Effects of increase in temperature and open water on transmigration and access to health care by the Nenets reindeer herders in northern Russia

Background . The indigenous Nenets reindeer herders in northern Russia annually migrate several hundred kilometers between summer and winter pastures. In the warming climate, ice-rich permafrost and glaciers are being significantly reduced and will eventually disappear from parts of the Arctic. The...

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Bibliographic Details
Published in:International Journal of Circumpolar Health
Main Authors: Philippe Amstislavski, Leonid Zubov, Herman Chen, Pietro Ceccato, Jean-Francois Pekel, Jeremy Weedon
Format: Article in Journal/Newspaper
Language:English
Published: Taylor & Francis Group 2013
Subjects:
climate change
health services access
hydrology
indigenous peoples
permafrost
Rangifer tarandus
remote sensing
satellite imagery
surface water
water bodies
Arctic medicine. Tropical medicine
RC955-962
Arctic
Nes
Nes’
Circumpolar Health
Climate change
Ice
International Journal of Circumpolar Health
Kanin peninsula
nenets
Tundra
Online Access:https://doi.org/10.3402/ijch.v72i0.21183
https://doaj.org/article/5285f2230ca24ac2975aca0fe54c5a29
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Summary:Background . The indigenous Nenets reindeer herders in northern Russia annually migrate several hundred kilometers between summer and winter pastures. In the warming climate, ice-rich permafrost and glaciers are being significantly reduced and will eventually disappear from parts of the Arctic. The emergent changes in hydrological cycles have already led to substantial increases in open water that stays unfrozen for longer periods of time. This environmental change has been reported to compromise the nomadic Nenets’ traditional way of life because the presence of new water in the tundra reduces the Nenets’ ability to travel by foot, sled, or motor vehicle from the summer transitory tundra campsites in order to access healthcare centers in villages. New water can also impede their access to family and community at other herder camps and in the villages. Although regional and global models predicting hydrologic changes due to climate changes exist, the spatial resolution of these models is too coarse for studying how increases in open water affect health and livelihoods. To anticipate the full health impact of hydrologic changes, the current gap between globally forecasted scenarios and locally forecasted hydrologic scenarios needs to be bridged. Objectives . We studied the effects of the autumn temperature anomalies and increases in open water on health care access and transmigration of reindeer herders on the Kanin Peninsula. Design . Correlational and time series analyses were completed. Methods . The study population consisted of 370 full-time, nomadic reindeer herders. We utilized clinical visit records, studied surface temperature anomalies during autumn migrations, and used remotely sensed imagery to detect water bodies. Spearman correlation was used to measure the relationship between temperature anomalies and the annual arrival of the herders at the Nes clinic for preventive and primary care. Piecewise regression was used to model change in mean autumnal temperature anomalies over ...

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