about
Heritability and quantitative genetic divergence of serotiny, a fire-persistence plant traitIn situ genetic association for serotiny, a fire-related trait, in Mediterranean maritime pine (Pinus pinaster).Fire-adapted traits of Pinus arose in the fiery Cretaceous.The role of fire in structuring trait variability in Neotropical savannas.Tanned or burned: the role of fire in shaping physical seed dormancyDifferences in leaf flammability, leaf traits and flammability-trait relationships between native and exotic plant species of dry sclerophyll forest.Seed Pubescence and Shape Modulate Adaptive Responses to Fire CuesDeterminants of flammability in savanna grass species.Bark flammability as a fire-response trait for subalpine trees.Evolutionary ecology of resprouting and seeding in fire-prone ecosystems.Leaf shrinkage: a predictive indicator of the potential variation of the surface area-to-volume ratio according to the leaf moisture content.Fuel moisture content enhances nonadditive effects of plant mixtures on flammability and fire behavior.Fire and plant evolution. MEDECOS Special Session on 'Fire as an evolutionary pressure shaping plant traits', Los Angeles, CA, USA, September 2011.Fire ecology of C3 and C4 grasses depends on evolutionary history and frequency of burning but not photosynthetic type.Secondary compounds enhance flammability in a Mediterranean plant.Biological significance of dead biomass retention trait in Mediterranean Basin species: an analysis between different successional niches and regeneration strategies as functional groups.Seasonal and local differences in leaf litter flammability of six Mediterranean tree species.Using a rainforest-flame forest mosaic to test the hypothesis that leaf and litter fuel flammability is under natural selection.Genetic component of flammability variation in a Mediterranean shrub.Dimensions of plant flammability.Flammability as a biological concept.Plant flammability experiments offer limited insight into vegetation-fire dynamics interactions.Enhanced Fire-Related Traits May Contribute to the Invasiveness of Downy Brome (Bromus tectorum)Effects of biological legacies and herbivory on fuels and flammability traits: A long-term experimental study of alternative stable statesPositive fire feedbacks contribute to shifts fromNothofagus pumilioforests to fire-prone shrublands in PatagoniaTo resprout or not to resprout: factors driving intraspecific variability in resproutingCharacterizing potential wildland fire fuel in live vegetation in the Mediterranean regionNew bench-scale protocols for characterizing bark flammability and fire resistance in trees: Application to Algerian corkA new bench-scale methodology for evaluating the flammability of live forest fuelsEffects of fire regime shift in Mediterranean Basin ecosystems: changes in soil seed bank composition among functional typesFire and plant diversity at the global scaleFlammability as an ecological and evolutionary driverThe role of cold storage and seed source in the germination of three Mediterranean shrub species with contrasting dormancy typesTesting Vegetation Flammability: The Problem of Extremely Low Ignition Frequency and Overall Flammability Score
P2860
Q29027107-10CF5BD2-D5C9-4736-B552-2FA6B22F65C8Q30665722-29DDF110-A63C-4978-BCE5-1136030C00B4Q34255630-9CE2109E-22C6-4971-A0B5-33898C9CE6EBQ34394956-9706C251-53F7-4A91-8B1E-0C890457E430Q34507384-AC2739D0-2C99-420B-8D68-AD18E5D20E64Q35048240-CAB2B721-5506-454A-A104-AA328A4951BBQ36082858-A92388B8-932F-46E3-95E2-2A8EA827A891Q36536749-D71429CD-5CB3-4DFC-A81F-3230A16BFFC2Q37339871-5A62E6DC-EB51-4AAD-B961-11C7AC83683FQ38258359-D6DF0560-529D-49BD-A7B0-1AF01A500E20Q42152211-0B9F5C9F-522C-4C81-8510-2AD01301A1F8Q43221317-44373076-46EB-4AB4-9177-AAFE90983190Q46438804-D89B7C32-3FCF-40FE-BCA0-902BBBFD2618Q46626419-21FCE3F4-9590-42C3-B6D9-4655B4723219Q46662577-2D014C14-B8AE-4B71-A8BF-F71730C122B6Q46699042-8021AFC6-2924-45AF-A1F2-0848A2AFA343Q46794936-A8FCA2CC-3757-4C6E-A275-E8F5EDF3A64AQ46836913-F0EA69A0-D77A-4C82-BC6F-61F23CB985E8Q46945447-25E3A970-3473-4452-9E4F-C396CFDD5A3EQ47733103-D67A8360-954E-455B-9F63-A263CA6CC4A9Q47778833-83307A42-40CB-40F8-B165-EB706EA815FDQ47781542-0DA629BB-9862-4EFA-9C68-6F728921BDD0Q56386459-A937923D-2967-4078-B2FD-390A938F0009Q57049462-062B1E4B-9D3F-4939-8431-CD62DEBF7A67Q57049489-5EF4FEA8-7DB1-4C7C-8BE3-274E7DB66A4EQ58325530-39C1283A-C60A-41B2-8895-A23400DD0102Q58396553-9C13A244-1948-404E-BEB5-388D0A0FD828Q58645803-CC2CE90C-0AAE-486D-89F0-BF9B839F01B3Q58645810-4356CD17-D0C2-4518-BE52-963EA0E08813Q58652355-5428BCE8-6960-4000-986D-60FB654CA287Q58654018-5B452B77-C49E-4218-86F2-2AD934DE1EEEQ58654024-3B8BB68D-95AB-4E6F-B177-59818B07D6CBQ58654928-40D9634E-F06B-4653-9D4D-F92A2C56AACBQ59053279-F17DCE30-7903-4360-9C60-F0E11005AAF0
P2860
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年学术文章
@wuu
2011年学术文章
@zh
2011年学术文章
@zh-cn
2011年学术文章
@zh-hans
2011年学术文章
@zh-my
2011年学术文章
@zh-sg
2011年學術文章
@yue
2011年學術文章
@zh-hant
name
Fires enhance flammability in Ulex parviflorus.
@en
Fires enhance flammability in Ulex parviflorus.
@nl
type
label
Fires enhance flammability in Ulex parviflorus.
@en
Fires enhance flammability in Ulex parviflorus.
@nl
prefLabel
Fires enhance flammability in Ulex parviflorus.
@en
Fires enhance flammability in Ulex parviflorus.
@nl
P2860
P1433
P1476
Fires enhance flammability in Ulex parviflorus.
@en
P2093
Giorgio A Alessio
Guadalupe Corcobado
P2860
P356
10.1111/J.1469-8137.2011.03945.X
P407
P577
2011-11-01T00:00:00Z