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Institution

Swiss Federal Institute for Forest, Snow and Landscape Research

FacilityBirmensdorf, Switzerland
About: Swiss Federal Institute for Forest, Snow and Landscape Research is a facility organization based out in Birmensdorf, Switzerland. It is known for research contribution in the topics: Climate change & Soil water. The organization has 1256 authors who have published 3222 publications receiving 161639 citations. The organization is also known as: WSL.


Papers
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Journal ArticleDOI
TL;DR: In this article, the authors reviewed the literature on the process of plant leaf litter decomposition in the temperate Alpine zone, with emphasis on both direct and indirect effects of climate change phenomena on rates of litter decay.
Abstract: Climatic changes resulting from anthropogenic activities over the passed century are repeatedly reported to alter the functioning of pristine ecosystems worldwide, and especially those in cold biomes. Available literature on the process of plant leaf litter decomposition in the temperate Alpine zone is reviewed here, with emphasis on both direct and indirect effects of climate change phenomena on rates of litter decay. Weighing the impact of biotic and abiotic processes governing litter mass loss, it appears that an immediate intensification of decomposition rates due to temperature rise can be retarded by decreased soil moisture, insufficient snow cover insulation, and shrub expansion in the Alpine zone. This tentative conclusion, remains speculative unless empirically tested, but it has profound implications for understanding the biogeochemical cycling in the Alpine vegetation belt, and its potential role as a buffering mechanism to climate change.

92 citations

Journal ArticleDOI
TL;DR: In this paper, the authors quantified the concept of habitat specificity to assess the proportion of each observed plant population that is concentrated within a given spatial element and tested whether the type, size or shape of a landscape element can predict its contribution to the species richness of the landscape.
Abstract: Assessing and predicting the species richness of a complex landscape remains a problem because there is no simple scaling function of species richness in a heterogeneous environment Furthermore, the potential value of an area for biodiversity conservation may depend on which, rather than how many, species the area contains This paper shows how we can objectively evaluate the contribution of an area, eg, a habitat patch, to larger-scale plant species richness, eg, a landscape composed of patches of several habitat types, and how we can test hypotheses that attempt to explain this contribution We quantified the concept of habitat specificity to assess the proportion of each observed plant population that is concentrated within a given spatial element A case study of a biodiversity-monitoring program in the Swiss Canton of Aargau showed that the relative contribution of the three main types of land use to the overall species richness differed strongly between higher taxa (vascular plants and molluscs) However, the type of data, ie, presence-absence or abundance, was not important Resampling of the plant data suggested that stratification provided an unbiased estimate of relative specificity, whereas unstratified sampling caused bias even for large samples In a second case study of vascular plants in an agricultural landscape in central Switzerland, we tested whether the type, size or shape of a landscape element can predict its contribution to the species richness of the landscape Habitat types that were less frequently disturbed contributed more per m2 to landscape species richness than more frequently disturbed ones Contrary to expectation, patch size was negatively correlated to specificity per m2 for arable fields, whereas patch shape appeared to be unrelated to the specificity per m2 both for arable fields and for meadows The specificity approach provides a solution to the problem of scaling species richness and is ideally suited for testing hypotheses on the effect of landscape structure on landscape species richness Specificity scores can easily be combined with measures of other aspects of rarity to assess the contribution of a spatial element to conservation goals formulated at regional, national or global level

92 citations

Journal ArticleDOI
TL;DR: It is found that under certain conditions (i.e., increasing drought, higher temperature), mixed forests can promote individual-tree growth in central European temperate forests, and the need to account for site-dependent conditions when exploring mixture effects in relation to forest productivity is emphasized.
Abstract: Summary 1.Mixed species forests can often be more productive and deliver higher levels of ecosystem services and functions than monocultures. However, complementarity effects for any given tree species are difficult to generalize because they can vary greatly along gradients of climatic conditions and resource availability. Identifying the conditions where species diversity can positively influence productivity is crucial. To date, few studies have examined how growth complementarity across species and mixture types is modulated by stand and environmental factors, and fewer have considered more than one or two factors. 2.We investigated how complementarity effects for several major central European tree species change with climatic and edaphic conditions, and with stand structural characteristics, including species composition. We used data from the Swiss National Forest Inventory, which is based on 3231 plots of pure and mixed stands (19 mixture types) across a broad environmental gradient, to test (i) how mixing effects change depending on the identity of the admixed species and (ii) if complementarity consistently increases when environmental conditions become harsher. 3.The magnitude, whether positive or negative, of complementarity increased with increasing stand density and stand developmental stage, but no general pattern could be identified across mixture types. Complementarity for many species increased as drought intensity and temperature increased, but not for all species and mixture types. While soil conditions, nitrogen and site topography influenced complementarity for many species, there was no general pattern (increases and decreases were observed). 4.Synthesis. Our study indicates that complementarity varies strongly with stand density and stand development as well as with topographic, climatic and soil conditions. This emphasizes the need to account for site-dependent conditions when exploring mixture effects in relation to forest productivity. We found that under certain conditions (i.e., increasing drought, higher temperature), mixed forests can promote individual-tree growth in central European temperate forests. However, careful assessments depending on the species composing the stands are required under changing resource availability as well as under different levels of stand density and development. This article is protected by copyright. All rights reserved.

