Agriculture & Biology
rice
75%
abscisic acid
61%
filling period
45%
drying
44%
corn
33%
soil
30%
water stress
27%
irrigation
27%
water use efficiency
27%
leaves
26%
water
24%
spikelets
24%
xylem
21%
Arabidopsis
20%
grain yield
18%
nitrogen
15%
wheat
15%
root zone drying
14%
sap
14%
root growth
14%
mutants
13%
flowering
13%
genes
13%
seed germination
12%
photochemistry
11%
ethylene
10%
metabolism
10%
nutrient use efficiency
10%
biosynthesis
10%
seedlings
9%
stomatal conductance
9%
drought
9%
brassinosteroids
9%
alternative splicing
9%
furrow irrigation
9%
root systems
9%
transcriptomics
9%
salt stress
9%
photosystem II
9%
China
9%
soil water
8%
carbon
8%
starch
8%
stems
8%
auxins
8%
shoots
8%
leaf water potential
8%
Oryza sativa
8%
photosynthesis
8%
proteins
8%
Medicine & Life Sciences
Abscisic Acid
100%
Oryza
87%
Zea mays
55%
Soil
54%
Arabidopsis
40%
Xylem
34%
Water
30%
Dehydration
29%
Seedlings
25%
Droughts
21%
Triticum
21%
Germination
20%
ethylene
16%
Photochemistry
16%
Photosystem II Protein Complex
16%
Seeds
14%
Photosynthesis
14%
Nitrogen
13%
Starch
12%
Genes
12%
Growth
12%
Antioxidants
11%
Chlorophyll
10%
Endosperm
10%
Brassinosteroids
9%
Carbon
9%
Salt Stress
9%
Indoleacetic Acids
9%
Plant Leaves
9%
Meristem
9%
Phosphorus
8%
Fluorescence
8%
Biomass
8%
Cytokinins
8%
Enzymes
8%
Alternative Splicing
7%
Sucrose
7%
Osmotic Pressure
6%
Ecotype
6%
Proteins
6%
Cell Membrane
6%
Gene Expression
6%
Proton-Translocating ATPases
6%
Plant Development
5%
Gene Expression Profiling
5%
Spirulina
5%
Temperature
5%
Electron Transport
5%
Light
5%
Polyamines
5%
Earth & Environmental Sciences
rice
37%
irrigation
24%
water use efficiency
20%
drying
15%
rhizosphere
13%
nitrogen
11%
maize
11%
wetting
8%
wheat
8%
soil water
7%
furrow irrigation
7%
evapotranspiration
7%
abscisic acid
7%
soil
7%
crop
6%
water use
6%
cotton
5%
water
5%
arid region
5%
transpiration
5%
tolerance
5%
