首页 > 过刊浏览>2024年第59卷第4期 >481-492. DOI:10.13859/j.cjz.202424032
PDF HTML阅读 XML下载 导出引用 引用提醒
宿主鸟类防御杜鹃巢寄生的策略
作者:
作者单位:

1.北方民族大学生物科学与工程学院 银川 750021;2.热带岛屿生态学教育部重点实验室,海南省热带动植物生态学重点实验室,海南师范大学生命科学学院 海口 571158

作者简介:

刘建平,男,讲师;研究方向:鸟类行为生态;E-mail:liujp@nun.edu.cn。

中图分类号:

Q958

基金项目:

国家自然科学基金项目(No. 32270526,31970427,32160242);


Strategies of Host Defense Against Cuckoo Parasitism
Author:
Affiliation:

1.College of Biological Sciences and Engineering, North Minzu University, Yinchuan 750021; 2.Ministry of Education Key Laboratory for Ecology of Tropical Islands, Key Laboratory of Tropical Animal and Plant Ecology of Hainan Province, College of Life Sciences, Hainan Normal University, Haikou 571158, China

  • 摘要
    • | |
  • 访问统计
    • |
  • 参考文献 [118]
    • |
  • 相似文献 [20]
    • | | |
  • 文章评论
    摘要:

    为了消除巢寄生给自身繁殖带来的不利影响,许多宿主进化出反寄生策略来提高自身的适合度。越来越多的研究表明,宿主的反寄生防御手段可能发生在其生活史周期的各个阶段。本文分别从巢、卵和雏鸟三个阶段对宿主鸟类的反寄生策略进行综述,主要包括巢防御、卵识别、雏鸟识别和雏鸟出飞阶段的防御策略及各阶段的主要研究方法,以期为深入研究鸟类的巢寄生行为提供参考。

    Abstract:

    In order to mitigate the detrimental impacts of brood parasitism on their own reproduction, many hosts have evolved anti-parasitism strategies to enhance their fitness. Many studies have shown that the host’s antiparasitic defenses may occur at different stages of its life cycle. In this review, we discussed various host defenses against cuckoo parasitism at different stages of the breeding cycle, e.g., nest defense, egg recognition and egg rejection, nestling and fledgling discrimination, and then outlined basic research methods in host defense used for the field experiment.

