Shifts in plant species elevational range limits and abundances observed over nearly five decades in a western North America mountain range

Question: Have there been shifts in abundance and distribution of alpine and sub-alpine plant species along an elevational gradient in an arid North American mountain range during the last half-century? Location: Elevational gradient in the White Mountains, California, USA (37°30′ N, 118°10′ W). Met...

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Bibliographic Details
Published in:Journal of vegetation science 2014-01, Vol.25 (1), p.135-146
Main Authors: Kopp, Christopher W., Cleland, Elsa E.
Format: Article
Language:English
Subjects:
Alpine plants
Animal and plant ecology
Animal, plant and microbial ecology
Artemisia rothrockii
Biological and medical sciences
Climate change
Conservation biology
Cushion plants
Dolomite
Ecological genetics
Eriogonum ovalifolium
Fundamental and applied biological sciences. Psychology
Global warming
Great Basin
Mountain ranges
Mountain soils
Multivariate analysis
Phlox
Phlox condensata
Plants
Quartzite
Species ranges
Trifolium andersonii
Vegetation
White Mountains
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Summary:Question: Have there been shifts in abundance and distribution of alpine and sub-alpine plant species along an elevational gradient in an arid North American mountain range during the last half-century? Location: Elevational gradient in the White Mountains, California, USA (37°30′ N, 118°10′ W). Methods: We conducted a 49-yr re-survey of plant species distribution and abundance in areas originally surveyed in 1961. Species abundance data were collected along line transects between elevations of 2900 and 4000 m. We evaluated the degree of plant community shift over time across elevations; specifically, we expected species ranges to shift upward such that species peak abundances would be observed higher in elevation in 2010 than in 1961. To address this expectation we conducted a permutational multivariate linear model analysis with elevation, soil type and year as factors. We further performed single-species analyses to evaluate how focal species contributed to the multivariate community-level shifts between 2010 and 1961, and how these varied across elevations and soil types. Growing season climate data (June 1 through October 31) collected between 1961 and 2010 were analysed to quantify the change in annual mean temperature and precipitation at this site. Results: We found that Artemisia rothrockii increased in abundance at the upper reaches of its distribution between the 2010 and 1961 surveys. Additionally, we recorded significant declines in abundances in the lower elevation ranges of three alpine cushion plants: Trifolium andersonii, Phlox condensata and Eriogonum ovalifolium. These shifts coincided with a 0.98 °C increase in mean growing season temperatures and a 53 mm decrease in mean annual precipitation between 1961 and 2010. Conclusions: These results suggest that rising temperatures and decreasing precipitation are negatively impacting alpine plant species while promoting expansion of sub-alpine species, possibly signalling the transition of this alpine plant community to sagebrush steppe.
ISSN:1100-9233
1654-1103
DOI:10.1111/jvs.12072