Bergsten, J. 2005. A review of long-branch attraction. Cladistics, 21:163-193.
Cao, Y., Adachi, J., Yano, T. and Hasegawa, M. 1994. Phylogenetic place of guinea pigs: No support of the rodent-polyphyly hypothesis from maximum-likelihood analyses of multiple protein sequences. Molecular Biology and Evolution, 11: 593-604.
Carleton, M. D. and G. G. Musser. 2005. Order Rodentia. Pp745–752 in Mammal Species of the World A Taxonomic and Geographic Reference (D. E. Wilson and D. M. Reeder eds.). Baltimore, Johns Hopkins University Press.
D'Erchia, A., Gissi, C., Pesole, G., Saccone, C. and Arnason, U. 1996. The guinea-pig is not a rodent. Nature, 381 (6583): 597-600.
Flynn, J. J., Wyss, A. R., Croft, D. A., and Charrier, R. 2003. The Tinguiririca Fauna, Chile: biochronology, paleoecology, biogeography, and a new earliest Oligocene South American Land Mammal ‘Age’. Palaeogeography, Palaeoclimatology, Palaeoecology, 195:229-259.
Graur, D., Hide, W. and Li, W. 1991. Is the guinea-pig a rodent? Nature, 351: 649-652.
Huchon, D. E. J. P. Douzery. 2001. From the Old World to the New World: A molecular chronicle of the phylogeny and biogeography of hystricognath rodents. Molecular Phylogenetics and Evolution, 20:238-251.
Kuma, K. and Miyata, T. 1994. Mammalian phylogeny inferred from multiple protein data. Japanese Journal of Genetics, 69 (5): 555-66.
Landry, S. O. J. 1999. A proposal for a new classification and nomenclature for the glires. Mitt. Mus. Nat. Kd. Berl. Zool. Reihe, 75:283-316.
Lin, Y-H, et al. 2002. Four new mitochondrial genomes and the increased stability of evolutionary trees of mammals from improved taxon sampling. Molecular Biology and Evolution, 19: 2060-2070.
Marivaux, L., M. Vianey-Liaud, and J.-J. Jaeger. 2004. High-level phylogeny of early Tertiary rodents: dental evidence. Zoological Journal of the Linnean Society, 142:105-134.
Marivaux, L. J. L. Welcomme, M. Vianey-Liaud, and J.J. Jaeger. 2002. The role of Asia in the origin and diversification of hystricognathous rodents. Zoologica Scripta, 31:225-239.
McKenna, Malcolm C., and Bell, Susan K. 1997. Classification of Mammals Above the Species Level. Columbia University Press, New York, 631 pp. ISBN 0-231-11013-8
Reyes, A., Pesole, G. and Saccone, C. 2000. Long-branch attraction phenomenon and the impact of among-site rate variation on rodent phylogeny. Gene, 259 (1-2): 177-87.
Reyes, A., Gissi, C., Catzeflis, F., Nevo, E. Pesole, G. and Saccone, C. 2004. Congruent mammalian trees from mitochondrial and nuclear genes using Bayesian methods. Molecular Biology and Evolution, 21 (2): 397-403.
Robinson-Rechavi, M., Ponger, L. and Mouchiroud, D. 2000. Nuclear gene LCAT supports rodent monophyly. Molecular Biology and Evolution, 17: 1410-1412.
Sullivan, J. and Swofford, D.L. 1997. Are guinea pigs rodents? the importance of adequate models in molecular phylogenetics. Journal of Mammalian Evolution, 4: 77-86.
