Center for Functional Anatomy and Evolution, Johns Hopkins University School of Medicine, 1800 E. Monument St., Baltimore, MD, 21111, USA.
Department of Biology, James Madison University, MSC 7801, Harrisonburg, VA, 22807, USA.
J Hum Evol. 2021 Jul;156:102997. doi: 10.1016/j.jhevol.2021.102997. Epub 2021 May 13.
Although many studies relating stature to foot length have been carried out, the relationship between foot size and body mass remains poorly understood. Here we investigate this relationship in 193 adult and 50 juvenile habitually unshod/minimally shod individuals from five different populations-Machiguenga, Daasanach, Pumé, Hadzabe, and Samoans-varying greatly in body size and shape. Body mass is highly correlated with foot size, and can be predicted from foot area (maximum length × breadth) in the combined sample with an average error of about 10%. However, comparisons among populations indicate that body shape, as represented by the body mass index (BMI), has a significant effect on foot size proportions, with higher BMI samples exhibiting relatively smaller feet. Thus, we also derive equations for estimating body mass from both foot size and BMI, with BMI in footprint samples taken as an average value for a taxon or population, estimated independently from skeletal remains. Techniques are also developed for estimating body mass in juveniles, who have relatively larger feet than adults, and for converting between foot and footprint size. Sample applications are given for five Pliocene through Holocene hominin footprint samples from Laetoli (Australopithecus afarensis), Ileret (probable Homo erectus), Happisburgh (possible Homo antecessor), Le Rozel (archaic Homo sapiens), and Barcin Höyük (H. sapiens). Body mass estimates for Homo footprint samples appear reasonable when compared to skeletal estimates for related samples. However, estimates for the Laetoli footprint sample using the new formulae appear to be too high when compared to skeletal estimates for A. afarensis. Based on the proportions of A.L. 288-1, this is apparently a result of relatively large feet in this taxon. A different method using a ratio between body mass and foot area in A.L. 288-1 provides estimates more concordant with skeletal estimates and should be used for A. afarensis.
虽然已经有许多研究探讨了身高与足长之间的关系,但足部大小与体重之间的关系仍未得到充分理解。在这里,我们研究了来自五个不同人群(马奇根加人、达萨纳赫人、普米人、哈扎比人、萨摩亚人)的 193 名成年人和 50 名青少年的体型与足部大小之间的关系,这些人在体型和身体形状上差异很大。体重与足部大小高度相关,并且可以通过在综合样本中从足部面积(最大长度×宽度)来预测,平均误差约为 10%。然而,不同人群之间的比较表明,身体形态(以身体质量指数 BMI 表示)对足部大小比例有显著影响,BMI 较高的样本足部相对较小。因此,我们还根据足部大小和 BMI 推导出了估计体重的方程,在足迹样本中,BMI 作为一个分类单元或种群的平均值,是独立于骨骼遗骸估算的。还开发了用于估计青少年体重的技术,青少年的足部相对较大,并且还开发了用于在足部和足迹大小之间进行转换的技术。给出了五个来自拉托利(南方古猿阿法种)、伊勒雷特(可能的直立人)、哈皮斯堡(可能的先驱人)、勒罗泽尔(古老的智人)和巴萨因霍尤克(智人)的更新世到全新世人类足迹样本的应用实例。与相关样本的骨骼估计相比,对人类足迹样本的体重估计似乎是合理的。然而,与阿法南方古猿的骨骼估计相比,使用新公式对拉托利足迹样本的估计似乎过高。根据 A.L. 288-1 的比例,这显然是由于该分类单元的足部相对较大。使用 A.L. 288-1 中体重与足部面积之间的比例的不同方法提供了与骨骼估计更一致的估计,并且应该用于阿法南方古猿。