    参考文献
    Arco L, Peralta-Sánchez J M, Martín-Vivaldi M, et al. 2023. Fledgling discrimination in the hoopoe, a potential host species of the great spotted cuckoo. Behavioral Ecology and Sociobiology, 77(6):61.
    Attisano A, Gill B J, Anderson M G, et al. 2023. Polymorphism at the nestling stage and host-specific mimicry in an Australasian cuckoo-host arms race. Journal of Animal Ecology, 92(1):30–43.
    Attisano A, Sato N J, Tanaka K D, et al. 2021. Discrimination and ejection of eggs and nestlings by the fan-tailed gerygone from New Caledonia. Current Zoology, 67(6):653–663.
    Avilés J M, Soler J J, Pérez-Contreras T. 2006. Dark nests and egg colour in birds:a possible functional role of ultraviolet reflectance in egg detectability. Proceedings of the Royal Society London B:Biological Sciences, 273(1603):2821–2829.
    Bán M, Moskát C, Barta Z, et al. 2013. Simultaneous viewing of own and parasitic eggs is not required for egg rejection by a cuckoo host. Behavioral Ecology, 24(4):1014–1021.
    Bártol I, Karcza Z, Moskát C, et al. 2002. Responses of great reed warblers Acrocephalus arundinaceus to experimental brood parasitism:the effects of a cuckoo Cuculus canorus dummy and egg mimicry. Journal of Avian Biology, 33(4):420–425.
    Brown M, Lawes M J. 2007. Colony size and nest density predict the likelihood of parasitism in the colonial southern red bishop Euplectes orix-diderick cuckoo Chrysococcyx caprius system. Ibis, 149(2):321–327.
    Caves E M, Dixit T, Colebrook-Robjent J F R, et al. 2021. Hosts elevate either within-clutch consistency or between-clutch distinctiveness of egg phenotypes in defence against brood parasites. Proceedings of the Royal Society London B:Biological Sciences, 288(1953):20210326.
    Chance E P. 1940. The Truth About the Cuckoo. London:Country Life.
    Colombelli-Négrel D, Hauber M E, Robertson J, et al. 2012. Embryonic learning of vocal passwords in superb fairy-wrens reveals intruder cuckoo nestlings. Current Biology, 22(22):2155–2160.
    Cox W A, Thompson F R III, Cox A S, et al. 2014. Post-fledging survival in passerine birds and the value of post-fledging studies to conservation. The Journal of Wildlife Management, 78(2):183–193.
    Davies N B. 2000. Cuckoos, Cowbirds and Other Cheats. London, UK:T & AD Poyser.
    Davies N B. 2011. Cuckoo adaptations:trickery and tuning. Journal of Zoology, 284(1):1–14.
    Davies N B, Brooke M de L. 1988. Cuckoos versus reed warblers:Adaptations and counteradaptations. Animal Behaviour, 36(1):262–284.
    Davies N B, Brooke M de L. 1989. An experimental study of co-evolution between the cuckoo, Cuculus canorus, and its hosts. I. Host egg discrimination. Journal of Animal Ecology, 58(1):207–224.
    Davies N B, Welbergen J A. 2009. Social transmission of a host defense against cuckoo parasitism. Science, 324(5932):1318– 1320.
    De Mársico M C, Fiorini V D, Tuero D T, et al. 2017. Parasite adaptations during the nestling and fledgling stages // Soler M. Avian Brood Parasitism:Behaviour, Ecology, Evolution and Coevolution. Cham:Springer International Publishing, 557–574.
    De Mársico M C, Gantchoff M G, Reboreda J C. 2012. Host-parasite coevolution beyond the nestling stage? Mimicry of host fledglings by the specialist screaming cowbird. Proceedings of the Royal Society London B:Biological Sciences, 279(1742):3401–3408.
    Deng W H. 2013. Brood parasitism on the Yellow-rumped Flycatcher (Ficedula zanthopygia) by the Oriental Cuckoo (Cuculus optatus) in an artificial nestbox in Beijing. Avian Research, 4(2):187–188.
    Erritz?e J, Mann C F, Brammer F, et al. 2012. Cuckoos of the World. London:Christopher Helm.
    Expósito-Granados M, Parejo D, Martínez J G, et al. 2017. Host nest site choice depends on risk of cuckoo parasitism in magpie hosts. Behavioral Ecology, 28(6):1492–1497.
