Influence of microclimate and geomorphological factors on alpine vegetation in the Western Swiss Alps

Among the numerous environmental factors affecting plant communities in alpine ecosystems, the influence of geomorphic processes and landforms has been minimally investigated. Subjected to persistent climate warming, it is vital to understand how these factors affect vegetation properties. Here, we...

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Published inEarth surface processes and landforms Vol. 44; no. 15; pp. 3093 - 3107
Main Authors Giaccone, Elisa, Luoto, Miska, Vittoz, Pascal, Guisan, Antoine, Mariéthoz, Grégoire, Lambiel, Christophe
Format Journal Article
LanguageEnglish
Published Bognor Regis Wiley Subscription Services, Inc 01.12.2019
Subjects
Additives
alpine environment
Climate change
Community composition
Composition
Earth
Earth surface
earth surface processes
Environmental factors
Generalized linear models
Geomorphology
Global warming
Landforms
Microclimate
Plant communities
Plant diversity
Plant species
Plants
Regression analysis
Regression models
Scaling
Soil
Soil moisture
Soil temperature
Species richness
Statistical models
Surface temperature
Variables
Vegetation
vegetation community
Alps
Online AccessGet full text
ISSN0197-9337
1096-9837
DOI10.1002/esp.4715

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Abstract Among the numerous environmental factors affecting plant communities in alpine ecosystems, the influence of geomorphic processes and landforms has been minimally investigated. Subjected to persistent climate warming, it is vital to understand how these factors affect vegetation properties. Here, we studied 72 vegetation plots across three sites located in the Western Swiss Alps, characterized by high geomorphological variability and plant diversity. For each plot, vascular plant species were inventoried and ground surface temperature, soil moisture, topographic variables, earth surface processes (ESPs) and landform morphodynamics were assessed. The relationships between plant communities and environmental variables were analysed using non‐metric multi‐dimensional scaling (NMDS) and multivariate regression techniques (generalized linear model, GLM, and generalized additive model, GAM). Landform morphodynamics, growing degree days (sum of degree days above 5°C) and mean ground surface temperature were the most important explanatory variables of plant community composition. Furthermore, the regression models for species cover and species richness were significantly improved by adding a morphodynamics variable. This study provides complementary support that landform morphodynamics is a key factor, combined with growing degree days, to explain alpine plant distribution and community composition. © 2019 John Wiley & Sons, Ltd. © 2019 John Wiley & Sons, Ltd. In the western Swiss Alps we investigated the influence of geomorphic processes and landforms on alpine plant communities. Vascular plant species were inventoried and ground surface temperature, soil moisture, topographic variables, earth surface processes and landform morphodynamics were assessed. This study provides complementary knowledge indicating that landform morphodynamics, combined with growing degree days, is a key factor to explain alpine plant distribution and community composition.
AbstractList Among the numerous environmental factors affecting plant communities in alpine ecosystems, the influence of geomorphic processes and landforms has been minimally investigated. Subjected to persistent climate warming, it is vital to understand how these factors affect vegetation properties. Here, we studied 72 vegetation plots across three sites located in the Western Swiss Alps, characterized by high geomorphological variability and plant diversity. For each plot, vascular plant species were inventoried and ground surface temperature, soil moisture, topographic variables, earth surface processes (ESPs) and landform morphodynamics were assessed. The relationships between plant communities and environmental variables were analysed using non‐metric multi‐dimensional scaling (NMDS) and multivariate regression techniques (generalized linear model, GLM, and generalized additive model, GAM). Landform morphodynamics, growing degree days (sum of degree days above 5°C) and mean ground surface temperature were the most important explanatory variables of plant community composition. Furthermore, the regression models for species cover and species richness were significantly improved by adding a morphodynamics variable. This study provides complementary support that landform morphodynamics is a key factor, combined with growing degree days, to explain alpine plant distribution and community composition. © 2019 John Wiley & Sons, Ltd. © 2019 John Wiley & Sons, Ltd.
Among the numerous environmental factors affecting plant communities in alpine ecosystems, the influence of geomorphic processes and landforms has been minimally investigated. Subjected to persistent climate warming, it is vital to understand how these factors affect vegetation properties. Here, we studied 72 vegetation plots across three sites located in the Western Swiss Alps, characterized by high geomorphological variability and plant diversity. For each plot, vascular plant species were inventoried and ground surface temperature, soil moisture, topographic variables, earth surface processes (ESPs) and landform morphodynamics were assessed. The relationships between plant communities and environmental variables were analysed using non‐metric multi‐dimensional scaling (NMDS) and multivariate regression techniques (generalized linear model, GLM, and generalized additive model, GAM). Landform morphodynamics, growing degree days (sum of degree days above 5°C) and mean ground surface temperature were the most important explanatory variables of plant community composition. Furthermore, the regression models for species cover and species richness were significantly improved by adding a morphodynamics variable. This study provides complementary support that landform morphodynamics is a key factor, combined with growing degree days, to explain alpine plant distribution and community composition. © 2019 John Wiley & Sons, Ltd. © 2019 John Wiley & Sons, Ltd. In the western Swiss Alps we investigated the influence of geomorphic processes and landforms on alpine plant communities. Vascular plant species were inventoried and ground surface temperature, soil moisture, topographic variables, earth surface processes and landform morphodynamics were assessed. This study provides complementary knowledge indicating that landform morphodynamics, combined with growing degree days, is a key factor to explain alpine plant distribution and community composition.
Author Vittoz, Pascal
Luoto, Miska
Giaccone, Elisa
Guisan, Antoine
Lambiel, Christophe
Mariéthoz, Grégoire
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  surname: Lambiel
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  organization: University of Lausanne
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Snippet Among the numerous environmental factors affecting plant communities in alpine ecosystems, the influence of geomorphic processes and landforms has been...
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SubjectTerms Additives
alpine environment
Climate change
Community composition
Composition
Earth
Earth surface
earth surface processes
Environmental factors
Generalized linear models
Geomorphology
Global warming
Landforms
Microclimate
Plant communities
Plant diversity
Plant species
Plants
Regression analysis
Regression models
Scaling
Soil
Soil moisture
Soil temperature
Species richness
Statistical models
Surface temperature
Variables
Vegetation
vegetation community
Title Influence of microclimate and geomorphological factors on alpine vegetation in the Western Swiss Alps
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https://www.proquest.com/docview/2330711074
Volume 44
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