Dylan M. Schwindt scite author profile

We examined the influence of ecological (diet, swamp use, and rainfall) and social (intergroup interaction rate) factors on ranging behavior in one group of western gorillas (Gorilla gorilla gorilla) during a 16-month study. Relative to mountain gorillas, western gorillas live in habitats with reduced herb densities, more readily available fruit (from seasonal and rare fruit trees), and, at some sites, localized large open clearings (swamps and "bais"). Ranging behavior reflects these ecological differences. The daily path length (DPL) of western gorillas was longer (mean=2,014 m) than that of mountain gorillas, and was largely related to fruit acquisition. Swamp use occurred frequently (27% of days) and incurred a 50% increase in DPL, and 77% of the variation in monthly frequency of swamp use was explained by ripe fruit availability within the swamp, and not by the absence of resources outside the swamp. The annual home-range size was 15.4 km2. The western gorilla group foraged in larger areas each month, and reused them more frequently and consistently through time compared to mountain gorillas. In contrast to mountain gorillas, intergroup encounters occurred at least four times more frequently, were usually calm rather than aggressive, and had no consistent effect on DPL or monthly range size for one group of western gorillas. High genetic relatedness among at least some neighboring males [Bradley et al., Current Biology, in press] may help to explain these results, and raises intriguing questions about western gorilla social relationships.

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The Social Consequences of Climate Change in the Central Mesa Verde Region

Schwindt¹,

Bocinsky²,

Ortman³

et al. 2016

Am. antiq.

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The consequences of climate change vary over space and time. Effective studies of human responses to climatically induced environmental change must therefore sample the environmental diversity experienced by specific societies. We reconstruct population histories from A.D. 600 to 1280 in six environmentally distinct portions of the central Mesa Verde region in southwestern Colorado, relating these to climate-driven changes in agricultural potential. In all but one subregion, increases in maize-niche size led to increases in population size. Maize-niche size is also positively correlated with regional estimates of birth rates. High birth rates continued to accompany high population levels even as productive conditions declined in the A.D. 1200s. We reconstruct prominent imbalances between the maize-niche size and population densities in two subregions from A.D. 1140 to 1180 and from A.D. 1225 to 1260. We propose that human responses in those subregions, beginning by the mid-A.D. 1200s, contributed to violence and social collapse across the entire society. Our findings are relevant to discussions of how climate change will affect contemporary societies.

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Fungal abundance spike and the Permian–Triassic boundary in the Karoo Supergroup (South Africa)

Steiner

Eshet

Rampino

et al. 2003

Palaeogeography, Palaeoclimatology, Palaeoecology

106

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δ13C values of carbonate nodules across the Permian–Triassic boundary in the Karoo Supergroup (South Africa) reflect a stinking sulfurous swamp, not atmospheric CO2

Tabor

Montañez

Steiner

et al. 2007

Palaeogeography, Palaeoclimatology, Palaeoecology

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Moisture Effects on the Morphology of Ears, Cobs and Kernels of a South-western U.S. Maize (Zea maysL.) Cultivar, and Implications for the Interpretation of Archaeological Maize

Adams

Muenchrath

Schwindt

1999

Journal of Archaeological Science

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Dylan M. Schwindt

Impact of ecological and social factors on ranging in western gorillas

The Social Consequences of Climate Change in the Central Mesa Verde Region

Fungal abundance spike and the Permian–Triassic boundary in the Karoo Supergroup (South Africa)

δ13C values of carbonate nodules across the Permian–Triassic boundary in the Karoo Supergroup (South Africa) reflect a stinking sulfurous swamp, not atmospheric CO2

Moisture Effects on the Morphology of Ears, Cobs and Kernels of a South-western U.S. Maize (Zea maysL.) Cultivar, and Implications for the Interpretation of Archaeological Maize

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