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: It is suggested that SRL can be used successfully as an indicator of nutrient availability to trees in experimental conditions after meta-analyses showed that S RL decreased significantly under fertilization and Al-stress and responded negatively to reduced light, elevated temperature and CO2.
Abstract: Specific root length (SRL, m g(-1)) is probably the most frequently measured morphological parameter of fine roots. It is believed to characterize economic aspects of the root system and to be indi ...
486 citations
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Pacific Northwest National Laboratory1, United States Geological Survey2, Smithsonian Tropical Research Institute3, Smithsonian Conservation Biology Institute4, University of Minnesota5, Joint Global Change Research Institute6, University of Maryland, College Park7, Duke University8, Boston University9, Swiss Federal Institute for Forest, Snow and Landscape Research10, University of California, Berkeley11, Stanford University12, University of Florida13, Lawrence Berkeley National Laboratory14, Northern Arizona University15, Goddard Space Flight Center16, University of Birmingham17, Technische Universität München18, University of Natural Resources and Life Sciences, Vienna19, University of Wisconsin-Madison20, Columbia University21, Oak Ridge National Laboratory22, Los Alamos National Laboratory23
TL;DR: The authors show that shifts in forest dynamics are already occurring, and the emerging pattern is that global forests are tending toward younger stands with faster turnover as old-growth forest with stable dynamics are dwindling.
Abstract: Forest dynamics arise from the interplay of environmental drivers and disturbances with the demographic processes of recruitment, growth, and mortality, subsequently driving biomass and species composition. However, forest disturbances and subsequent recovery are shifting with global changes in climate and land use, altering these dynamics. Changes in environmental drivers, land use, and disturbance regimes are forcing forests toward younger, shorter stands. Rising carbon dioxide, acclimation, adaptation, and migration can influence these impacts. Recent developments in Earth system models support increasingly realistic simulations of vegetation dynamics. In parallel, emerging remote sensing datasets promise qualitatively new and more abundant data on the underlying processes and consequences for vegetation structure. When combined, these advances hold promise for improving the scientific understanding of changes in vegetation demographics and disturbances.
476 citations
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Günter Blöschl1, Marc F. P. Bierkens2, António Chambel3, Christophe Cudennec4 +209 more•Institutions (124)
TL;DR: In this article, a community initiative to identify major unsolved scientific problems in hydrology motivated by a need for stronger harmonisation of research efforts is described. But despite the diversity of the participants (230 scientists in total), the process revealed much about community priorities and the state of our science: a preference for continuity in research questions rather than radical departures or redirections from past and current work.
Abstract: This paper is the outcome of a community initiative to identify major unsolved scientific problems in hydrology motivated by a need for stronger harmonisation of research efforts. The procedure involved a public consultation through online media, followed by two workshops through which a large number of potential science questions were collated, prioritised, and synthesised. In spite of the diversity of the participants (230 scientists in total), the process revealed much about community priorities and the state of our science: a preference for continuity in research questions rather than radical departures or redirections from past and current work. Questions remain focused on the process-based understanding of hydrological variability and causality at all space and time scales. Increased attention to environmental change drives a new emphasis on understanding how change propagates across interfaces within the hydrological system and across disciplinary boundaries. In particular, the expansion of the human footprint raises a new set of questions related to human interactions with nature and water cycle feedbacks in the context of complex water management problems. We hope that this reflection and synthesis of the 23 unsolved problems in hydrology will help guide research efforts for some years to come.
469 citations
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Swiss Federal Institute for Forest, Snow and Landscape Research1, University of Marburg2, Spanish National Research Council3, Institut national de la recherche agronomique4, Center for International Forestry Research5, Aristotle University of Thessaloniki6, National Research Council7, Vytautas Magnus University8, University of Oulu9, Uppsala University10, King Juan Carlos University11, Université Paris-Saclay12, Science for Life Laboratory13
TL;DR: This dataset of individual tree-core characteristics including ring-width series and whole-core wood density was collected for seven ecologically and economically important European tree species, covering most of the geographical and climatic range occupied by the selected species.
Abstract: The dataset presented here was collected by the GenTree project (EU-Horizon 2020), which aims to improve the use of forest genetic resources across Europe by better understanding how trees adapt to their local environment. This dataset of individual tree-core characteristics including ring-width series and whole-core wood density was collected for seven ecologically and economically important European tree species: silver birch (Betula pendula), European beech (Fagus sylvatica), Norway spruce (Picea abies), European black poplar (Populus nigra), maritime pine (Pinus pinaster), Scots pine (Pinus sylvestris), and sessile oak (Quercus petraea). Tree-ring width measurements were obtained from 3600 trees in 142 populations and whole-core wood density was measured for 3098 trees in 125 populations. This dataset covers most of the geographical and climatic range occupied by the selected species. The potential use of it will be highly valuable for assessing ecological and evolutionary responses to environmental conditions as well as for model development and parameterization, to predict adaptability under climate change scenarios.
467 citations
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TL;DR: In this article, a multivariate statistical model based on geo-physical and socio-economic variables was developed to characterize the locations in the Swiss mountains where agricultural land has been abandoned and overgrown by trees andbushes.
450 citations
Authors
Showing all 1333 results
Name | H-index | Papers | Citations |
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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 |