辽西中生代鸟类跗跖骨测量数据的统计分析及意义

跗跖骨是鸟类后肢骨骼的重要组成之一,其形态特征对恢复鸟类的行为和习性具有重要的指示意义。本文以鸟类的跗跖骨为研究对象,共观察了200余例有代表性的现生鸟类标本,并对其中15个目中的154例标本进行了多组数据的测量。还将跗跖骨各形态特征进行量化分析研究,引入相关分析和因子分析等统计分析方法。对现生鸟类跗跖骨5组(12个)变量进行分析,研究各变量间的相关程度,对变量进行主成分分析,提取出2个主成分,其中第1主成分包括第Ⅱ,Ⅲ,Ⅳ三个跖骨的宽度变量;第2主成分包括第Ⅱ跖骨滑车相对于第Ⅲ跖骨滑车的上下及前后位置两变量,以及第Ⅳ跖骨滑车相对于第Ⅲ跖骨滑车的前后位置变量。对这6个变量的分析表明,它们对于区别鸟类的栖息习性具有显著的指示作用。通过对在中国(辽西为主)已发现的25例中生代鸟类跗跖骨远端4个变量的统计分析,表明它们同样具有区别树栖和地栖鸟类的显著意义,而且分析的结果与参考鸟类其他特征(如爪的形态、脚趾的比例等)所得出的结论基本一致。     

鸟类跗跖骨远端形态的两种模式及其栖息行为

通过对大量现生鸟类的跗跖骨进行对比研究,得出鸟类的跗跖骨远端特征可以被用来作为判断鸟类栖息习性的依据。地栖性鸟类的跗跖骨远端由第Ⅱ、第Ⅲ、第Ⅳ跖骨滑车组成典型的“三角”模式,而树栖性鸟类的跗跖骨远端则是由位于同一平面位置的第Ⅱ、第Ⅲ、第Ⅳ跖骨滑车组成典型的“滚轴”模式。由此还尝试对中生代鸟类的栖息习性和功能作了检验和判定,依此鉴定与借助其他依据识别的结果比较一致。鸟类跗跖骨远端形态结构的观察与研究,对评判古鸟的栖息习性以及鸟类的栖息演化历史都具有重要意义。     

Functional correlation between habitat use and leg morphology in birds (Aves)

Many of the morphological features of animals are considered to be adaptations to the habitat that the animals utilize. The habitats utilized by birds vary, perhaps more than for any other group of vertebrates. Here, we study possible adaptations in the morphology of the skeletal elements of the hind limbs to the habitat of birds. Measurements of the lengths of the femur, tibiotarsus and tarsometatarsus of 323 bird species from 74 families are used together with body mass data, taken from the literature. The species are separated into six habitat groups on the basis of literature data on leg use. A discriminant analysis of the groups based on leg morphology shows that swimming birds, wading birds and ground living species are more easily identified than other birds. Furthermore, functional predictions are made for each group based on ecological and mechanical considerations. The groups were tested for deviation from the norm for all birds for three indices of size- and leg-length-independent measures of the bones and for a size-independent-index of leg length. Several of the groups deviate significantly from the norm for one or more of the indices used, suggesting habitat-related adaptations in the leg morphology of birds. The results indicate that stability is an important factor affecting the leg morphology of primarily long-legged birds. The femur seems to be more important than previously thought because several of the groups have high femur indices, suggesting a positive selection pressure on this bone. On a general basis, the results suggest that the effect of leg length should be taken into consideration when discussing adaptations of mass-independent lengths of the long bones of the legs of birds.  © 2003 The Linnean Society of London, Biological Journal of the Linnean Society , 2003, 79, 461–484.     

鸟类跗跖骨形态结构多样性及其功能分析

鸟类的跗跖骨以其独特的结构特征与其他四足动物跗骨、跖骨相区别。不同类型鸟类之间的生态习性和适应形式相互间存在明显的差异,而与之相对应的跗跖骨的形态结构也产生了多样性分异,形成了鸟类跗跖骨形态结构与对应功能行为的适应性选择。鸟类跗跖骨形态结构多样性的研究不仪为了解不同类型鸟类的生态习性提供证据,也使鸟类后肢骨骼的功能行为学得以逐步完善。特别是通过对现生鸟类跗跖骨形态结构多样性与对应功能的分析,可以此作为研究早期鸟类形态习性的参考依据,同时也可进一步探讨不同地质历史时期鸟类功能行为的演化规律。     

Hindlimb of a giant terrestrial bird from the upper Eocene, Fayum, Egypt

Eremopezus eocaenus Andrews, 1904 is a giant groundbird from upper Eocene deposits of the Fayum, Egypt, which has hitherto been known from non-diagnostic fragmentary material. New fossils collected from quarry L-41 of the Jebel Qatrani Formation include two well-preserved distal tarsometatarsi and an associated whole tarsometatarsus and distal tibiotarsus that allow a more precise evaluation of the phylogenetic position and tarsal function of Eremopezus. Unlike most ratites, the distal tarsometatarsus has a patent distal foramen and a slight hallucal digit. The trochlea for digits II and IV are only slightly reduced in size, are splayed to the right, and the heads lack deep grooving. These features resemble the condition seen in BalaenicepsSagittarius, suggesting active use of the toes in grasping or manipulation, rather than the condition in graviports and cursors, which have reduced medial and lateral trochleae often with distinct grooving of the heads. The limb is relatively long and gracile, another difference from graviports. There is no compelling evidence to link Eremopezus to any known ratite lineage, to the Phorusrhacoidea, or to the extinct predatory birds of the Eocene (e.g. Diatryma, Gastornis). We suggest that Eremopezus represents an endemic African group that independently attained large size and flightlessness.