Agriculture & Biology
Amaranthus tuberculatus
100%
herbicides
78%
glyphosate resistance
70%
Amaranthus palmeri
58%
soybeans
54%
mesotrione
49%
metolachlor
44%
no-tillage
42%
weeds
42%
atrazine
37%
corn
31%
weed control
29%
pyroxasulfone
24%
acetolactate synthase
21%
biotypes
21%
crops
20%
stakeholders
20%
glufosinate
19%
fecundity
18%
protoporphyrinogen oxidase
17%
glufosinate resistance
17%
grain sorghum
15%
cover crops
15%
water stress
15%
isoxaflutole
15%
reduced tillage
15%
center pivot irrigation
14%
conventional tillage
14%
glyphosate
14%
Conyza canadensis
13%
Amaranthus
11%
dimethenamid
11%
soil water
11%
carbon sequestration
10%
wild relatives
10%
soil management
10%
field capacity
10%
dose response
10%
tillage
10%
irrigation systems
10%
fomesafen
10%
saflufenacil
10%
evapotranspiration
10%
fallow
9%
resistance mechanisms
9%
population dynamics
9%
acetochlor
9%
sensors (equipment)
9%
flumioxazin
8%
Medicine & Life Sciences
Amaranthus
49%
Herbicides
42%
glyphosate
35%
Zea mays
28%
Gene Flow
28%
Carbon Sequestration
20%
Soil
19%
Photogrammetry
14%
Sorghum
13%
Rain
13%
Practice Management
12%
dimethenamid
11%
Vigna
11%
Pollen
11%
Avena
10%
North America
10%
Crop Production
10%
Seeds
9%
India
8%
Accidental Falls
7%
Seed Bank
7%
clopyralid
6%
Food
6%
Agriculture
6%
mesotrione
6%
Biomass
5%
N-(2,4-dichloro-5-(4-(difluoromethyl)-4,5-dihydro-3-methyl-5-oxo-1H-1,2,4-triazol-1-yl)phenyl)methanesulfonamide
5%
Physiological Stress
5%
2,4-Dichlorophenoxyacetic Acid
5%
Silage
5%
Biotechnology
5%
acetochlor
5%
Soybeans
5%
3-Phosphoshikimate 1-Carboxyvinyltransferase
5%
Pesticides
5%
Trifolium
5%
Plant Dormancy
5%
Earth & Environmental Sciences
herbicide
29%
mesotrione
23%
maize
21%
cover crop
20%
management practice
17%
tillage
16%
weed
15%
metolachlor
15%
crop
13%
weed control
13%
atrazine
12%
zero tillage
12%
soil management
11%
production system
10%
carbon sequestration
8%
stakeholder
7%
glyphosate
6%
agricultural production
6%
2,4 dichlorophenoxyacetic acid
6%
acetochlor
6%
till
5%
saflufenacil
5%
soybean
5%