Agriculture & Biology
Clarkia xantiana
99%
mating systems
92%
pollinators
85%
selfing
68%
pollen
64%
vernal pools
50%
Clarkia
50%
Onagraceae
42%
Euphorbia esula
40%
outcrossing
40%
Limnanthes douglasii
35%
invasive species
33%
Limnanthes alba
31%
Limnanthaceae
26%
sympatry
26%
polyploidy
21%
wild flowers
19%
chronosequences
19%
reproductive isolation
18%
sequence diversity
17%
Spermatophytina
16%
phenology
15%
biogeography
15%
floral characteristics
14%
flowers
14%
geographical distribution
13%
learning
12%
niches
12%
Euphorbia virgata
12%
hybridization
11%
prediction
11%
Limnanthes
9%
divergent evolution
8%
life history
8%
self-pollination
8%
pistil
8%
flowering time
7%
herkogamy
7%
pollination
7%
seed development
7%
flower size
7%
testing
7%
Sierra Nevada (California)
7%
allopatry
7%
remote sensing
6%
time series analysis
6%
neural networks
6%
life cycle (organisms)
6%
germination
5%
protandry
5%
Earth & Environmental Sciences
reproductive strategy
100%
autogamy
98%
pollinator
82%
pollen limitation
79%
outcrossing
61%
range expansion
53%
ephemeral pool
45%
divergence
39%
pollen
35%
invasive species
35%
subspecies
33%
plant species
27%
seed
27%
reproductive isolation
25%
plant-pollinator interaction
24%
competitive displacement
23%
flower
23%
floral trait
22%
species complex
18%
phenology
18%
WorldView
17%
chronosequence
16%
biogeography
15%
fertility
14%
range size
14%
genomics
14%
fitness
14%
niche
13%
satellite imagery
13%
self incompatibility
13%
learning
11%
colonization
10%
germination
9%
sympatry
9%
spectral resolution
9%
spatial resolution
8%
life history
7%
prediction
7%
resource
7%
demographic history
7%
flowering
7%
biome
7%
loss
7%
polyploidy
7%
angiosperm
7%
protandry
7%
genetic structure
6%
imagery
6%
Medicine & Life Sciences
Clarkia
94%
Onagraceae
57%
Pollen
52%
Reproductive Isolation
32%
Flowers
28%
Amaranthus
24%
Euphorbia
22%
Polyploidy
17%
Metagenomics
17%
Seeds
16%
Climate
16%
Germination
14%
Self-Fertilization
13%
Sympatry
12%
Ecosystem
12%
Spatial Analysis
12%
Introduced Species
12%
Population
11%
Fertility
10%
Pollination
9%
Temperature
9%
Magnoliopsida
7%
Life Cycle Stages
7%
Genetic Variation
6%
Climate Change
6%
Gene Flow
6%
Genetic Drift
5%
Genetic Structures
5%
Direction compound
5%
History
5%
Mexico
5%