二月 12, 2023
豪猪亚目, 学名, hystricomorpha, 在历史上曾有过许多含义, 广义上是指所有具有豪猪型颧弓, 咬肌结构, zygomasseteric, system, 的啮齿目动物, 跳鼠类除外, 包括豪猪下目, hystricognathi, 栉趾鼠科, ctenodactylidae, 鳞尾松鼠科, anomaluridae, 跳兔科, pedetidae, 分子及形态学研究表明, 将鳞尾松鼠科与跳兔科列入其中是有争议的, 根据carleton与musser的研究, 这两科被分为鳞尾松鼠亚目, anomalu. 豪猪亚目 学名 Hystricomorpha 在历史上曾有过许多含义 广义上是指所有具有豪猪型颧弓 咬肌结构 Zygomasseteric system 的啮齿目动物 跳鼠类除外 包括豪猪下目 Hystricognathi 栉趾鼠科 Ctenodactylidae 鳞尾松鼠科 Anomaluridae 跳兔科 Pedetidae 分子及形态学研究表明 将鳞尾松鼠科与跳兔科列入其中是有争议的 根据Carleton与Musser的研究 1 这两科被分为鳞尾松鼠亚目 Anomaluromorpha 豪猪亚目 化石时期 始新世 现代 PreYe Ye O S D C P T J K Pg N水豚 Hydrochoerus hydrochaeris科学分类界 动物界 Animalia门 脊索动物门 Chordata纲 哺乳纲 Mammalia目 啮齿目 Rodentia亚目 豪猪亚目 Hystricomorpha Brandt 1855下目栉趾鼠下目 Ctenodactylomorphi 豪猪下目 Hystricognathi豪猪亚目 又被称为Entodacrya或Ctenohystrica 的现代定义是指将栉趾鼠与豪猪下目联系起来的分类学假设 1 支持这一说法有很多形态学以及分子系统发生学的证据 如果此假说是真实的 那传统观点中的松鼠形亚目将被推翻 成为一个并系群 豪猪类动物 或至少是豚鼠小目中的成员 有时会被认为是非啮齿类 2 3 4 不过大多数分子与遗传学研究都表明啮齿动物是单系群 5 6 7 8 9 10 而支持啮齿类为多系群的证据被认为是源自长枝吸引 long branch attraction 的现象 11 豪猪类动物于渐新世早期出现于南美洲 12 这里此前的陆地哺乳动物只有后兽下纲 贫齿总目 南蹄目 豪猪类是从非洲横渡大西洋到达南美洲的 同一类型的迁徙还发生在灵长目中 这些都发生于南北美洲生物大迁徙之前 不过这些说法至今尚存争议 分类 编辑以下的分类是根据Marivaux等人对早期啮齿类化石进行的支序分类学分析而来的 13 14 他们的研究支持豪猪亚目假说 并表明McKenna与Bell定义的先松鼠亚目 Sciuravida 15 是多系群 因而并不成立 豪猪亚目 Hystricomorpha 梳齿鼠总科 Ctenodactyloidea 梳齿鼠科 Ctenodactylidae 科 Tammquammyidae 硅藻鼠科 Diatomyidae 豫鼠科 Yuomyidae 馕鼠科 Chapattimyidae 演化支 Hystricognathiformes 查干鼠科 Tsaganomyidae 豪猪下目 Hystricognathi 俾路支鼠科 Baluchimyinae 豪猪科 Hystricidae 菲奥鼠小目 非洲豪猪类 Phiomorpha 长尾菲奥鼠科 Myophiomyidae 钻石鼠科 Diamantomyidae 菲奥鼠科 Phiomyidae 肯尼亚鼠科 Kenyamyidae 岩鼠科 Petromuridae 蔗鼠科 Thryonomyidae 滨鼠科 Bathyergidae 似滨鼠科 Bathyergoididae 豚鼠小目 南美豪猪类 Caviomorpha 美洲豪猪总科 Erethizontoidea 美洲豪猪科 Erethizontidae 豚鼠总科 Cavioidea 头刺豚鼠科 Cephalomyidae 刺豚鼠科 Dasyproctidae 兔豚鼠科 Cuniculidae 始豚鼠科 Eocardiidae 花背豚鼠科 Dinomyidae 豚鼠科 Caviidae 八齿鼠总科 Octodontoidea 八齿鼠科 Octodontidae 栉鼠科 Ctenomyidae 棘鼠科 Echimyidae 海狸鼠科 Myocastoridae 硬毛鼠科 Capromyidae 海地岛鼠科 Heptaxodontidae 毛丝鼠总科 Chinchilloidea 毛丝鼠科 Chinchillidae 新绒鼠科 Neoepiblemidae 华毛鼠科 Abrocomidae 1 0 1 1 Carleton and Musser 2005 Graur et al 1991 D Erchia et al 1996 Reyes et al 2000 Cao et al 1994 Kuma and Miyata 1994 Sullivan and Swofford 1997 Robinson Rechavi et al 2000 Lin et al 2002 Reyes et al 2004 Bergsten 2005 Flynn et al 2003 Marivaux et al 2002 Marivaux et al 2004 McKenna and Bell 1997参考文献 编辑维基共享资源中相关的多媒体资源 豪猪亚目維基物種上的相關信息 豪猪亚目Bergsten J 2005 A review of long branch attraction Cladistics 21 163 193 Cao Y Adachi J Yano T and Hasegawa M 1994 Phylogenetic place of guinea pigs No support of the rodent