影响鸟类婚外交配行为的生态因素
The Impact of Biological Factors on Extra-Pair Copulation in Avain
DOI: 10.12677/OJNS.2020.83022, PDF,   
作者: 魏 赛*:武汉大学生命科学学院,湖北 武汉
关键词: 婚外父权婚配制度生态因素Extra-Pair Paternity Mating System Ecological Factors
摘要: 单配制鸟类的婚外交配行为在自然界中十分常见,自上世纪70年代以来,这一行为的发生机制一直是生态学家研究的热点。诸多学者对导致婚外交配行为发生的因素进行了各种解释,其中不乏对生态因素的探讨。本文在过去近40年关于婚外交配相关研究的基础上,主要介绍了鸟类婚外交配的适应性原因以及纬度、气候和栖息地的复杂性等大规模生态因素对婚外交配行为的影响,并提出一些在研究中出现问题以及对未来研究的展望。
Abstract: Extra-pair copulation is quite normal among socially monogamous species in our nature, the mechanism of this behavior has been a hot area of research for ecologists since the 1970s. Many researchers try to explain the factors that cause the behavior of extra-pair copulation, a large amount of these studies focus on the ecological factors. Base on the relative researches about extra-pair copulation in the past 40 years, this paper introduced the adaption of the extra-pair paternity and the impact of latitude, climatic variability and habitat complexity on the extra-pair behavior, some problems exist during the studies and expectation in the future also referred.
文章引用:魏赛. 影响鸟类婚外交配行为的生态因素[J]. 自然科学, 2020, 8(3): 163-168. https://doi.org/10.12677/OJNS.2020.83022

参考文献

[1] Burke, T. and Bruford, M.W. (1987) DNA Fingerprinting in Birds. Nature, 327, 149-152. [Google Scholar] [CrossRef] [PubMed]
[2] Griffith, S.C., Owens, I.P.F. and Thuman, K.A. (2002) Extra Pair Pa-ternity in Birds: A Review of Interspecific Variation and Adaptive Function. Molecular Ecology, 11, 2195-2212. [Google Scholar] [CrossRef
[3] 王琛. 青藏高原地山雀的社会组织和配偶选择[D]: [博士学位论文]. 武汉: 武汉大学生命科学学院, 2010.
[4] Arct, A., Drobniak, S.M. and Cichoń, M. (2015) Genetic Similarity between Mates Predicts Extrapair Paternity—A Meta-Analysis of Bird Studies. Behavioral Ecology, 26, 959-968. [Google Scholar] [CrossRef
[5] Drobniak, S.M., Arct, A. and Cichoń, M. (2015) Extrapair Paternity and Genetic Similarity—We Are Not Quite There Yet: A Response to Comments on Arct et al. Behavioral Ecology, 26, 973-974. [Google Scholar] [CrossRef
[6] Forstmeier, W., Nakagawa, S., Griffith, S.C. and Kempenaers, B. (2014) Female Extra-Pair Mating: Adaptation or Genetic Constraint? Trends in Ecology and Evolution, 29, 456-464. [Google Scholar] [CrossRef] [PubMed]
[7] Nakagawa, S., Schroeder, J. and Burke, T. (2015) Sugar-Free Extrapair Mating: A Comment on Arct et al. Behavioral Ecology, 26, 971-972. [Google Scholar] [CrossRef
[8] Dunn, P.O. and Whittingham, L.A. (2006) Search Costs Influence the Spatial Distribution, But Not the Level, of Extra-Pair Mating in Tree Swallows. Behavioral Ecology and Socio-biology, 61, 449-454. [Google Scholar] [CrossRef
[9] Matysioková, B. and Remeš, V. (2013) Faithful Females Receive More Help: The Extent of Male Parental Care during Incubation in Relation to Extra-Pair Paternity in Songbirds. Journal of Evolutionary Biology, 26, 155-162. [Google Scholar] [CrossRef] [PubMed]
[10] Poiani, A. and Wilks, C. (2000) Sexually Transmitted Diseases: A Possible Cost of Promiscuity in Birds? The Auk, 117, 1061-1065. [Google Scholar] [CrossRef
[11] Tryjanowski, P. and Hromada, M. (2005) Do Males of the Great Grey Shrike, Lanius Excubitor, Trade Food for Extrapair Copulations? Animal Behaviour, 69, 529-533. [Google Scholar] [CrossRef
[12] Gray, E.M. (1997) Female Red-Winged Blackbirds Ac-crue Material Benefits from Copulating with Extra-Pair Males. Animal Behaviour, 53, 625-639. [Google Scholar] [CrossRef
[13] Townsend, A.K., Clark, A.B. and McGowan, K.J. (2010) Direct Benefits and Genetic Costs of Extrapair Paternity for Female American Crows (Corvus brachyrhynchos). The American Naturalist, 175, E1-E9. [Google Scholar] [CrossRef] [PubMed]
[14] Sheldon, B.C. (1994) Male Phenotype, Fertility, and the Pursuit of Ex-tra-Pair Copulations by Female Birds. Proceedings of the Royal Society of London Series B: Biological Sciences, 257, 25-30. [Google Scholar] [CrossRef
[15] Akçay, E. and Roughgarden, J. (2007) Extra-Pair Paternity in Birds: Review of the Genetic Benefits. Evolutionary Ecology Research, 9, 855-868.
