Agricultural and Biological Sciences
Sphingidae
100%
Manduca sexta
93%
Body Size
61%
Pollinator
60%
Flight
39%
Datura wrightii
34%
Lepidoptera
32%
Flight Muscle
28%
Relative Humidity
26%
Foraging Behavior
23%
Life History
23%
Reproductives
20%
Oviposition
18%
Mutualism
17%
Alpha Oxidation
17%
Forest Fragmentation
14%
Essential Amino Acid
14%
Host Plant
13%
Instar
12%
Diptera
12%
Feeds
12%
Body Temperature
12%
Reproductive Success
12%
Nectar Foraging
11%
Agave
11%
Microclimate
11%
Oviposition Sites
11%
Datura
11%
Nectar Feeding
10%
Proboscis
10%
Evolution
10%
Anthesis
10%
Spermatophore
9%
Juvenile Hormone
9%
Solanaceae
9%
Leucine
9%
Ontogeny
9%
Does (Females)
8%
Fruit Set
8%
Hyles lineata
8%
Resource Allocation
8%
Larval Development
8%
Amino Acid
8%
Biological Sciences
7%
Insect Eggs
7%
Dung Flies
7%
Critical Thermal Maximum
7%
Population Dynamics
7%
Culicidae
7%
Puddling
7%
Keyphrases
Body Size
65%
Development Time
28%
Manduca Sexta
27%
Growth Rate
27%
Hawkmoth
25%
Critical Weight
22%
Simultaneous Selection
22%
Body Development
19%
Humidity
16%
Life-history Traits
16%
Response to Selection
15%
Pollinators
14%
Antagonism
14%
Physiological Basis
14%
Pollination
14%
Mutualism
14%
Insect Size
14%
Nectar
13%
Genetic Architecture
11%
Environmental Variability
9%
High Temperature
9%
Flight muscle
9%
Lepidoptera
9%
Growth Period
9%
Life History
9%
Floral
9%
Direction Selectivity
9%
Floral Preferences
8%
Body Size Evolution
8%
Proximate Mechanisms
7%
Sex Differences
7%
Developmental Perspective
7%
Diptera
7%
Egg Productivity
7%
Synergism
7%
Datura Species
7%
Preference Learning
7%
Dung Flies
7%
Unpredictable Environment
7%
Swallowtail Butterfly
7%
Leucine Oxidation
7%
Mass Growth
7%
Insect Eggs
7%
Mating Flight
7%
Fecundity
7%
Flight Response
7%
Transgenerational Changes
7%
Architectural Constraints
7%
Volume Growth
7%
Environmental Conditions
7%
Biochemistry, Genetics and Molecular Biology
Body Size
74%
Manduca sexta
46%
Physical Development
34%
Sex Difference
22%
Sphingidae
20%
Life History Trait
19%
Phenotypic Plasticity
17%
Directional Selection
12%
Lepidoptera
12%
Genetic Architecture
11%
Taxon
10%
Pupation
10%
Molting
9%
Life History
8%
Secretion (Process)
8%
Growth Period
7%
Hormone Release
7%
Tree
7%
Leucine
7%
Alpha Oxidation
7%
Chlorophyll Fluorescence
7%
Caelifera
7%
Genetics
7%
Datura wrightii
7%
Herbivory
7%
Genetic Selection
7%
Downregulation
7%
Pieris
7%
Pieris rapae
7%
Body Mass
7%
Maturation
7%
Quantitative Technique
7%
Cavity Ring-Down Spectroscopy
7%
Photosynthetic Efficiency
7%
Symbiosis
7%
Bombus Impatiens
7%
Signal Transduction
7%
Ecdysteroid
7%
Natural Selection
5%