Abstract
Climate variability and hominin evolution are inextricably linked. Yet, hypotheses examining the impact of large-scale climate shifts on hominin landscape ecology are often constrained by proxy data coming from off-site lake and ocean cores and temporal offsets between paleoenvironmental and archaeological records. Additionally, landscape response data (most commonly, records of vegetation change), are often used as a climate proxy. This is problematic as it assumes that vegetation change signifies global or regional climate shifts without accounting for the known non-linear behavior of ecological systems and the often-significant spatial heterogeneity in habitat structure and response. The exploitation of diverse, rapidly changing habitats byHomoby at least two million years ago highlights that the ability to adapt to landscapes in flux had emerged by the time of our genus’ African origin. To understand ecosystem response to climate variability, and hominin adaptations to environmental complexity and ecological diversity, we need cross-disciplinary datasets in direct association with stratified archaeological and fossil assemblages at a variety of temporal and spatial scales. In this article, we propose a microhabitat variability framework for understandingHomo’s adaptability to fluctuating climates, environments, and resource bases. We argue that the exploitation of microhabitats, or unique ecologically and geographically defined areas within larger habitats and ecoregions, was a key skill that allowedHomoto adapt to multiple climates zones and ecoregions within and beyond Africa throughout the Pleistocene.
Highlights
Climatic and environmental variability are often presented as major influencers on human evolution (Vrba, 1995b; Potts, 1998a; Trauth et al, 2010; Cerling et al, 2011; deMenocal, 2011), including the origins and diversification of Homo or the development of specific stone tool technologies (Potts et al, 2020; Lupien et al, 2021; Schaebitz et al, 2021)
Recent discoveries of the earliest stone tools from Kenya dating to 3.3 Ma (Harmand et al, 2015), the earlier appearance of H. erectus in southern Africa at 2.0 Ma (Herries et al, 2020), and the likelihood that Acheulean biface shaping emerged gradually out of bifacial core reduction during the Oldowan (Duke et al, 2021) are not linked with major climate and environmental events
Microhabitat variability provides a framework within which to understand the adaptability of hominins across spatially and temporally changing, sometimes rapidly, plant landscapes
Summary
Climatic and environmental variability are often presented as major influencers on human evolution (Vrba, 1995b; Potts, 1998a; Trauth et al, 2010; Cerling et al, 2011; deMenocal, 2011), including the origins and diversification of Homo or the development of specific stone tool technologies (Potts et al, 2020; Lupien et al, 2021; Schaebitz et al, 2021). This article reviews the potential role of microhabitat variability in human evolution by examining archaeological and paleoecological datasets that have revealed hominin morphological and technological adaptations to changing environments over time and space.
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