[16] Arnqvist, G. and Kirkpatrick, M. (2005) The Evolution of Infidelity in Socially Monogamous Passerines: The Strength of Direct and Indirect Selection on Extrapair Copulation Behavior in Females. American Naturalist, 165, S26-S37. [Google Scholar] [CrossRef] [PubMed]
[17] Hsu, Y.-H., Schroeder, J., Winney, I., Burke, T. and Nakagawa, S. (2015) Are Extra-Pair Males Different from Cuckolded Males? A Case Study and a Meta-Analytic Examination. Molecular Ecology, 24, 1558-1571. [Google Scholar] [CrossRef] [PubMed]
[18] Forstmeier, W., Martin, K., Bolund, E., Schielzeth, H. and Kempenaers, B. (2011) Female Extrapair Mating Behavior Can Evolve via Indirect Selection on Males. Proceedings of the Na-tional Academy of Sciences, 108, 10608-10613. [Google Scholar] [CrossRef] [PubMed]
[19] Reid, J.M. and Wolak, M.E. (2018) Is There Indirect Selection on Female Extra-Pair Reproduction through Cross-Sex Genetic Correlations with Male Reproductive Fitness? Evo-lution Letters, 2, 159-168. [Google Scholar] [CrossRef] [PubMed]
[20] Stutchbury, B.J.M. and Morton, E.S. (1995) The Effect of Breeding Synchrony on Extra-Pair Mating Systems in Songbirds. Behaviour, 132, 675-690. [Google Scholar] [CrossRef
[21] Birkhead, T.R. and Biggins, J.D. (1987) Reproductive Syn-chrony and Extra-Pair Copulations in Birds. Ethology, 74, 320-334. [Google Scholar] [CrossRef
[22] Ims, R.A. (1990) The Ecology and Evolution of Reproductive Synchrony. Trends in Ecology and Evolution, 5, 135-140. [Google Scholar] [CrossRef] [PubMed]
[23] Westneat, D.F., Sherman, P.W. and Morton, M.L. (1990) The Ecology and Evolution of Extra-Pair Copulations in Birds. In: Power, D.M., Ed., Current Ortnithology, Vol. 7, Plenum Press, New York, 331-369.
[24] Lifjeld, J.T., Slagsvold, T. and Ellegren, H. (1997) Experimental Mate Switching in Pied Flycatchers: Male Copulatory Access and Fertilization Success. Animal Behaviour, 53, 1225-1232. [Google Scholar] [CrossRef] [PubMed]
[25] Stutchbury, B.J.M. (1998) Breeding Synchrony Best Explains Variation in Extra-Pair Mating System among Avian Species. Behavioral Ecology and Sociobiology, 43, 221-222. [Google Scholar] [CrossRef
[26] Chuang, H.C., Webster, M.S. and Holmes, R.T. (1999) Extrapair Paternity and Local Synchrony in the Black-Throated Blue Warbler. The Auk, 116, 726-736. [Google Scholar] [CrossRef
[27] MacArthur, R.H. (1964) Environmental Factors Affecting Bird Species Diversity. American Naturalist, 98, 387-397. [Google Scholar] [CrossRef
[28] Englert Duursma, D., Gallagher, R.V. and Griffith, S.C. (2017) Charac-terizing Opportunistic Breeding at a Continental Scale Using All Available Sources of Phenological Data: An As-sessment of 337 Species across the Australian Continent. The Auk, 134, 509-519. [Google Scholar] [CrossRef
[29] Spottiswoode, C. and Møller, A.P. (2004) Extrapair Paternity, Migration, and Breeding Synchrony in Birds. Behavioral Ecology, 15, 41-57. [Google Scholar] [CrossRef
[30] Cardillo, M. (2002) The Life-History Basis of Latitudinal Diversity Gradients: How Do Species Traits Vary from the Poles to the Equator? Journal of Animal Ecology, 71, 79-87. [Google Scholar] [CrossRef
[31] Gillman, L.N., Wright, S.D., Cusens, J., McBride, P.D., Malhi, Y. and Whittaker, R.J. (2015) Latitude, Productivity and Species Richness: Latitude and Productivity. Global Ecology and Biogeography, 24, 107-117. [Google Scholar] [CrossRef