polyphyly hypothesis from maximum likelihood analyses of multiple protein sequences Molecular Biology and Evolution 11 593 604 Carleton M D and G G Musser 2005 Order Rodentia Pp745 752 in Mammal Species of the World A Taxonomic and Geographic Reference D E Wilson and D M Reeder eds Baltimore Johns Hopkins University Press D Erchia A Gissi C Pesole G Saccone C and Arnason U 1996 The guinea pig is not a rodent Nature 381 6583 597 600 Flynn J J Wyss A R Croft D A and Charrier R 2003 The Tinguiririca Fauna Chile biochronology paleoecology biogeography and a new earliest Oligocene South American Land Mammal Age Palaeogeography Palaeoclimatology Palaeoecology 195 229 259 Graur D Hide W and Li W 1991 Is the guinea pig a rodent Nature 351 649 652 Huchon D E J P Douzery 2001 From the Old World to the New World A molecular chronicle of the phylogeny and biogeography of hystricognath rodents Molecular Phylogenetics and Evolution 20 238 251 Kuma K and Miyata T 1994 Mammalian phylogeny inferred from multiple protein data Japanese Journal of Genetics 69 5 555 66 Landry S O J 1999 A proposal for a new classification and nomenclature for the glires Mitt Mus Nat Kd Berl Zool Reihe 75 283 316 Lin Y H et al 2002 Four new mitochondrial genomes and the increased stability of evolutionary trees of mammals from improved taxon sampling Molecular Biology and Evolution 19 2060 2070 Marivaux L M Vianey Liaud and J J Jaeger 2004 High level phylogeny of early Tertiary rodents dental evidence Zoological Journal of the Linnean Society 142 105 134 Marivaux L J L Welcomme M Vianey Liaud and J J Jaeger 2002 The role of Asia in the origin and diversification of hystricognathous rodents Zoologica Scripta 31 225 239 McKenna Malcolm C and Bell Susan K 1997 Classification of Mammals Above the Species Level Columbia University Press New York 631 pp ISBN 0 231 11013 8 Reyes A Pesole G and Saccone C 2000 Long branch attraction phenomenon and the impact of among site rate variation on rodent phylogeny Gene 259 1 2 177 87 Reyes A Gissi C Catzeflis F Nevo E Pesole G and Saccone C 2004 Congruent mammalian trees from mitochondrial and nuclear genes using Bayesian methods Molecular Biology and Evolution 21 2 397 403 Robinson Rechavi M Ponger L and Mouchiroud D 2000 Nuclear gene LCAT supports rodent monophyly Molecular Biology and Evolution 17 1410 1412 Sullivan J and Swofford D L 1997 Are guinea pigs rodents the importance of adequate models in molecular phylogenetics Journal of 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