    Feeney W E, Welbergen J A, Langmore N E. 2012. The frontline of avian brood parasite-host coevolution. Animal Behaviour, 84(1):3–12.
    Feng C Z, Yang C C, Liang W. 2019. Nest sanitation facilitates egg recognition in the common tailorbird, a plaintive cuckoo host. Zoological Research, 40(5):466–470.
    Golüke S, D?rrenberg S, Krause E T, et al. 2016. Female Zebra Finches smell their eggs. PLoS ONE, 11(5):e0155513.
    Grim T. 2007. Experimental evidence for chick discrimination without recognition in a brood parasite host. Proceedings of the Royal Society B:Biological Sciences, 274(1608):373–381.
    Grim T, Sama? P. 2016. Growth performance of nestling cuckoos Cuculus canorus in cavity nesting hosts. Acta Ornithologica, 51(2):175–188.
    Grüebler M U, Naef-Daenzer B. 2010. Survival benefits of post- fledging care:experimental approach to a critical part of avian reproductive strategies. Journal of Animal Ecology, 79(2):334– 341.
    Hauber M E, Winnicki S K, Hoover J P, et al. 2021. The limits of egg recognition:testing acceptance thresholds of American robins in response to decreasingly egg-shaped objects in the nest. Royal Society Open Science, 8(1):201615.
    Honza M, Polaciková L. 2008. Experimental reduction of ultraviolet wavelengths reflected from parasitic eggs affects rejection behaviour in the blackcap Sylvia atricapilla. The Journal of Experimental Biology, 211(15):2519–2523.
    Huo J, Yang C C, Su T P, et al. 2018. Russet Sparrows spot alien chicks from their nests. Avian Research, 9(1):12.
    Krüger O, Davies N B, Sorenson M D. 2007. The evolution of sexual dimorphism in parasitic cuckoos:sexual selection or coevolution? Proceedings of the Royal Society London B:Biological Sciences, 274(1617):1553–1560.
    Lahti D C. 2006. Persistence of egg recognition in the absence of cuckoo brood parasitism:pattern and mechanism. Evolution, 60(1):157–168.
    Langmore N E, Hunt S, Kilner R M. 2003. Escalation of a coevolutionary arms race through host rejection of brood parasitic young. Nature, 422:157–160.
    Lawes M J, Kirkman S. 1996. Egg recognition and interspecific brood parasitism rates in red bishops (Aves:Ploceidae). Animal Behaviour, 52(3):553–563.
    Lawes M J, Marthews T R. 2003. When will rejection of parasite nestlings by hosts of nonevicting avian brood parasites be favored? A misimprinting-equilibrium model. Behavioral Ecology, 14(6):757–770.
    Lawson S L, Enos J K, Gill S A, et al. 2021. Eavesdropping on referential yellow warbler alarm calls by red-winged blackbirds is mediated by brood parasitism risk. Frontiers in Ecology and Evolution, 9:706170.
    Leclaire S, Bourret V, Bonadonna F. 2017. Blue petrels recognize the odor of their egg. The Journal of Experimental Biology, 220(17):3022–3025.
    Li D L, Wei H W, Zhang Z W, et al. 2015. Oriental reed warbler (Acrocephalus orientalis) nest defence behaviour towards brood parasites and nest predators. Behaviour, 152(12/13):1601–1621.
    Liang W, M?ller A P. 2015. Hawk mimicry in cuckoos and anti-parasitic aggressive behavior of barn swallows in Denmark and China. Journal of Avian Biology, 46(2):216–223.
    Liang W, M?ller A P, Stokke B G, et al. 2016. Geographic variation in egg ejection rate by great tits across 2 continents. Behavioral Ecology, 27(5):1405–1412.
    Liang W, Yang C C, Wang L W, et al. 2013. Avoiding parasitism by breeding indoors:cuckoo parasitism of hirundines and rejection of eggs. Behavioral Ecology and Sociobiology, 67(6):913–918.
    Liu C Y, Ye P, Cai Y, et al. 2021. Persistent fine-tuning of egg rejection based on parasitic timing in a cuckoo host even after relaxation of parasitism pressure. Behavioural Processes, 193:104532.
    Liu J M, Zhang F F, Liu Y R, et al. 2023b. Egg recognition and nestling discrimination in the Crested Myna (Acridotheres cristatellus):Size matters. Avian Research, 14:100111.
