Institution
Swiss Federal Institute for Forest, Snow and Landscape Research
Facility•Birmensdorf, 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.
Topics: Climate change, Soil water, Biodiversity, Glacier, Species richness
Papers published on a yearly basis
Papers
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TL;DR: Despite uncertainties in estimates of the proportion of source water in the synthesis water (p(x)) and of the biochemical fractionation factor (ε(o), the experiment yielded strong evidence that p(ex) exhibits a significant, positive relationship with τ, consistent with biochemical theory.
Abstract: Certainty regarding the degree to which organic molecules exchange oxygen with local water during plant cellulose synthesis (p(ex)) is necessary for cellulose oxygen isotope (δ(18)O(cell))-based applications in environmental and ecological studies. However, the currently accepted notion that p(ex) is a constant of ca. 0.42 appears inconsistent with biochemical theory, which predicts that marked variation may be present in p(ex), in relation to variation in the turnover time (τ) of the carbohydrate pool available for cellulose synthesis. The above prediction was tested in the present study with the analysis of data collected from leaves of Ricinus communis grown in controlled environmental conditions that varied in light intensity and vapour pressure deficit. The results revealed the existence of considerable variation in both p(ex) and τ across plants in the various growth environments. Moreover, despite uncertainties in estimates of the proportion of source water in the synthesis water (p(x)) and of the biochemical fractionation factor (e(o)), our experiment yielded strong evidence that p(ex) exhibits a significant, positive relationship with τ, consistent with biochemical theory. The observed variation in p(ex) in association with τ has important implications for the interpretation of δ(18)O(cell) data in environmental/ecological studies.
48 citations
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TL;DR: The Swiss Federal Research Institute WSL started its first forest hydrology measurements with the aim to deliver a sound scientific basis for the implementation of new forest legislation introduced in Switzerland in 1876 as mentioned in this paper.
Abstract: In 1903 the Swiss Federal Research Institute WSL started its first forest hydrology measurements with the aim to deliver a sound scientific basis for the implementation of new forest legislation introduced in Switzerland in 1876. This legislation was triggered by several large floods that occurred in Switzerland, for which a major cause was widely seen as the poor condition of forests at that time. Consequently, hydrologic research at WSL first focused on the influence of forests on floods. In the second half of the 20th century, other hydrological issues such as water quality, snow hydrology and sediment transport complemented the hydrologic research at WSL. Some recent results of this work are presented in three papers joining this introductory paper to mark the 100th anniversary of hydrologic research at WSL. Copyright © 2006 John Wiley & Sons, Ltd.
48 citations
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TL;DR: Improved understanding of the role of drought seasonality and climate sensitivity of sites is key to better predict trajectories of post-drought growth recovery in response to the drier climate projected for Europe.
48 citations
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University of Utah1, University of Arizona2, University of California, Santa Barbara3, Morton Arboretum4, University of California, Los Angeles5, Autonomous University of Barcelona6, Université du Québec à Montréal7, University of California, Santa Cruz8, Swiss Federal Institute for Forest, Snow and Landscape Research9, ETH Zurich10
TL;DR: A pervasive increase in carbon loss from tree mortality is found by comparing long-term forest plot data and Earth system model (ESM) projections, likely driving declines in living aboveground vegetation carbon turnover time across forest climate zones.
Abstract: Forests play a major role in the global carbon cycle. Previous studies on the capacity of forests to sequester atmospheric CO2 have mostly focused on carbon uptake, but the roles of carbon turnover time and its spatiotemporal changes remain poorly understood. Here, we used long-term inventory data (1955 to 2018) from 695 mature forest plots to quantify temporal trends in living vegetation carbon turnover time across tropical, temperate, and cold climate zones, and compared plot data to 8 Earth system models (ESMs). Long-term plots consistently showed decreases in living vegetation carbon turnover time, likely driven by increased tree mortality across all major climate zones. Changes in living vegetation carbon turnover time were negatively correlated with CO2 enrichment in both forest plot data and ESM simulations. However, plot-based correlations between living vegetation carbon turnover time and climate drivers such as precipitation and temperature diverged from those of ESM simulations. Our analyses suggest that forest carbon sinks are likely to be constrained by a decrease in living vegetation carbon turnover time, and accurate projections of forest carbon sink dynamics will require an improved representation of tree mortality processes and their sensitivity to climate in ESMs.
48 citations
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TL;DR: In this paper, a tree-ring analysis of fossil wood from Two Creeks, Wisconsin, reveals that the Two Creekan Intetstade lasted at least 252 years and was contemporaneous with the Older Dryas in northern Europe.
48 citations
Authors
Showing all 1333 results
Name | H-index | Papers | Citations |
---|---|---|---|
Peter H. Verburg | 107 | 464 | 34254 |
Bernhard Schmid | 103 | 460 | 46419 |
Christian Körner | 103 | 376 | 39637 |
André S. H. Prévôt | 90 | 511 | 38599 |
Fortunat Joos | 87 | 276 | 36951 |
Niklaus E. Zimmermann | 80 | 277 | 39364 |
Robert Huber | 78 | 311 | 25131 |
David Frank | 78 | 186 | 18624 |
Jan Esper | 75 | 254 | 19280 |
James W. Kirchner | 73 | 238 | 21958 |
David B. Roy | 70 | 250 | 26241 |
Emmanuel Frossard | 68 | 356 | 15281 |
Derek Eamus | 67 | 285 | 17317 |
Benjamin Poulter | 66 | 255 | 22519 |
Ulf Büntgen | 65 | 316 | 15876 |