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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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Agriculture & Biology
agroforestry
12%
anthropogenic activities
11%
ash (inorganic matter)
55%
Central European region
11%
dieback
38%
effective population size
12%
emerging diseases
13%
Fraxinus
14%
Fraxinus excelsior
73%
gender
6%
gene flow
48%
genes
3%
genetic variation
6%
Germany
9%
habitat fragmentation
22%
Hymenoscyphus fraxineus
17%
inbreeding
10%
long term effects
10%
meteorological data
12%
parentage
12%
planting
8%
pollen
8%
pollen flow
55%
pollination
19%
seed dispersal
23%
seedlings
6%
seeds
17%
wind direction
14%
wind speed
24%
Medicine & Life Sciences
Direction compound
15%
Ecosystem
24%
Emerging Communicable Diseases
15%
Forests
25%
Fraxinus
100%
Gene Flow
81%
Genes
4%
Genetic Variation
10%
Germany
9%
Human Activities
10%
Inbreeding
15%
Pollen
64%
Pollination
37%
Population
8%
Population Density
12%
Seed Dispersal
72%
Seedlings
16%
Seeds
22%
Social Responsibility
12%
Earth & Environmental Sciences
agroforestry
9%
analysis
2%
ash
44%
connectivity
13%
dieback
31%
effect
3%
effective population size
10%
Europe
10%
flow pattern
7%
gender
7%
gene
5%
gene flow
62%
genetic diversity
8%
genetic isolation
12%
habitat fragmentation
18%
human activity
6%
inbreeding
10%
infectious disease
9%
long-term effect
8%
loss
4%
material
3%
parentage
11%
planting
7%
pollen
35%
pollination
20%
population bottleneck
11%
seed
20%
seed dispersal
19%
seedling
7%
wind direction
7%
wind velocity
11%
Mathematics
Adaptability
13%
Background
15%
Connectivity
16%
Conservation
9%
Estimate
4%
Flow Pattern
13%
Fragmentation
22%
Gender
12%
Gene
53%
Human
8%
Infectious Diseases
10%
Influence
6%
Isolation
10%
Patch
28%
Pollen
76%
Pollination
33%
Population Size
9%
Wind Speed
29%
Engineering & Materials Science
Ashes
56%
Conservation
7%
Flow patterns
7%
Genes
52%
Population Density
9%
Seed
40%