scholarly journals Spatially explicit analysis sheds new light on the Pleistocene megafaunal extinction in North America

Paleobiology ◽  
2017 ◽  
Vol 43 (4) ◽  
pp. 642-655 ◽  
Author(s):  
Meaghan M. Emery-Wetherell ◽  
Brianna K. McHorse ◽  
Edward Byrd Davis
Keyword(s):  
North America ◽  
Great Lakes ◽  
Human Activity ◽  
Late Pleistocene ◽  
North American ◽  
Human Populations ◽  
Great Lakes Region ◽  
Radiocarbon Dates ◽  
The North ◽  
Primary Driver

AbstractThe late Pleistocene megafaunal extinctions may have been the first extinctions directly related to human activity, but in North America the close temporal proximity of human arrival and the Younger Dryas climate event has hindered efforts to identify the ultimate extinction cause. Previous work evaluating the roles of climate change and human activity in the North American megafaunal extinction has been stymied by a reliance on geographic binning, yielding contradictory results among researchers. We used a fine-scale geospatial approach in combination with 95 megafaunal last-appearance and 75 human first-appearance radiocarbon dates to evaluate the North American megafaunal extinction. We used kriging to create interpolated first- and last-appearance surfaces from calibrated radiocarbon dates in combination with their geographic autocorrelation. We found substantial evidence for overlap between megafaunal and human populations in many but not all areas, in some cases exceeding 3000 years of predicted overlap. We also found that overlap was highly regional: megafauna had last appearances in Alaska before humans first appeared, but did not have last appearances in the Great Lakes region until several thousand years after the first recorded human appearances. Overlap in the Great Lakes region exceeds uncertainty in radiocarbon measurements or methodological uncertainty and would be even greater with sampling-derived confidence intervals. The kriged maps of last megafaunal occurrence are consistent with climate as a primary driver in some areas, but we cannot eliminate human influence from all regions. The late Pleistocene megafaunal extinction was highly variable in timing and duration of human overlap across the continent, and future analyses should take these regional trends into account.

scholarly journals Climate change, not human population growth, correlates with late Quaternary megafauna declines in North America

2021 ◽  
Author(s):  
Mathew Stewart ◽  
Christopher Carleton ◽  
Huw Groucutt
Keyword(s):  
Climate Change ◽  
North America ◽  
North American ◽  
Human Population ◽  
Late Quaternary ◽  
Bayesian Regression ◽  
Human Populations ◽  
Population Densities ◽  
Radiocarbon Dates ◽  
The North

<p>The late Quaternary saw the extinction of a great number of the world’s megafauna (those animals >44 kg), an event unprecedented in 65 million-years of mammalian evolution. Extinctions were notably severe in North America where 37 genera (~80%) of megafauna disappeared by around the late Pleistocene/Holocene boundary (~11.7 thousand-years-ago, or ka). Scholars have typically attributed these extinctions to overhunting by rapidly expanding human populations (i.e., overkill), climate change, or some combination of the two. Testing human- and climate-driven extinctions hypotheses in North America, however, has proven difficult given the apparent concurrency of human arrival in the Americas—more specifically, the emergence of Clovis culture (~13.2–12.9 ka)—and terminal Pleistocene climate changes such as the abrupt warming of the Bølling-Allerød interstadial (B-A; ~14.7–12.9 ka) or near-glacial conditions of the Younger-Dryas stadial (YD; 12.9–11.7 ka). Testing these hypotheses will, therefore, require the analysis of through-time relationships between climate change and megafauna and human population dynamics. To do so, many researchers have used summed probability density functions (SPDFs) as a proxy for through-time fluctuations in human and megafauna population sizes. SPDFs, however, conflate process variation with the chronological uncertainty inherent in radiocarbon dates. Recently, a new Bayesian regression technique was developed that overcomes this problem—Radiocarbon-dated Event-Count (REC) modelling. Using the largest available dataset of megafauna and human radiocarbon dates, we employed REC models to test whether declines in North American megafauna species could be best explained by climate change (temperature), increases in human population densities, or both. On the one hand, we reasoned that if human overhunting drove megafauna extinctions, there would be a negative correlation between human and megafauna population densities. On the other hand, if climate change drove megafauna extinctions, there would be a correlation between our temperature proxy (i.e., the North Greenland Ice Core Project [NGRIP] δ<sup>18</sup>O record) and megafauna population densities. We found no correlation between our human and megafauna population proxies and, therefore, no support for simple models of overkill. While our findings do not preclude humans from having had an impact—for example, by interrupting megafauna subpopulation connectivity or performing a coup de grâce on already impoverished megafauna—they do suggest that growing populations of “big-game” hunters were not the primary driving force behind megafauna extinctions. We did, however, consistently find a significant, positive correlation between temperature and megafauna population densities. Put simply, decreases in temperature correlated with declines in North American megafauna. The timing of megafauna population declines and extinctions suggest that the unique conditions of the YD—i.e., abrupt cooling, increased seasonality and CO<sub>2</sub>, and major vegetation changes—played a key role in the North American megafauna extinction event.</p>

scholarly journals Effects of freshwater blue spaces may be beneficial for mental health: A first, ecological study in the North American Great Lakes region

PLoS ONE ◽  
2019 ◽  
Vol 14 (8) ◽  
pp. e0221977 ◽  
Author(s):  
Amber L. Pearson ◽  
Ashton Shortridge ◽  
Paul L. Delamater ◽  
Teresa H. Horton ◽  
Kyla Dahlin ◽  
...  
Keyword(s):  
Mental Health ◽  
Great Lakes ◽  
North American ◽  
Ecological Study ◽  
Great Lakes Region ◽  
The North ◽  
North American Great Lakes

Revision of the North American genus Scirites (Araneae, Linyphiidae)

Zootaxa ◽  
2007 ◽  
Vol 1460 (1) ◽  
pp. 47-58 ◽  
Author(s):  
NADINE DUPÉRRÉ ◽  
PIERRE PAQUIN
Keyword(s):  
Great Lakes ◽  
North American ◽  
Type Species ◽  
Morphological Analysis ◽  
Washington State ◽  
Great Lakes Region ◽  
Widespread Species ◽  
Distribution Maps ◽  
The North ◽  
Sphagnum Bogs

The genus Scirites Bishop & Crosby (1938) is revised and now includes Scirites pectinatus (Emerton 1911) the type species, and Scirites finitimus n.sp. Diagnoses, descriptions, locality records, habitat information and distribution maps are given for both species. A morphological analysis places the genus in the distal erigonine clade of Miller & Hormiga (2004) and sister to (Tapinocyba (Ceratinops + Parapelecopsis). Scirites pectinatus is a widespread species occurring mostly north of the 40th parallel; S. finitimus has been collected from sphagnum bogs mostly in the Great Lakes region with a single isolated collection in Washington state.

Tricholoma, subgenus Tricholoma, section Albidogrisea: North American species found principally in the Great Lakes region

1989 ◽  
Vol 67 (11) ◽  
pp. 3134-3152 ◽  
Author(s):  
Clark L. Ovrebo
Keyword(s):  
North America ◽  
Great Lakes ◽  
North American ◽  
North American Species ◽  
Eastern North America ◽  
Great Lakes Region

Fifteen species of Tricholoma, subgenus Tricholoma, section Albidogrisea, are described and illustrated. All species occur in the Great Lakes region and many are distributed elsewhere in eastern North America. Four species are new: Tricholoma argenteum, Tricholoma atrodiscum, Tricholoma insigne, and Tricholoma pullum. Keys are provided to the sections of subg. Tricholoma and to the species and stirpes of sect. Albidogrisea.

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