Spatio-temporal analysis of alpine ecotones: A spatial explicit model targeting altitudinal vegetation shifts

There is general agreement in literature that Alpine vegetation belt ecotones have shown a trend of upward migration in the last few decades. Despite the potential of such shifts as indicators of global change effects in mountain ecosystems, there are relatively few works focused on their assessment...

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Bibliographic Details
Published in:Ecological Modelling
Main Authors: Alberto Díaz Varela, RA, COLOMBO, ROBERTO, MERONI, MICHELE, Calvo Iglesias, MS, Buffoni, A, Tagliaferri, A.
Other Authors: Alberto Díaz Varela, R, Colombo, R, Meroni, M, Calvo Iglesias, M, Tagliaferri, A
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier BV 2010
Subjects:
Alp
Digital elevation model
Global change
Landscape metric
Mountain ecotone
Spatially explicit model
AGR/14 - PEDOLOGIA
Tundra
Online Access:http://hdl.handle.net/10281/24197
https://doi.org/10.1016/j.ecolmodel.2009.11.010
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Summary:There is general agreement in literature that Alpine vegetation belt ecotones have shown a trend of upward migration in the last few decades. Despite the potential of such shifts as indicators of global change effects in mountain ecosystems, there are relatively few works focused on their assessment in a systematic and spatially explicit way. In this work our aim is to quantify the altitudinal shifts and analyse the spatial pattern dynamics of mountain ecotones. We developed a novel procedure to delineate the current and former state of three characteristic mountain ecotones, which we formalised as forest, tree and tundra lines. Our approach is based on the recognition of altitudinal extreme outposts identified with ecotone locations at a slope scale. The integration of multi-temporal datasets allows the identification and quantification of altitudinal advances and retreats in the outpost locations for a given period. We tested the method in a section of the Italian Alps for the period 1957-2003. Results show a general trend of an increase in altitude for the three ecotones, despite the occurrence of occasional decreases. We estimate decadal altitude increments of 25 m for forest line, 13 m for treeline and 11 m for tundra line. We also identified changes in ecotone spatial morphology between the two dates, with significant implications in connectivity and colonisation dynamics. © 2009 Elsevier B.V. All rights reserved.

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