[32] Muñoz, A.P., Kéry, M., Martins, P.V. and Ferraz, G. (2018) Age Ef-fects on Survival of Amazon Forest Birds and the Latitudinal Gradient in Bird Survival. The Auk, 135, 299-313. [Google Scholar] [CrossRef
[33] Botero, C.A. and Rubenstein, D.R. (2012) Fluctuating Environ-ments, Sexual Selection and the Evolution of Flexible Mate Choice in Birds. PLoS ONE, 7, e32311. [Google Scholar] [CrossRef] [PubMed]
[34] Michl, G., Toeroek, J., Griffith, S.C. and Sheldon, B.C. (2002) Experimental Analysis of Sperm Competition Mechanisms in a Wild Bird Population. Proceedings of the National Academy of Sciences of the United States of America, 99, 5466-5470. [Google Scholar] [CrossRef] [PubMed]
[35] Sherman, P.W. and Morton, M.L. (1988) Extra-Pair Fertilizations in Mountain White-Crowned Sparrows. Behavioral Ecology and Sociobiology, 22, 413-420. [Google Scholar] [CrossRef
[36] Westneat, D.F. (1994) To Guard Mates or Go Forage-Conflicting Demands Affect the Paternity of Male Red-Winged Blackbirds. American Naturalist, 144, 343-354. [Google Scholar] [CrossRef
[37] Griffith, S.C. (2007) The Evolution of Infidelity in Socially Monogamous Passerines: Neglected Components of Direct and Indirect Selection. The American Naturalist, 169, 274-281. [Google Scholar] [CrossRef] [PubMed]
[38] Mays, H.L. and Ritchison, G. (2004) The Effect of Vegetation Density on Male Mate Guarding and Extra-Territorial Forays in the Yellow-Breasted Chat (Icteria virens). Naturwissenschaften, 91, 195-198. [Google Scholar] [CrossRef] [PubMed]
[39] Harts, A.M.F., Booksmythe, I. and Jennions, M.D. (2016) Mate Guarding and Frequent Copulation in Birds: A Meta-Analysis of Their Relationship to Paternity and Male Phenotype. Evolution, 70, 2789-2808. [Google Scholar] [CrossRef] [PubMed]
[40] Tryjanowski, P., Antczak, M. and Hromada, M. (2007) More Secluded Places for Extra-Pair Copulations in the Great Grey Shrike Lanius excubitor. Behaviour, 144, 23-31. [Google Scholar] [CrossRef
[41] Ramos, A.G., Nunziata, S.O., Lance, S.L., Rodríguez, C., Faircloth, B.C., Gowaty, P.A. and Drummond, H. (2014) Habitat Structure and Colony Structure Constrain Extrapair Paternity in a Colonial Bird. Animal Behaviour, 95, 121-127. [Google Scholar] [CrossRef
[42] Westneat, D.F. and Mays, H.L. (2005) Tests of Spatial and Temporal Factors Influencing Extra-Pair Paternity in Red-Winged Blackbirds: Factors Affecting EPP. Molecular Ecology, 14, 2155-2167. [Google Scholar] [CrossRef
[43] Biagolini, C., Westneat, D.F. and Francisco, M.R. (2017) Does Habitat Structural Complexity Influence the Frequency of Extra-Pair Paternity in Birds? Behavioral Ecology and Sociobiology, 71, Article No. 101. [Google Scholar] [CrossRef
[44] Double, M. and Cockburn, A. (2000) Pre-Dawn Infidelity: Females Control Extra-Pair Mating in Superb Fairy-Wrens. Proceedings of the Royal Society of London Series B: Biological Sciences, 267, 465-470. [Google Scholar] [CrossRef] [PubMed]
[45] Ward, M.P., Alessi, M., Benson, T.J. and Chiavacci, S.J. (2014) The Active Nightlife of Diurnal Birds: Extraterritorial Forays and Nocturnal Activity Patterns. Animal Behaviour, 88, 175-184. [Google Scholar] [CrossRef