Observations on post-fire black morel ascocarp development in an Israeli burnt forest site and their preferred micro-sites
Tài liệu tham khảo
Apfelbaum, 1984, Ascocarp formation by Morchella angusticepts after wildfire, The Michigan Botanist, 23, 99
Beylich, 2010, Evaluation of soil compaction effects on soil biota and soil biological processes in soils, Soil Tillage Research, 109, 133, 10.1016/j.still.2010.05.010
Buscot, 1992, Synthesis of two types of association between Morchella esculenta and Picea abies under controlled culture conditions, Journal of Plant Physiology, 141, 12, 10.1016/S0176-1617(11)80845-X
Greene, 2010, Emergence of morel (Morchella) and pixie cup (Geopyxis carbonaria) ascocarps in response to the intensity of forest floor combustion during a wildfire, Mycologia, 102, 766, 10.3852/08-096
Kuo, 2012, Taxonomic revision of true morels (Morchella) in Canada and the United States, Mycologia, 104, 1159, 10.3852/11-375
Masaphy, 2009, Morchella conica proliferation in post-fire forests following forest management activities in northern Israel, Israel Journal of Plant Sciences, 56, 315, 10.1560/IJPS.56.4.315
McMullan-Fisher, 2011, Fungi and fire in Australian ecosystems: a review of current knowledge, management implications and future directions, Australian Journal of Botany, 59, 70, 10.1071/BT10059
Mulumba, 2008, Mulching effects on selected soil physical properties, Soil Tillage Research, 98, 106, 10.1016/j.still.2007.10.011
Pilz, 2004, Productivity and diversity of morel mushrooms in healthy, burned, and insect-damaged forests of northeastern Oregon, Forest Ecology and Management, 198, 367, 10.1016/j.foreco.2004.05.028
Schlosser, 1995, The wild edible mushroom industry of Washington, Oregon and Idaho: a 1992 survey of processors, Journal of Forestry, 93, 31
Winder, 2008, Ecology of the 2004 morel harvest in the Rocky Mountain Forest District of British Columbia, Botany, 86, 1152, 10.1139/B08-045
Wurtz, 2005