Publication details

Placing unprecedented recent fir growth in a European-wide and Holocene-long context

Authors

BÜNTGEN Ulf TEGEL Willy KAPLAN Jed O SCHAUB Marcus HAGEDORN Frank BÜRGI Matthias BRÁZDIL Rudolf HELLE Gerhard CARRER Marco HEUSSNER Karl-Uwe HOFMANN Juta KONTIC Raymond KYNCL Tomáš KYNCL Josef CAMARERO J Julio TINNER Willy ESPER Jan LIEBHOLD Andrew

Year of publication 2014
Type Article in Periodical
Magazine / Source Frontiers in Ecology and the Environment
MU Faculty or unit

Faculty of Science

Citation
Doi http://dx.doi.org/10.1890/130089
Field Ecology
Keywords silver fir; tree-ring; forest growth; temporal changes; Europe; Holocene
Description Forest decline played a pivotal role in motivating Europe’s political focus on sustainability around 35 years ago. Silver fir (Abies alba) exhibited a particularly severe dieback in the mid-1970s, but disentangling biotic from abiotic drivers remained challenging because both spatial and temporal data were lacking. Here, we analyze 14 136 samples from living trees and historical timbers, together with 356 pollen records, to evaluate recent fir growth from a continent-wide and Holocene-long perspective. Land use and climate change influenced forest growth over the past millennium, whereas anthropogenic emissions of acidic sulfates and nitrates became important after about 1850. Pollution control since the 1980s, together with a warmer but not drier climate, has facilitated an unprecedented surge in productivity across Central European fir stands. Restricted fir distribution prior to the Mesolithic and again in the Modern Era, separated by a peak in abundance during the Bronze Age, is indicative of the long-term interplay of changing temperatures, shifts in the hydrological cycle, and human impacts that have shaped forest structure and productivity.

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