Zobrazeno 1 - 8
of 8
pro vyhledávání: '"Tyler J. Hoecker"'
Autor:
Dominik Thom, Werner Rammer, Katharina Albrich, Kristin H. Braziunas, Laura Dobor, Christina Dollinger, Winslow D. Hansen, Brian J. Harvey, Tomáš Hlásny, Tyler J. Hoecker, Juha Honkaniemi, William S. Keeton, Yuta Kobayashi, Sofia Saenz Kruszka, Akira Mori, Jenna E. Morris, Stephen Peters-Collaer, Zak Ratajczak, Trond Simensen, Ilié Storms, Kureha F. Suzuki, Anthony R. Taylor, Monica G. Turner, Susan Willis, Rupert Seidl
Publikováno v:
Data in Brief, Vol 55, Iss , Pp 110662- (2024)
Understanding the impacts of changing climate and disturbance regimes on forest ecosystems is greatly aided by the use of process-based models. Such models simulate processes based on first principles of ecology, which requires parameterization. Para
Externí odkaz:
https://doaj.org/article/fb7f8672ec474fcfa0c956be53de41d1
Publikováno v:
Communications Earth & Environment, Vol 4, Iss 1, Pp 1-12 (2023)
Abstract Changes in wildfire frequency and severity are altering conifer forests and pose threats to biodiversity and natural climate solutions. Where and when feedbacks between vegetation and fire could mediate forest transformation are unresolved.
Externí odkaz:
https://doaj.org/article/b4955994b689427792afdb3dd2545106
Autor:
Zak Ratajczak, A. Leroy Westerling, Monica G. Turner, Werner Rammer, Kristin H. Braziunas, Rupert Seidl, Tyler J. Hoecker, Winslow D. Hansen
Publikováno v:
Ecological Monographs, vol 92, iss 1
Author(s): Turner, Monica G; Braziunas, Kristin H; Hansen, Winslow D; Hoecker, Tyler J; Rammer, Werner; Ratajczak, Zak; Westerling, A Leroy; Seidl, Rupert
Autor:
Philip E. Higuera, Tyler J. Hoecker
Publikováno v:
Landscape Ecology. 34:227-241
The boreal forest is globally important for its influence on Earth’s energy balance, and its sensitivity to climate change. Ecosystem functioning in boreal forests is shaped by fire activity, so anticipating the impacts of climate change requires u
Autor:
Tyler J. Hoecker, Monica G. Turner
Publikováno v:
Forest Ecology and Management. 504:119814
Recent increases in fire frequency and severity across the western US are triggering abrupt changes in ecosystem structure and composition, especially in lower montane forests, but consequences of fire-regime change for mesic, mixed-conifer forests r
Publikováno v:
EcologyLiterature Cited. 102(1)
Subalpine forests that historically burned every 100-300 years are expected to burn more frequently as climate warms, perhaps before trees reach reproductive maturity or produce a serotinous seedbank. Tree regeneration after short-interval ( 100 yrs)
Publikováno v:
EcologyLiterature Cited. 101(9)
Boreal forest and tundra biomes are key components of the Earth system because the mobilization of large carbon stocks and changes in energy balance could act as positive feedbacks to ongoing climate change. In Alaska, wildfire is a primary driver of
Publikováno v:
Forest Ecology and Management. 478:118523
Stand-replacing fires burned at 100 to 300-year intervals for millennia in subalpine conifer forests of western North America, but forests are burning more frequently as climate warms. Postfire tree regeneration is reduced when young forests reburn b