    Liu J P, Wang L W, Liang W. 2023a. Egg rejection and egg recognition mechanism in a Chinese Azure-winged Magpie (Cyanopica cyanus) population. Avian Research, 14:100112.
    Liu J P, Yang C C, Yu J P, et al. 2019. Egg recognition in Cinereous Tits (Parus cinereus):eggshell spots matter. Avian Research, 10:37.
    Liu J P, Zhang L, Zhang L, et al. 2020. Egg recognition abilities of tit species in the Paridae family:do Indomalayan tits exhibit higher recognition than Palearctic tits? Zoological Research, 41(6):726–733.
    Lyu N, Liang W. 2021. Parasitism is always costly to the host. Zoological Research, 42(2):217–220.
    Ma L K, Liang W. 2021. Egg rejection and egg recognition mechanisms in Oriental Reed Warblers. Avian Research, 12:47.
    Ma L K, Liu J P, Yang C C, et al. 2022. Egg mimicry and host selection by common cuckoos among four sympatric host species breeding within a reed habitat. Biological Journal of the Linnean Society, 135(2):407–415.
    Ma L K, Yang C C, Liang W. 2018a. Hawk mimicry does not reduce attacks of cuckoos by highly aggressive hosts. Avian Research, 9:35.
    Ma L K, Yang C C, Liu J P, et al. 2018b. Costs of breeding far away from neighbors:Isolated host nests are more vulnerable to cuckoo parasitism. Behavioural Processes, 157:327–332.
    Mann C F. 2017. A taxonomic review of obligate and facultative interspecific avian brood parasitism // Soler M. Avian Brood Parasitism:Behaviour, Ecology, Evolution and Coevolution. Cham:Springer International Publishing, 61–92.
    Merondun J, Marques C I, Andrade P, et al. 2024. Evolution and genetic architecture of sex-limited polymorphism in cuckoos. Science Advances, 10(17):eadl5255.
    Meshcheryagina S G, Golovatin M G, Bachurin G N. 2016. Experimental study of discrimination behavior in the yellow- browed warbler (Phylloscopus inornatus) brood-parasitized by the oriental cuckoo (Cuculus (saturatus) optatus). Russian Journal of Ecology, 47(1):104–106.
    Molina-Morales M, Gómez J, Li?án-Cembrano G, et al. 2021. The role of intra-clutch variation of magpie clutches in foreign egg rejection depends on the egg trait considered. Frontiers in Ecology and Evolution, 9:702637.
    M?ller A P, Díaz M, Liang W. 2016. Brood parasitism and proximity to human habitation. Behavioral Ecology, 27(5):1314–1319.
    Molnár B. 1944. The cuckoo in the Hungarian plain. Aquila, 51:100–112.
    Moskát C, Z?lei A, Bán M, et al. 2014. How to spot a stranger’s egg? A mimicry-specific discordancy effect in the recognition of parasitic eggs. Ethology, 120(6):616–626.
    Mu?oz A R, Altamirano M, Takasu F, et al. 2007. Nest light environment and the potential risk of common cuckoo (Cuculus canorus) parasitism. The Auk, 124(2):619–627.
    Naef-Daenzer B, Grüebler M U. 2016. Post-fledging survival of altricial birds:ecological determinants and adaptation. Journal of Field Ornithology, 87(3):227–250.
    Noh H J, Gloag R, Langmore N E. 2018. True recognition of nestlings by hosts selects for mimetic cuckoo chicks. Proceedings of the Royal Society London B:Biological Sciences, 285(1880):20180726.
    Noh H J, Gloag R, Leit?o A V, et al. 2021. Imperfect mimicry of host begging calls by a brood parasitic cuckoo:a cue for nestling rejection by hosts? Current Zoology, 67(6):665–674.
    Payne R B. 2005. The Cuckoos. Oxford:Oxford University Press.
    R?skaft E, Liang W, Stokke B G. 2012. Avian brood parasitism-a growing research area in behavioral ecology. Avian Research, 3(4):243–244.
    Rothstein S I. 1970. An Experimental Investigation of the Defenses of the Hosts of the Parasitic Brown-Headed Cowbird (Molothrus ater). PhD dissertation, New Haven:Yale University.
    Rothstein S I. 1990. A model system for coevolution:avian brood parasitism. Annual Review of Ecology and Systematics, 21:481–508.
