Brooklin E. Hunt scite author profile

Brooklin E. Hunt

3Publications

15Citation Statements Received

88Citation Statements Given

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165

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Montana State University

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Fostering landscape immunity to protect human health: A science‐based rationale for shifting conservation policy paradigms

Reaser

Hunt

Ruiz‐Aravena

et al. 2022

CONSERVATION LETTERS

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Anthropogenic land use change is a major driver of zoonotic pathogen spillover from wildlife to humans. According to the land use‐induced spillover model, land use change alters environmental conditions that in turn alter the dynamics between zoonotic pathogens and their wildlife hosts. Thus, in response to the global spread of the SARS‐CoV‐2 virus (the agent of COVID‐19 disease), there have been renewed calls for landscape conservation as a disease preventive measure, including by the G7 Ministers responsible for Climate and the Environment. Landscape immunity, as a new construct, points to four paradigm shifts the world must favor to effectively mitigate pandemic risks. We provide a landscape immunity primer for policy makers and make the case for “world views” that place Homo sapiens within ecological systems, regard human health as an ecological service, prioritize investments in prevention, and apply ecological restoration to human health goals. Crisis is a conversation starter for reimagining and recommitting ourselves to what is most vital and generative. We urge world leaders to make the move to a nature‐positive world.

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Land use, season, and parasitism predict metal concentrations in Australian flying fox fur

Sánchez

Penrose

Kessler

et al. 2022

Science of The Total Environment

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Morphological and quantitative analysis of leukocytes in free-living Australian black flying foxes (Pteropus alecto)

et al. 2022

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The black flying fox (Pteropus alecto) is a natural reservoir for Hendra virus, a paramyxovirus that causes fatal infections in humans and horses in Australia. Increased excretion of Hendra virus by flying foxes has been hypothesized to be associated with physiological or energetic stress in the reservoir hosts. The objective of this study was to explore the leukocyte profiles of wild-caught P. alecto, with a focus on describing the morphology of each cell type to facilitate identification for clinical purposes and future virus spillover research. To this end, we have created an atlas of images displaying the commonly observed morphological variations across each cell type. We provide quantitative and morphological information regarding the leukocyte profiles in bats captured at two roost sites located in Redcliffe and Toowoomba, Queensland, Australia, over the course of two years. We examined the morphology of leukocytes, platelets, and erythrocytes of P. alecto using cytochemical staining and characterization of blood films through light microscopy. Leukocyte profiles were broadly consistent with previous studies of P. alecto and other Pteropus species. A small proportion of individual samples presented evidence of hemoparasitic infection or leukocyte morphological traits that are relevant for future research on bat health, including unique large granular lymphocytes. Considering hematology is done by visual inspection of blood smears, examples of the varied cell morphologies are included as a visual guide. To the best of our knowledge, this study provides the first qualitative assessment of P. alecto leukocytes, as well as the first set of published hematology reference images for this species.

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Brooklin E. Hunt

Fostering landscape immunity to protect human health: A science‐based rationale for shifting conservation policy paradigms

Land use, season, and parasitism predict metal concentrations in Australian flying fox fur

Morphological and quantitative analysis of leukocytes in free-living Australian black flying foxes (Pteropus alecto)

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