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Gene flow of common ash (
Fraxinus excelsior
L.) in a fragmented landscape
Devrim S. Cuming,
Erik Dahl Kjær
, Reiner Finkeldey
Forest, Nature and Biomass
10
Citations (Scopus)
238
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Dive into the research topics of 'Gene flow of common ash (
Fraxinus excelsior
L.) in a fragmented landscape'. Together they form a unique fingerprint.
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Keyphrases
Gene Flow
100%
Fragmented Landscape
100%
Fraxinus Excelsior
100%
Common Ash
100%
Ash Dieback
60%
Habitat Fragmentation
40%
Pollination
40%
Dispersal Distance
40%
Wind Speed
40%
Forest Patches
40%
Pollen Dispersal
40%
Pollen Flow
40%
Genetic Connectivity
40%
Landscape Level
40%
Continental Europe
20%
Long-distance Dispersal
20%
Inbreeding
20%
Human Activities
20%
Agroforestry
20%
Young Tree
20%
Central Europe
20%
Enrichment Planting
20%
Germany
20%
Hymenoscyphus Fraxineus
20%
Wind Effects
20%
Isolated Forest
20%
Local Wind
20%
Flow Dynamics
20%
Genetic Isolation
20%
Genetic Bottleneck
20%
Emerging Infectious Diseases
20%
Meteorological Data
20%
Wind Direction
20%
Ash Tree
20%
Gender Information
20%
Diversity Loss
20%
Effective Population Size
20%
Strong Wind
20%
Flow Pattern
20%
Agricultural and Biological Sciences
Fraxinus excelsior
100%
Gene Flow
100%
Seeds
60%
Dieback
60%
Wind Speed
40%
Seed Dispersal
40%
Forest Fragmentation
40%
Pollen Flow
40%
Agroforestry
20%
Genetic Variability
20%
Genetic Divergence
20%
Inbreeding
20%
Fraxinus
20%
Meteorological Data
20%
Parentage
20%
Hymenoscyphus fraxineus
20%
Wind Direction
20%
Population Size
20%