    Rutila J, Latja R, Koskela K. 2002. The common cuckoo Cuculus canorus and its cavity nesting host, the redstart Phoenicurus phoenicurus:a peculiar cuckoo-host system? Journal of Avian Biology, 33(4):414–419.
    Sama? P, Hauber M E, Honza M. 2021. A meta-analysis of avian egg traits cueing egg-rejection defenses against brood parasitism. Frontiers in Ecology and Evolution, 9:703208.
    Sato N J, Tokue K, Noske R A, et al. 2010. Evicting cuckoo nestlings from the nest:a new anti-parasitism behaviour. Biology Letters, 6(1):67–69.
    Saunders C A, Arcese P, O’Connor K D. 2003. Nest site characteristics in the song sparrow and parasitism by brown-headed cowbirds. The Wilson Bulletin, 115(1):24–28.
    Soler M. 2014. Long-term coevolution between avian brood parasites and their hosts. Biological Reviews, 89(3):688–704.
    Soler M. 2017. Avian Brood Parasitism:Behaviour, Ecology, Evolution and Coevolution. Cham:Springer International Publishing.
    Soler M, de Neve L, Roncalli G, et al. 2014. Great spotted cuckoo fledglings are disadvantaged by magpie host parents when reared together with magpie nestlings. Behavioral Ecology and Sociobiology, 68(2):333–342.
    Soler M, Martín-Vivaldi M, Fernández-Morante J. 2012. Conditional response by hosts to parasitic eggs:the extreme case of the rufous-tailed scrub robin. Animal Behaviour, 84(2):421–426.
    ?ulc M, Procházka P, Capek M, et al. 2016. Birds use eggshell UV reflectance when recognizing non-mimetic parasitic eggs. Behavioral Ecology, 27(2):677–684.
    Thorogood R, Davies N B. 2013. Hawk mimicry and the evolution of polymorphic cuckoos. Avian Research, 4(1):39–50.
    Thorogood R, Davies N B. 2016. Combining personal with social information facilitates host defences and explains why cuckoos should be secretive. Scientific Reports, 6:19872.
    Tokue K, Ueda K. 2010. Mangrove Gerygones Gerygone laevigaster eject Little Bronze-cuckoo Chalcites minutillus hatchlings from parasitized nests. Ibis, 152(4):835–839.
    Tosi-Germán R A, Tassino B, Reboreda J C. 2020. Female and male rufous horneros eject shiny cowbird eggs using a mental template of the size of their own eggs. Behavioural Processes, 178:104152.
    Tryjanowski P, Golawski A, Janowski M, et al. 2021. Does experimentally simulated presence of a common cuckoo (Cuculus canorus) affect egg rejection and breeding success in the red-backed shrike (Lanius collurio)? Acta Ethologica, 24(2):87–94.
    Wang L W, He G B, Zhang Y H, et al. 2022. Experimental evidence that cuckoos preferentially parasitize host nests early in their laying cycle. Avian Research, 13(1):100042.
    Wang L W, Hsu Y C, Liang W. 2020b. Rejection of parasitic eggs by Yellow-bellied Prinias:importance of egg spot location. Journal of Ornithology, 161(4):987–994.
    Wang L W, Yang C C, M?ller A P, et al. 2015. Multiple mechanisms of egg recognition in a cuckoo host. Behavioral Ecology and Sociobiology, 69(11):1761–1767.
    Wang L W, Zhang Y H, Liang W, et al. 2021. Common cuckoo females remove more conspicuous eggs during parasitism. Royal Society Open Science, 8(1):201264.
    Wang L W, Zhao H H, Luo H X, et al. 2023. Importance of cooperation:How host nest defenses effectively prevent brood parasitism from the cuckoos. iScience, 26(4):106458.
    Wang L W, Zhong G, He G B, et al. 2020a. Egg laying behavior of common cuckoos (Cuculus canorus):Data based on field video-recordings. Zoological Research, 41(4):458–464.
    Welbergen J A, Davies N B. 2011. A parasite in wolf’s clothing:hawk mimicry reduces mobbing of cuckoos by hosts. Behavioral Ecology, 22(3):574–579.
    Yang C C, Chen M, Wang L W, et al. 2015b. Nest sanitation elicits egg discrimination in cuckoo hosts. Animal Cognition, 18(6):1373–1377.
    Yang C C, Liang W, Antonov A, et al. 2012. Diversity of parasitic cuckoos and their hosts in China. Avian Research, 3(1):9–32.
    Yang C C, M?ller A P, R?skaft E, et al. 2014b. Reject the odd egg:egg recognition mechanisms in parrotbills. Behavioral Ecology, 25(6):1320–1324.
