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   Wiget, Andrew; Balalaeva, Olga (December 2022, Human Ecology)

   Abstract Conservation regimes and governmental relations with Indigenous peoples both vary widely. Successfully resolving conflicts arising from human-wildlife interactions (HWI) is complicated by the existence of multiple ontologies not only among various publics but within historically-marginalized and fragmented Indigenous communities. Current models of HWI are being reevaluated in order to better understand how humans and animals, including large carnivores, have learned to coexist. This article uses field interviews and Indigenous songs texts to describe the uniquely moral character of human-bear interactions among the elder generation of Siberian Khanty of Siberia. We outline the potential of such an ethos for developing more inclusive and just management policies and practices focused on tolerance and coexistence, while also identifying some limitations on developing such policies that emerge from acculturative stresses. 

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4. The origin of eukaryotes and rise in complexity were synchronous with the rise in oxygen

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   Craig, Jack M.; Kumar, Sudhir; Hedges, S. Blair (September 2023, Frontiers in Bioinformatics)

   The origin of eukaryotes was among the most important events in the history of life, spawning a new evolutionary lineage that led to all complex multicellular organisms. However, the timing of this event, crucial for understanding its environmental context, has been difficult to establish. The fossil and biomarker records are sparse and molecular clocks have thus far not reached a consensus, with dates spanning 2.1–0.91 billion years ago (Ga) for critical nodes. Notably, molecular time estimates for the last common ancestor of eukaryotes are typically hundreds of millions of years younger than the Great Oxidation Event (GOE, 2.43–2.22 Ga), leading researchers to question the presumptive link between eukaryotes and oxygen. We obtained a new time estimate for the origin of eukaryotes using genetic data of both archaeal and bacterial origin, the latter rarely used in past studies. We also avoided potential calibration biases that may have affected earlier studies. We obtained a conservative interval of 2.2–1.5 Ga, with an even narrower core interval of 2.0–1.8 Ga, for the origin of eukaryotes, a period closely aligned with the rise in oxygen. We further reconstructed the history of biological complexity across the tree of life using three universal measures: cell types, genes, and genome size. We found that the rise in complexity was temporally consistent with and followed a pattern similar to the rise in oxygen. This suggests a causal relationship stemming from the increased energy needs of complex life fulfilled by oxygen. 

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