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Modern Day Ecosystem Recovery
B.R. Clarkson, Hamilton, New Zealand: Vegetation recovery following fire in two Waikato peatlands at Whangamarino and Moanatuatua, New Zealand. PDF file, New Zealand Journal of Botany.
! V.H. Dale et al. (2004): Effects of modern volcanic eruptions on vegetation. Google books. See also here.
! R. Del Moral (1998): Early succession on lahars spawned by Mount St. Helens. Free access, American Journal of Botany, 85: 820–828. See also here.
! C.R. Hupp (1992): Riparian vegetation recovery patterns following stream channelization: a geomorphic perspective. In PDF, Ecology, Ecology, 73: 1209-1226. See also here (abstract).
P.N. Johnson (2001): Vegetation recovery after fire on a southern New Zealand peatland. PDF file, New Zealand Journal of Botany, 39: 251-267. See also here (abstract).
Colin J. Long et al. (2010): The effects of fire and tephra deposition on forest vegetation in the Central Cascades, Oregon. PDF file, Quaternary Research.
! J.J. Major et al. (2012): After the disaster: The hydrogeomorphic, ecological, and biological responses to the 1980 eruption of Mount St. Helens, Washington. PDF file. In: O’Connor, J.E., Dorsey, R.J., and Madin, I.P., (eds.): Volcanoes to Vineyards: Geologic Field Trips through the Dynamic Landscape of the Pacific Northwest. Geological Society of America Field Guide 15: 111–134.
! J.C. McElwain (2018): Paleobotany and global change: Important lessons for species to biomes from vegetation responses to past global change, In PDF, Annual review of plant biology, 69: 761–787. See also here
T.Meixner and P.M. Wohlgemuth: Climate Variability, Fire, Vegetation Recovery, and Watershed Hydrology. PDF file.
US Forest Service,
Gifford Pinchot National Forest,
Mount St. Helens National Volcanic Monument:
Mount
St. Helens National Volcanic Monument.
Life
Returns:
Animal and Plant Recovery Around the Volcano.
Websites outdated. Links lead to versions archived by the Internet Archive´s Wayback Machine.
Michael J. Novacek and Elsa E. Cleland (2001): The current biodiversity extinction event: Scenarios for mitigation and recovery. Abstract, PNAS, 98: 5466-5470.
C. Ohl & R. Bussmann (2004): Recolonisation of natural landslides in tropical mountain forests of Southern Ecuador. Abstract, Feddes Repertorium, 115: 248-264.
! J.G. Pausas et al. (2016): Towards understanding resprouting at the global scale. Free access, New Phytologist, 209: 945–954.
! J.G. Pausas et al. (2015): Towards understanding resprouting at the global scale. In PDF, New Phytologist.
Valentí Rull, Dept. Biologia Animal, Biologia Vegetal i Ecologia,
Universitat Autònoma de Barcelona:
Is
the Lost World really lost? Palaeoecological insights into the origin
of the peculiar flora of the Guayana Highlands.
PDF file, Naturwissenschaften, 91: 139-142, 200.
Provided by the Internet Archive´s Wayback Machine.
A. Viana-Soto et al. (2017): Assessment of Post-Fire Vegetation Recovery Using Fire Severity and Geographical Data in the Mediterranean Region (Spain). In PDF, Environments, 4. See also here.
Lluís Vilar, Universitat de Girona:
The effect of
fire on flora and vegetation.
This expired link
is available through the Internet Archive´s
Wayback Machine.
! J.D. White et al. (1996): Remote sensing of forest fire severity and vegetation recovery. In PDF, International Journal of Wildland Fire, 6: 125-136. See also here (abstract).
Julia Williams Department of Botany, University of Hawaii at Manoa:
The Coastal Woodland of
Hawaii Volcanoes National Park: Vegetation Recovery in a Stressed Ecosystem.
PDF file.
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