace of life under artificial selection: personality, energy expenditure, and longevity are correlated in domestic dogs. The American Naturalist 175:753-758.
Chang, C., Li, C.-Y., Earley, R. L., & Hsu, Y. (2012). Aggression and related behavioral traits: the impact of winning and losing and the role of hormones. Integrative and Comparative Biology 52:801-813.
Chapman, M. R., & Kramer, D. L. (1996). Guarded resources: the effect of intruder number on the tactics and success of defenders and intruders. Animal Behaviour 52:83-94.
Cloutier, S., & Newberry, R. C. (2000). Recent social experience, body weight and initial patterns of attack predict the social status attained by unfamiliar hens in a new group. Behaviour 137:705-726.
Curley, J. P., Mashoodh, R., & Champagne, F. A. (2011). Epigenetics and the origins of paternal effects. Hormones and Behavior 59:306-314.
Dickerson, S. S., & Kemeny, M. E. (2004). Acute stressors and cortisol responses: a theoretical integration and synthesis of laboratory research. Psychological Bulletin 130:355.
Dickinson, J. L. 1992. Scramble competition polygyny in the milkweed leaf beetle: combat, mobility, and the importance of being there. Behavioral Ecology 3:32-41.
Dloniak, S. M., French, J. A., & Holekamp, K. E. (2006). Rank-related maternal effects of androgens on behaviour in wild spotted hyaenas. Nature 440:1190-1193.
Drummond, H., & Osorno J. L. (1992). Training siblings to be submissive losers: dominance between booby nestlings. Animal Behaviour 44:881-893.
Duckworth, R. A. 2009. Maternal effects and range expansion: a key factor in a dynamic process? Philosophical Transactions of the Royal Society B: Biological Sciences 364:1075-1086.
Earley, R. L., & Hsu, Y. (2008). Reciprocity between endocrine state and contest behavior in the killifish, Kryptolebias marmoratus. Hormones and Behavior 53:442-451.
Edenbrow, M., & Croft, D. P. (2013). Environmental and genetic effects shape the development of personality traits in the mangrove killifish Kryptolebias marmoratus. Oikos 122:667-681.
Eising, C. M., Eikenaar, C., Schwabl, H., & Groothuis T. G. (2001). Maternal androgens in black-headed gull (Larus ridibundus) eggs: consequences for chick development. Proceedings of the Royal Society B: Biological Sciences 268:839-846.
Eising, C. M., & Groothuis, T. G. (2003). Yolk androgens and begging behaviour in black-headed gull chicks: an experimental field study. Animal Behaviour 66:1027-1034.
Enquist, M., Leimar, O., Ljungberg, T., Mallner, Y., & Segerdahl, N. (1990). A test of the sequential assessment game: fighting in the cichlid fish Nannacara anomala. Animal Behaviour 40:1-14.
Fox, C. W., Thakar, M. S., & Mousseau, T. A. (1997). Egg size plasticity in a seed beetle: an adaptive maternal effect. The American Naturalist 149:149-163.
Grageda, M. V. C., Sakakura, Y., Minamimoto, M., & Hagiwara, A. (2005). Differences in life-history traits in two clonal strains of the self-fertilizing fish, Rivulus marmoratus. Environmental Biology of Fishes 73:427-436.
Harrington, R. W. 1961. Oviparous hermaphroditic fish with internal self-fertilization. Science 134:1749-1750.
Hsu, Y., Earley, R. L., & Wolf, L. L. (2006). Modulation of aggressive behaviour by fighting experience: mechanisms and contest outcomes. Biological reviews of the Cambridge Philosophical Society 81:33-74.
Hsu, Y., Lee, I.-H., & Lu, C.-K. (2009). Prior contest information: mechanisms underlying winner and loser effects. Behavioral Ecology and Sociobiology 63:1247-1257.
Hsu, Y., & Wolf, L. L. (1999). The winner and loser effect: integrating multiple experiences. Animal Behaviour 57:903-910.
Huang, S.-P., Yang, S.-Y., & Hsu, Y. (2011). Persistence of winner and loser effects depends on the behaviour measured. Ethology 117:171-180.
Huhman, K. L., Solomon, M. B., Janicki, M., Harmon, A. C., Lin, S. M., Israel, J. E., & Jasnow, A. M. (2003). Conditioned defeat in male and female syrian hamsters. Hormones and Behavior 44:293-299.
Huntingford, F. A. 1976. The relationship between anti-predator behaviour and aggression among conspecifics in the three-spined stickleback, Gasterosteus aculeatus. Animal Behaviour 24:245-260.
Kempenaers, B., Peters, A., & Foerster, K. (2008). Sources of individual variation in plasma testosterone levels. Philosophical Transactions of the Royal Society B: Biological Sciences 363:1711-1723.
Khazraı̈e, K., & Campan, M. (1999). The role of prior agonistic experience in dominance relationships in male crickets Gryllus bimaculatus (Orthoptera: Gryllidae). Behavioural Processes 44:341-348.
