drought-induced mortality locations

<p>Includes the locations, dates, references used for the publication "Is drought-induced forest dieback globally increasing?" by Steinkamp & Hickler</p> <p>The locations are based on Allen et al. (2010): A global overview of drought and heat-induced<br>tree mortality reveals emerging climate change risks for forests. Forest Ecology and Management, 259(4), 660-684. and Scholes, R. et al., (2014): Terrestrial and Inland Water Systems. In C. Field et al., eds. Climate Change 2014: Impacts, Adaptation, and Vulnerability. Available at: http://ipcc-wg2.gov/AR5/images/uploads/WGIIAR5-Chap4_FGDall.pdf [Accessed March 31, 2014].</p> <p>Plus some additional information derived from model simulation by the dynamic vegetation model LPJ-GUESS</p> <p>This work is published in Steinkamp & Hickler (accepted): Is drought-induced forest dieback globally increasing? Journal of Ecology.</p

Is drought-induced forest dieback globally increasing?

<p>Oral presentation at the INTECOL/BES meeting in London, August 18.-23. 2013</p

Is drought-induced forest dieback increasing?

<p>Recently it has been suggested that forest mortality has been increasing as a result of heat and drought stress. But it is not clear, if these observations are representative for forests globally or in Europe. We applied the dynamic global vegetation model LPJ-GUESS to compare simulated and observed drought (PDSI; AI) and mortality events in Europe(10°W-70°E; 35°N-79°N).</p> <p>Presented at the COST Event on Climate Change and Forests in Sarajevo (BA), August 2014</p

Improvement and evaluation of simulated global biogenic soil NO emissions in an AC-GCM

<p>Poster at the 11th IGAC Conference:<br>Chalenging the Future (2010). Abstract P-Sources.9 (ID:4205), Halifax, Canada</p> <p> </p

Is drought-induced forest dieback globally increasing?

<p>Oral presentation at AGU Fall meeting (2013). San Francisco, USA</p

Uncertainties of Nitrogen Fixation in a Dynamic Global Vegetation Model

<p>Poster presented at the EGU conference, Vienna, 2015</p

Global impact of modelled no emission from soils on related trace gases and the atmospheric oxidizing capacity

<p>Oral presentation at 6th EGU General Assembly (2009). Abstract EGU2009–6994, Vienna, Austria.</p> <p> </p

Einfluss von NO Emissionen aus dem Boden auf NOx , Ozon und OH in der unteren Troposphäre und die atmosphärische Oxidationseffizienz

<p>Oral presentation (in german) at Jahrestagung der Deutschen Bodenkundlichen Gesellschaft: Böden - eine endliche Ressource. Bonn, Germany</p> <p> </p

Global impact of modelled no emission from soils on related trace gases and evaluation of the no emission from soils

<p>Poster at 10th IGAC Conference: Bridging the Scales in Atmospheric Chemistry: Local to Global (2008). Abstract Th91, Annecy, France (Poster).</p> <p> </p

Results of parameter estimation for Ambrosia artemisiifolia simulations

The NetCDF files in this dataset contain annual results of the 100 best "runs" from a Latin-Hupercube-Sampling over the parameter space in North America (NAM) and transferred those results to Europe (EUR). The Excel sheet contains the parameter combination for those.<br><br><div> <div>Leiblein-Wild, M. C., Steinkamp, J., Hickler, T. and Tackenberg, O.: Modelling the potential distribution, net primary production and phenology of common ragweed with a physiological model, J. Biogeogr., 43(3), 544–554, doi:<a href="https://doi.org/10.1111/jbi.12646">10.1111/jbi.12646</a>, 2016.</div> </div