92 citations

Journal ArticleDOI
TL;DR: The main biogeographic patterns and climate-related gradients in species composition of European floodplain forests and alder carrs were determined using detrended correspondence analysis and cluster analysis as mentioned in this paper.
Abstract: Aim: Formalized classifications synthesizing vegetation data at the continental scale are being attempted only now, although they are of key importance for nature conservation planning. Therefore, we aim to provide a vegetation classification and to describe the main biogeographical patterns of floodplain forests and alder carrs in Europe. Location: Europe. Methods: A database of more than 40 000 vegetation plots of floodplain forests and alder carrs across Europe was compiled. After geographic stratification, 16 392 plots were available for classification, which was performed using the supervised method Cocktail. We also searched for new associations using semi-supervised K-means classification. The main biogeographic patterns and climate-related gradients in species composition were determined using detrended correspondence analysis and cluster analysis. Results: Thirty associations of floodplain forests and alder carrs were distinguished, which belong to five alliances. The Alnion incanae includes riparian, seepage and hardwood floodplain forests in the nemoral and hemiboreal zones (dominated by Alnus glutinosa and Fraxinus excelsior) and in the boreal zone (dominated by A. incana). The Osmundo-Alnion represents oceanic vegetation dominated by Alnus glutinosa, Fraxinus angustifolia and F. excelsior distributed mostly on the Iberian Peninsula and composed of species with Atlantic distribution and Iberian endemics. The Populion albae comprises floodplain forests frequently dominated by Fraxinus angustifolia, Populus alba and P. nigra that are widespread in floodplains of large rivers under summer-dry climates in the Mediterranean region. The Platanion orientalis represents eastern Mediterranean floodplain forests dominated by Platanus orientalis. The Alnion glutinosae includes forest swamps dominated by Alnus glutinosa distributed mostly in the nemoral and hemiboreal zones. The main biogeographic patterns within European floodplain forests and alder carrs reflect the climatic contrasts between the Mediterranean, nemoral, boreal and mountain regions. Oceanic floodplain forests differ from those in the rest of Europe. The hydrological regime appears to be the most important factor influencing species composition within regions. Conclusions: This study is the first applying a formalized classification at the association level for a broad vegetation type at the continental scale. The proposed classification provides the scientific basis for the necessary improvement of the habitat classification systems used in European nature conservation.

92 citations

Journal ArticleDOI
TL;DR: The geographical distribution of vc types in Europe should be taken into consideration for biological control measures of chestnut blight and quarantine regulations.
Abstract: Summary Tester isolates of 20 vegetative compatibility (vc) types from 11 Italian subpopulations and tester isolates of 26 vc types from five Swiss subpopulations of Cryphonectria parasitica were compared by two different vc test methods. A total of 31 different vc types was identified; 15 vc types were common to both countries, five Italian vc types were not found in Switzerland and 11 Swiss vc types were not found in Italy. These 31 vc types were labelled with the acronym EU, followed by progressive numbers and may constitute the base for a common European nomenclature. The vc type EU-2 was the most common vc type in both countries and dominated in all Swiss and in seven Italian subpopulations. The vc types EU-1 and EU-5 were found primarily in northern Italy and Switzerland, while EU-10 and EU-12 were most common in southern Italy. The diversity of vc types was greater in the subpopulations of Switzerland and northern Italy than in the subpopulations of southern Italy. The geographical distribution of vc types in Europe should therefore be taken into consideration for biological control measures of chestnut blight and quarantine regulations.

92 citations


Authors

Showing all 1333 results

NameH-indexPapersCitations
Peter H. Verburg10746434254
Bernhard Schmid10346046419
Christian Körner10337639637
André S. H. Prévôt9051138599
Fortunat Joos8727636951
Niklaus E. Zimmermann8027739364
Robert Huber7831125131
David Frank7818618624
Jan Esper7525419280
James W. Kirchner7323821958
David B. Roy7025026241
Emmanuel Frossard6835615281
Derek Eamus6728517317
Benjamin Poulter6625522519
Ulf Büntgen6531615876
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Performance
Metrics
No. of papers from the Institution in previous years
YearPapers
2023111
2022173
2021395
2020327
2019269
2018281