Koolhaas, J., Korte, S., De Boer, S., Van Der Vegt, B., Van Reenen, C., Hopster, H., De Jong, I., Ruis, M., & Blokhuis, H. (1999). Coping styles in animals: current status in behavior and stress-physiology. Neuroscience & Biobehavioral Reviews 23:925-935.
Lan, Y.-T., & Hsu, Y. (2011). Prior contest experience exerts a long-term influence on subsequent winner and loser effects. Frontiers in Zoology 8:28.
Lessells, C., Boag, P. T. (1987). Unrepeatable repeatabilities: a common mistake. The Auk 104:116-121.
Littell, R. C., Milliken, G. A., Stroup, W. W., & Wolfinger, R. D. (1996). SAS system for mixed models.
Lubinski, B., Davis, W., Taylor, D., & Turner, B. (1995). Outcrossing in a natural population of a self-fertilizing hermaphroditic fish. Journal of Heredity 86:469-473.
MacArther, R., & Wilson, E. (1967). The theory of island biogeography. Monographs in Population Biology.
Mackiewicz, M., Tatarenkov, A., Perry, A., Martin, J. R., Elder, J. F., Bechler, Jr, D. L., & Avise, J. C. (2006). Microsatellite documentation of male-mediated outcrossing between inbred laboratory strains of the self-fertilizing mangrove killifish (Kryptolebias Marmoratus). Journal of Heredity 97:508-513.
McGraw, K. O., & Wong, S. P. (1996). Forming inferences about some intraclass correlation coefficients. Psychological methods 1:30.
Mikics, É., Kruk, M. R., & Haller, J. (2004). Genomic and non-genomic effects of glucocorticoids on aggressive behavior in male rats. Psychoneuroendocrinology 29:618-635.
Mommsen, T. P., Vijayan, M. M., & Moon, T. W. (1999). Cortisol in teleosts: dynamics, mechanisms of action, and metabolic regulation. Reviews in Fish Biology and Fisheries 9:211-268.
Moore, A. J. 1990. The inheritance of social dominance, mating behaviour and attractiveness to mates in male Nauphoeta cinerea. Animal Behaviour 39:388-397.
Moore, D. S., & Shenk, D. (2017). The heritability fallacy. Wiley Interdisciplinary Reviews: Cognitive Science 8:e1400.
Morgan, J. D., & Iwama, G. K. (1996). Cortisol-induced changes in oxygen consumption and ionic regulation in coastal cutthroat trout (Oncorhynchus clarki clarki) parr. Fish Physiology and Biochemistry 15:385-394.
Moss, R., & Watson, A. 1982. Heritability of egg size, hatch weight, body weight, and viability in Red Grouse (Lagopus lagopus scoticus). The Auk 99:683-686.
Mousseau, T. A., & Fox, C. W. (1998). The adaptive significance of maternal effects. Trends in Ecology & Evolution 13:403-407.
Neat, F. C., Taylor, A. C., & Huntingford, F. A. (1998). Proximate costs of fighting in male cichlid fish: the role of injuries and energy metabolism. Animal Behaviour 55:875-882.
Niemela, P. T., Dingemanse, N. J., Alioravainen, N., Vainikka, A., & Kortet, R. (2013). Personality pace-of-life hypothesis: testing genetic associations among personality and life history. Behavioral Ecology 24:935-941.
Nilsson, J. Å. (2002). Metabolic consequences of hard work. Proceedings of the Royal Society B: Biological Sciences 269:1735-1739.
Oliveira, R. F. (2009). Social behavior in context: hormonal modulation of behavioral plasticity and social competence. Integrative and Comparative Biology 49:423-440.
Øverli, Ø., Kotzian, S., & Winberg, S. (2002). Effects of cortisol on aggression and locomotor activity in rainbow trout. Hormones and Behavior 42:53-61.
Øverli, Ø., Sørensen, C., Pulman, K. G., Pottinger, T. G., Korzan, W., Summers, C. H., & Nilsson, G. E. (2007). Evolutionary background for stress-coping styles: relationships between physiological, behavioral, and cognitive traits in non-mammalian vertebrates. Neuroscience & Biobehavioral Reviews 31:396-412.
Øverli, Ø., Winberg, S., & Pottinger, T. G. (2005). Behavioral and neuroendocrine correlates of selection for stress responsiveness in rainbow trout—a review. Integrative and Comparative Biology 45:463-474.
Réale, D., Garant, D., Humphries, M. M., Bergeron, P., Careau, V., & Montiglio, P.-O. (2010). Personality and the emergence of the pace-of-life syndrome concept at the population level. Philosophical Transactions of the Royal Society B: Biological Sciences 365:4051-4063.
Roach, D. A., & Wulff, R. D. (1987). Maternal effects in plants. Annual Review of Ecology and Systematics 18:209-235.
Rossiter, M. (1998). The role of environmental variation in parental effects expression. Maternal effects as adaptations:112-134.