    Yang C C, Wang L W, Chen M, et al. 2015a. Nestling recognition in red-rumped and barn swallows. Behavioral Ecology and Sociobiology, 69(11):1821–1826.
    Yang C C, Wang L W, Cheng S J, et al. 2014a. Nest defenses and egg recognition of yellow-bellied prinia against cuckoo parasitism. Naturwissenschaften, 101(9):727–734.
    Yang C C, Wang L W, Cheng S J, et al. 2015c. Deficiency in egg rejection in a host species as a response to the absence of brood parasitism. Behavioral Ecology, 26(2):406–415.
    Yang C C, Wang L W, Hsu Y C, et al. 2013. UV reflectance as a cue in egg discrimination in two Prinia species exploited differently by brood parasites in Taiwan. Ibis, 155(3):571–575.
    Yao X G, Cai Y, Ye P, et al. 2023. Nesting preferences of two cavity-nesting passerines in human houses. Ornithological Science, 22(2):179–?182.
    Ye P, Cai Y, Bi J L, et al. 2022. Parasite egg recognition based on multicomponent cues by green-backed tits (Parus monticolus). Avian Biology Research, 15(1):53–57.
    Ye P, Cai Y, Wu N, et al. 2023. Egg rejection based on egg size recognition as a specific strategy against parasitic cuckoos. Current Zoology, 69(2):156–164.
    Yi T T, Sun Y H, Liang W. 2020. Egg rejection and egg recognition mechanism of chestnut thrushes (Turdus rubrocanus). Behavioural Processes, 178:104158.
    Yu J P, Wang L W, Xing X Y, et al. 2016. Barn swallows (Hirundo rustica) differentiate between common cuckoo and sparrowhawk in China:alarm calls convey information on threat. Behavioral Ecology and Sociobiology, 70(1):171–178.
    Zhang J G, M?ller A P, Yan D H, et al. 2021. Egg rejection changes with seasonal variation in risk of cuckoo parasitism in Daurian redstarts, Phoenicurus auroreus. Animal Behaviour, 175:193–200.
    Zhang J G, Santema P, Li J Q, et al. 2022. The mere presence of cuckoos in breeding area alters egg-ejection decisions in Daurian redstarts. Behavioral Ecology, 33(6):1153–1160.
    Zhang J G, Santema P, Li J Q, et al. 2023. Brood parasitism risk drives birds to breed near humans. Current Biology, 33(6):1125–1129.
    Zhang J G, Shi J, Deng W H, et al. 2019. Nest defense and egg recognition in the grey-backed thrush (Turdus hortulorum):defense against interspecific or conspecific brood parasitism? Behavioral Ecology and Sociobiology, 73(11):148.
    Zhao H H, Luo H X, Yan H L, et al. 2022. Fatal mobbing and attack of the common cuckoo by its warbler hosts. Ecology and Evolution, 12(12):e9649.
    Zhou B, Liang W. 2024. Seasonal increase in nest defense, but not egg rejection, in a cuckoo host. Avian Research, 15:100154.
    谌希, 杨灿朝, 吴俊秋, 等. 2011. 模型卵在鸟类巢寄生研究中的应用及其制备方法. 海南师范大学学报:自然科学版, 24(3):310–313, 355.
    胡运彪, 蒋迎昕, 常海忠, 等. 2013a. 大杜鹃在白腹短翅鸲巢中寄生繁殖. 动物学杂志, 48(5):769–773.
    胡运彪, 王小鹏, 常海忠, 等. 2013b. 鹰鹃在橙翅噪鹛巢中寄生繁殖. 动物学杂志, 48(2):292–293.
    霍娟, 粟通萍, 杨灿朝, 等. 2014. 红翅凤头鹃对画眉和矛纹草鹛的巢寄生及其卵色模拟. 四川动物, 33(3):337–341.
    柳希竹, 钟国, 张瑜唅, 等. 2022. 大杜鹃寄生白鹡鸰巢的实际案例. 野生动物学报, 43(3):725–730.
    马雯, 刘迺发, 丁未, 等. 2012. 大杜鹃在荒漠伯劳巢中寄生繁殖. 四川动物, 31(1):74–76, 2.
    邵玲, 粟通萍, 霍娟, 等. 2016. 贵州宽阔水自然保护区小杜鹃对小鳞胸鹪鹛的巢寄生. 四川动物, 35(2):235–237.
    粟通萍, 霍娟, 杨灿朝, 等. 2014. 中杜鹃在3种宿主巢中寄生繁殖. 动物学杂志, 49(4):505–510.
    粟通萍, 霍娟, 杨灿朝, 等. 2017. 大杜鹃对家燕的巢寄生. 动物学杂志, 52(2):338–341.
    王鹏程, 杨艾琳, 张正旺, 等. 2016. 小杜鹃对小鳞胸鹪鹛的巢寄生. 动物学杂志, 51(2):319–322.
    杨灿朝, 蔡燕, 张淑萍, 等. 2009. 利用光纤光谱仪量化和分析鸟类的卵色. 生态学杂志, 28(2):346–349.
    张瑜晗, 钟国, 何刚彬, 等. 2021. 贵州省发现1例翠金鹃在棕腹柳莺巢中寄生繁殖. 四川动物, 40(4):446–447.
    郑光美. 2023. 中国鸟类分类与分布名录. 4版. 北京:科学出版社.
    引证文献
    网友评论
    网友评论
    分享到微博
    发 布
引用本文

刘建平,梁伟.2024.宿主鸟类防御杜鹃巢寄生的策略.动物学杂志,59(4):481-492.

复制
文章指标
  • 点击次数:1666
  • 下载次数: 15303
  • HTML阅读次数: 0
  • 引用次数: 0
历史
  • 收稿日期:2024-02-19
  • 在线发布日期: 2024-08-23
  • 邮政编码:100101  电话:010-64807162
  • 通讯地址:北京 朝阳区 北辰西路1号院5号 中国科学院动物研究所
  • E-MAIL
  • journal@ioz.ac.cn

版权所有 ©《动物学杂志》编辑部 技术支持:北京勤云科技发展有限公司 京ICP备05064604号-1