Item 8 of 17 (back to results) previous next How does increased fire frequency affect carbon loss from fire? A case study in the northern boreal forest International journal of wildland fire

Current search: Biological Sciences: biochemistry > bioactive properties > residual effects × Natural Resources, Earth and Environmental Sciences: geology × Select any link to see items in a related category. more general categories    information about this item Biological Sciences  Biological Sciences  anatomy and morphology (70482)   plant anatomy (36017)   roots (8177)   adventitious roots (201)  biochemistry (102540)   bioactive properties (24739)   residual effects (177)  botany (53088)   plant biology (52661)   plant anatomy (36016)   roots (8177)   adventitious roots (201) Calendar Year  Calendar Year  Year (337475)   2011 (42920) Forest Science and Forest Products  Forest Science and Forest Products  forestry (3771)   forest mensuration (510)  forests (8570)   boreal forests (641) Natural Resources, Earth and Environmental Sciences  Natural Resources, Earth and Environmental Sciences  earth system science (9694)   biogeochemical cycles (3883)   carbon sequestration (1102)  global change (5439)   climate change (5039)   global warming (1043)  ecology (54081)   plant ecology (8129)   vegetation structure (3406)   plant strata (3024)   canopy (2328)   forest canopy (194)  fire science and management (2055)   fires (1410)  geology (23343)   geochemistry (4563)   biogeochemistry (4373)   carbon sinks (653)  biogeochemical cycles (3883)   carbon sequestration (1102)  natural resources (75944)   biological resources (55960)   biomass (6371)  vegetation (14356)   vegetation types (11917)   forests (8569)   boreal forests (641)  renewable resources (7916)   biomass (6371)  soil science (29220)   soil morphology (3660)   soil morphological features (3643)   soil horizons (375) Physical and Chemical Sciences  Physical and Chemical Sciences  chemical substances (129118)   elements (30672)   nonmetallic elements (20442)   carbon (6748)  chemistry (84737)   geochemistry (4563)   biogeochemistry (4373)   carbon sinks (653)  biogeochemical cycles (3883)   carbon sequestration (1102) Plant Science and Plant Products  Plant Science and Plant Products  botany (53089)   plant biology (52662)   plant anatomy (36017)   roots (8177)   adventitious roots (201)  plant ecology (8129)   vegetation structure (3406)   plant strata (3024)   canopy (2328)   forest canopy (194) Reference Types  Reference Types  Journal (337546) Research, Technology and Engineering  Research, Technology and Engineering  research (30526)   research methods (29174)   case studies (3347) Taxa - Plantae  Taxa - Plantae  Coniferophyta (4467)   Pinopsida (4357)   Pinaceae (3802)   Picea (1083)   Picea mariana (149) Abstract of Article:   Will be presented in next release Date Last Accessed:   Accessed January 20, 2015 Title of Article:   How does increased fire frequency affect carbon loss from fire? A case study in the northern boreal forest Author(s) of Article:   Will be identified in next release Citation:   International journal of wildland fire 2011 v.20 no.7 pp. 829-837 Click to View:   (Click to View) Date of Publication:   2011 Location of Article:   http://pubag.nal.usda.gov/pubag/article.xhtml?id=535536 Name of Publication:   International journal of wildland fire Publishing Company:   Will be identified in next release Accession Number:   145997