Rubinow, D. R., & Schmidt, P. J. (1996). Androgens, brain, and behavior. The American journal of psychiatry 153:974.
Schuett, G. W. (1997). Body size and agonistic experience affect dominance and mating success in male copperheads. Animal Behaviour 54:213-224.
Schwabl, H. (1996). Maternal testosterone in the avian egg enhances postnatal growth. Comparative Biochemistry and Physiology Part A: Physiology 114:271-276.
Scott, A., Pinillos, M., & Ellis, T. (2001). Why measure steroids in fish plasma when you can measure them in water? In Perspectives in comparative endocrinology: unity and diversity: the proceedings of the 14th international congress of comparative endocrinology, Sorrento, Italy 26-30.
Scott, A. P., & Ellis, T. (2007). Measurement of fish steroids in water—a review. General and Comparative Endocrinology 153:392-400.
Sih, A., Bell, A., & Johnson, J. C. (2004). Behavioral syndromes: an ecological and evolutionary overview. Trends in Ecology & Evolution 19:372-378.
Sih, A., & Bell, A. M. (2008). Insights for behavioral ecology from behavioral syndromes. Advances in the Study of Behavior 38:227-281.
Smith, J. M., & Parker, G. A. (1976). The logic of asymmetric contests. Animal Behaviour 24:159-175.
Soma, K. (2006). Testosterone and aggression: berthold, birds and beyond. Journal of neuroendocrinology 18:543-551.
Stamps, J., & Groothuis, T. G. G. (2010). The development of animal personality: relevance, concepts and perspectives. Biological Reviews 85:301-325.
Stamps, J. A. (2007). Growth-mortality tradeoffs and ‘personality traits’ in animals. Ecology Letters 10:355-363.
Stearns, S. C. (1976). Life-history tactics: a review of the ideas. The Quarterly Review of Biology 51:3-47.
Summers, C. H., Watt, M. J., Ling, T. L., Forster, G. L., Carpenter, R. E., Korzan, W. J., Lukkes, J. L., & Øverli, Ø. (2005). Glucocorticoid interaction with aggression in non-mammalian vertebrates: reciprocal action. European journal of pharmacology 526:21-35.
Tatarenkov, A., Earley, R. L., Taylor, D. S., & Avise, J. C. (2012). Microevolutionary distribution of isogenicity in a self-fertilizing fish (Kryptolebias marmoratus) in the Florida Keys. Integrative and Comparative Biology 52:743-752.
Tatarenkov, A., Ring, B. C., Elder, J. F., Bechler, D. L., & Avise, J. C. (2010). Genetic composition of laboratory stocks of the self-fertilizing fish Kryptolebias marmoratus: A valuable resource for experimental research. PLoS ONE 5:e12863.
Taylor, D. S. (2000). Biology and ecology of Rivulus marmoratus: new insights and a review. Florida Scientist 63:242-255.
Taylor, D. S. (2012). Twenty-four years in the mud: what have we learned about the natural history and ecology of the mangrove rivulus, Kryptolebias marmoratus? Integrative and Comparative Biology 52:724-736.
Taylor, D. S., Fisher, M. T., & Turner, B. J. (2001). Homozygosity and heterozygosity in three populations of Rivulus marmoratus. Environmental Biology of Fishes 61:455-459.
Taylor, D. S., Turner, B. J., Davis, W. P., & Chapman, B. B. (2008). A novel terrestrial fish habitat inside emergent logs. The American Naturalist 171:263-266.
van Oers, K., Buchanan, K. L., Thomas, T. E., & Drent, P. J. (2011). Correlated response to selection of testosterone levels and immunocompetence in lines selected for avian personality. Animal Behaviour 81:1055-1061.
Wallen, K., & Wojciechowski-Metzlar, C. I. (1985). Social conditioning and dominance in male betta splendens. Behavioural Processes 11:181-188.
Whitehouse, M. E. A. (1997). Experience influences male–male contests in the spider Argyrodes antipodiana(Theridiidae: Araneae). Animal Behaviour 53:913-923.
Wiersma, P., Muñoz-Garcia, A., Walker, A., & Williams, J. B. (2007). Tropical birds have a slow pace of life. Proceedings of the National Academy of Sciences 104:9340.
Wingfield, J. C., Hegner, R. E., Dufty Jr, A. M., & Ball, G. F. (1990). The "challenge hypothesis": theoretical implications for patterns of testosterone secretion, mating systems, and breeding strategies. The American Naturalist 136:829-846.
Wingfield, J. C., Lynn, S. E., & Soma, K. K. (2001). Avoiding the ‘costs’ of testosterone: ecological bases of hormone-behavior interactions. Brain, Behavior and Evolution 57:239-251.
Wolf, M., van Doorn, G. S., Leimar, O., & Weissing, F. J. (2007). Life-history trade-offs favour the evolution of animal personalities. Nature 447:581-584.