The Mid-Holocene Extinction of Silver Fir (Abies Alba) in the Southern Alps: A Consequence of Forest Fires? Palaeobotanical Records and Forest Simulations. Wick, L. & Möhl, A. Vegetation History and Archaeobotany, 15(4):435–444, September, 2006.
doi  abstract   bibtex   
Pollen records suggest that Abies alba played a dominating role in both the montane and lowland forests at the border of the Southern Alps between ca. 8500 and 5700 years ago. Two major declines in fir, at about 7300-7000 cal b.p. and at ca. 6000 cal b.p., followed by the local extinction of the species are characteristic of the area below ca. 1000 m a.s.l. In order to test the impact of fire on the population dynamics of silver fir, a dynamic model (DisCForm) with a fire module was applied to simulate the early- and mid-Holocene forest development. Simulation outputs based on different fire scenarios were compared with the pollen record from Lago di Annone (226 m a.s.l.). The marked Abies decreases shown in the pollen record can be simulated with very intensive fire scenarios, but they do not result in an extinction of silver fir in the model. Low charcoal influx values related to the Abies declines in the palaeobotanical record suggest that fire was not the only reason for the extinction of silver fir. Human impact, as well as Holocene climatic changes leading to temporary moisture deficits and reduced adaptability due to low genetic variation may have had a significant impact on the Abies forests.
@article{wickMidHoloceneExtinctionSilver2006,
  title = {The Mid-{{Holocene}} Extinction of Silver Fir ({{Abies}} Alba) in the {{Southern Alps}}: A Consequence of Forest Fires? {{Palaeobotanical}} Records and Forest Simulations},
  author = {Wick, Lucia and M{\"o}hl, Adrian},
  year = {2006},
  month = sep,
  volume = {15},
  pages = {435--444},
  issn = {0939-6314},
  doi = {10.1007/s00334-006-0051-0},
  abstract = {Pollen records suggest that Abies alba played a dominating role in both the montane and lowland forests at the border of the Southern Alps between ca. 8500 and 5700 years ago. Two major declines in fir, at about 7300-7000 cal b.p. and at ca. 6000 cal b.p., followed by the local extinction of the species are characteristic of the area below ca. 1000 m a.s.l. In order to test the impact of fire on the population dynamics of silver fir, a dynamic model (DisCForm) with a fire module was applied to simulate the early- and mid-Holocene forest development. Simulation outputs based on different fire scenarios were compared with the pollen record from Lago di Annone (226 m a.s.l.). The marked Abies decreases shown in the pollen record can be simulated with very intensive fire scenarios, but they do not result in an extinction of silver fir in the model. Low charcoal influx values related to the Abies declines in the palaeobotanical record suggest that fire was not the only reason for the extinction of silver fir. Human impact, as well as Holocene climatic changes leading to temporary moisture deficits and reduced adaptability due to low genetic variation may have had a significant impact on the Abies forests.},
  journal = {Vegetation History and Archaeobotany},
  keywords = {*imported-from-citeulike-INRMM,~INRMM-MiD:c-11434637,abies-alba,alpine-region,forest-fires,forest-resources,migration-history,soil-resources,species-extinction},
  lccn = {INRMM-MiD:c-11434637},
  number = {4}
}

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