Despite decades of research, the roles of climate and humans in driving the dramatic extinctions of large-bodied mammals during the Late Quaternary remain contentious. We use ancient DNA, species distribution models and the human fossil record to elucidate how climate and humans shaped the demographic history of woolly rhinoceros, woolly mammoth, wild horse, reindeer, bison and musk ox. We show that climate has been a major driver of population change over the past 50,000 years. However, each species responds differently to the effects of climatic shifts, habitat redistribution and human encroachment. Although climate change alone can explain the extinction of some species, such as Eurasian musk ox and woolly rhinoceros, a combination of climatic and anthropogenic effects appears to be responsible for the extinction of others, including Eurasian steppe bison and wild horse. We find no genetic signature or any distinctive range dynamics distinguishing extinct from surviving species, underscoring the challenges associated with predicting future responses of extant mammals to climate and human-mediated habitat change.
The Paisley Caves in Oregon record the oldest directly dated human remains (DNA) in the Western Hemisphere. More than 100 high-precision radiocarbon dates show that deposits containing artifacts and coprolites ranging in age from 12,450 to 2295 (14)C years ago are well stratified. Western Stemmed projectile points were recovered in deposits dated to 11,070 to 11,340 (14)C years ago, a time contemporaneous with or preceding the Clovis technology. There is no evidence of diagnostic Clovis technology at the site. These two distinct technologies were parallel developments, not the product of a unilinear technological evolution. "Blind testing" analysis of coprolites by an independent laboratory confirms the presence of human DNA in specimens of pre-Clovis age. The colonization of the Americas involved multiple technologically divergent, and possibly genetically divergent, founding groups.
The timing of the first human migration into the Americas and its relation to the appearance of the Clovis technological complex in North America at about 11,000 to 10,800 radiocarbon years before the present (14C years B.P.) remains contentious. We establish that humans were present at Paisley 5 Mile Point Caves, in south-central Oregon, by 12,300 14C years B.P., through the recovery of human mitochondrial DNA (mtDNA) from coprolites, directly dated by accelerator mass spectrometry. The mtDNA corresponds to Native American founding haplogroups A2 and B2. The dates of the coprolites are >1000 14C years earlier than currently accepted dates for the Clovis complex.
stones and bones are the fundamental building blocks of prehistory, especially the deep hominin prehistory. The only thing that survives from the earliest humans, except in rare instances of the humans themselves, is stones and bones in that order. it was in this context that the late archaeologist Glynn isaac (1977) characterized the archaeology of the earliest humans as "squeezing blood from stones." stones and bones must, however, be placed in context, and that largely comes from profiles or rather stratigraphy. stones, bones, and profiles thus constitute the three building blocks of much of the early archaeology from the appearance of earliest humans to the advent of the neolithic or its equivalents on various continents. so it is no wonder that this book, dedicated to two prominent scholars whose careers focused on the earliest americans, the Paleoindians, is about stones, bones, and profiles. in fact, tools and tool making from raw stone material and the remains of food residues, or one of these, are what we find at nearly all Paleoindian sites in western north america. Where we find them and in what contexts are key to understanding the implications of these remains for reconstructing the lifeways of ancient peoples. and by and large, other items are rare or absent, except in a few cases, and often these are likewise made of either stone or bone. We are referring to such things as bone tools (needles, awls, gaming pieces, and others), ornaments (beads), and possibly in a few instances
Although the Great Basin of North America has produced some of the most robust and ancient fiber artifact assemblages in the world, many were recovered with poor chronological controls. Consequently, this class of artifacts has seldom been effectively incorporated into general discussions of early chronological and cultural patterns. In recent years, the Great Basin Textile Dating Project has accumulated direct AMS dates on textiles (bags, sandals, mats, cordage, and basketry) from dry caves in the Great Basin, particularly in the northern and western areas. We focus here on the terminal Pleistocene/early Holocene, to identify chronological patterns in this class of artifacts and to evaluate Adovasio’s characterization of the region’s earliest basketry as simple and undecorated. New AMS dates now suggest that the region’s earliest people had sophisticated textile traditions that incorporated numerous decorative elaborations. Some distinctive structures, including Fort Rock sandals and weft-faced plaited textiles, have limited early temporal ranges and may serve as diagnostic indicators for terminal Pleistocene/early Holocene times. Other basketry forms and structures that appear by about 9000 cal B.P. persist into the historic period, suggesting a stronger thread of continuity (especially in the north) from this time than is apparent in lithic traditions
When and how people first settled in the Americas is an ongoing area of research and debate. The earliest sites typically only contain lithic artifacts that cannot be directly dated. The lack of human skeletal remains in these early contexts means that alternative sources of evidence are needed. Coprolites, and the DNA contained within them, are one such source, but unresolved issues concerning ancient DNA taphonomy and potential for contamination make this approach problematic. Here, we use fecal lipid biomarkers to demonstrate unequivocally that three coprolites dated to pre-Clovis are human, raise questions over the reliance on DNA methods, and present a new radiocarbon date on basketry further supporting pre-Clovis human occupation.
The regulation of angiogenesis during human skin development is poorly understood. Since fibronectin is involved in cell movement and organization during embryogenesis and morphogenesis in a variety of species, we investigated the expression of fibronectin and factor VIII-related antigen, a marker for endothelial cells, at various stages in the development of the human cutaneous microvasculature. Skin specimens were obtained from 4 human fetuses during the second trimester (14-18 weeks), from newborn foreskins, and from consenting normal adults. Cryostat sections were stained with both fluorescein-conjugated rabbit antihuman fibronectin and rhodamine-conjugated goat antihuman factor VIII-related antigen. Expression of fibronectin in the microvasculature was striking in fetal skin but became progressively less prominent with maturation. Fibronectin appeared in fetal blood vessels as a bright continuous linear array, in neonatal blood vessels as a bright interrupted linear and speckled array, and in adult blood vessels as a sparse interrupted linear and speckled array. In contrast, expression of factor VIII-related antigen by the endothelium became more prominent with the degree of maturation of the microvasculature. Granular factor VIII-related antigen staining was scant in the newly forming blood vessels of fetal skin, bright but focal in the microvasculature of newborn skin, and intense and almost confluent in the blood vessels of adult skin. Although expression of fibronectin and factor VIII-related antigen changed, expression of laminin was consistent throughout development. Staining of the same skin specimens with fluorescein-conjugated sheep antihuman laminin produced a bright continuous linear pattern in all blood vessels. The reciprocal relationship manifested by intense fibronectin staining during human blood vessel development and prominent factor VIII-related antigen staining in mature blood vessels supports the hypotheses that fibronectin plays a role in human blood vessel modulation and morphogenesis, and that factor VIII-related antigen is a marker for endothelial cell differentiation.
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