Predicted impacts of global climate change on the geographic distribution of an invaluable African medicinal plant resource, Alstonia boonei De Wild

Predicted impacts of global climate change on the geographic distribution of an invaluable African medicinal plant resource, Alstonia boonei De Wild

[Display omitted] •Potential suitable geographic areas for A. boonei under present and future climates were studied.•Suitability was lower at northern and southern extremes of the species’ known distribution.•Future potential geographic distributions were similar to present-day distributional patter...

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Bibliographic Details
Published in:Journal of applied research on medicinal and aromatic plants Vol. 14; p. 100206
Main Authors: Asase, Alex, Peterson, Andrew Townsend
Format: Journal Article
Language:English
Published: Elsevier GmbH 01-09-2019
Subjects:
Alstonia boonei De Wild
Climate change
Conservation
Ecological niche modeling
Medicinal plants
Medicinal plants
Climate change
Alstonia boonei De Wild
Conservation
Ecological niche modeling
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Summary:[Display omitted] •Potential suitable geographic areas for A. boonei under present and future climates were studied.•Suitability was lower at northern and southern extremes of the species’ known distribution.•Future potential geographic distributions were similar to present-day distributional patterns.•Geographic distribution is likely to remain largely stable under present and future climates.•ENM approaches can be used to evaluate effects of climate change on African medicinal plants. The likely effects of climate change on geographic distributions of African medicinal plants have not seen detailed analysis. We investigated likely effects of future climate change processes on suitable geographic areas for an important medicinal plant resource, Alstonia boonei De Wild. We characterized the potential geographic distribution of the species by means of ecological niche models based on primary biodiversity data and interpolated climate data from the WorldClim archive. Results indicated that suitability for the species was lower at the northern and southern extremes of the species’ known geographic distribution, whereas broader areas in the eastern half of the species’ distribution were identified as suitable. Future potential geographic distributions were similar to present-day distributional patterns, with modest increases in suitability, which translated into only subtle likely range shifts, with slight expansions of suitability for the species in all directions. As such, in the face of changing climate, the geographic distribution of Alstonia boonei is likely to remain largely stable under present and future climates. This study serves as an example of how ecological niche modeling can be used to evaluate probable effects of future climate change on invaluable natural medicinal resources, implications for healthcare, livelihoods, and conservation practice.
ISSN:2214-7861
2214-7861
DOI:10.1016/j.jarmap.2019.100206