Morphological Covariance and Onset of Foot Prehensility as Indicators of Integrated Evolutionary Dynamics in the Herons (Ardeidae).

IF 2.2 4区 生物学 Q2 BIOLOGY Integrative Organismal Biology Pub Date : 2023-01-01 DOI:10.1093/iob/obad010
M F Riegner, R D Bassar
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Abstract

The ultimate form an organism attains is based, in part, on the rate and timing of developmental trajectories and on compensatory relationships between morphological traits. For example, there is often an inverse correlation between the relative size of an organism's head and the length of its legs. Avian examples with a disproportionately small head and long legs include ostriches (Struthionidae), flamingos (Phoenicopteridae), cranes (Gruidae), and stilts (Recurvirostridae). To determine whether a possible compensatory relationship exists between relative head size and hind-limb length in a typically long-legged family of birds-the Ardeidae-we measured and analyzed skull dimensions (length, width, and height of cranium, and bill length) and skeletal hind-limb dimensions (femur, tibiotarsus, and tarsometatarsus) of the 12 North American species (north of Mexico) and of 12 additional taxa, including the morphologically divergent Agamia and Cochlearius. We found that Ardea species exhibit the smallest relative head sizes associated with the longest legs, while Butorides, Nycticorax, Nyctanassa, and Cochlearius have among the largest heads relative to hind-limb length. Furthermore, both positive and negative allometries occur in paired comparisons between the three hind-limb bones, expressed in tall morphotypes having disproportionately short femurs while short-legged morphotypes exhibit disproportionately long femurs; we show that this relationship has implications for foraging behavior. Moreover, the nestlings of short-legged herons exhibit functional precociality of the hind limbs through an early onset of prehensile ability of the feet to grasp branches, which is later expressed in adult foraging mode. This developmentally accelerated prehensile function in small-bodied species may be attributed, in part, to selection for predator avoidance in the early nestling stage.

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鹭科鹭足抓握能力的形态协方差和开始作为综合进化动力学的指标。
一个有机体的最终形态部分取决于发育轨迹的速度和时间,以及形态特征之间的补偿关系。例如,生物体头部的相对大小与其腿的长度之间通常存在反比关系。头部小而腿长得不成比例的鸟类包括鸵鸟(鸵鸟科)、火烈鸟(凤凰科)、鹤(鹤科)和高跷(鹤科)。为了确定一个典型的长腿鸟类——鹭科的相对头部大小和后肢长度之间是否存在可能的补偿关系,我们测量并分析了12个北美物种(墨西哥北部)和12个其他分类群的头骨尺寸(头盖骨的长度、宽度、高度和喙的长度)和骨骼后肢尺寸(股骨、胫跗骨和跗跖骨),包括形态上不同的Agamia和Cochlearius。我们发现,Ardea物种的头部相对尺寸最小,腿最长,而Butorides、Nycticorax、nycanassa和Cochlearius的头部相对后肢长度最大。此外,在三个后肢骨骼之间的配对比较中,阳性和阴性异形体均出现,在高形态型中表现为不成比例的短股骨,而短腿形态型表现为不成比例的长股骨;我们表明,这种关系对觅食行为有影响。此外,短腿苍鹭雏鸟后肢功能早熟,其足部较早具备抓握树枝的能力,并在成年后的觅食模式中表现出来。在小体型物种中,这种发育加速的抓握功能可能部分归因于在雏鸟早期为躲避捕食者而进行的选择。
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来源期刊
CiteScore
3.70
自引率
6.70%
发文量
48
审稿时长
20 weeks
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