Keyphrases
Perennial Ryegrass
91%
Fodder Grass
85%
Soluble Carbohydrates
64%
Cell Wall Digestion
55%
Carbohydrate Content
50%
Grass
46%
Resistance Traits
42%
Molecular Tools
42%
Quality Traits
42%
Grass Quality
42%
Genetic Diversity
42%
Sugar Content
30%
Complex Traits
28%
High Water
23%
Genetic Control
21%
Grass Species
20%
Tall Fescue
19%
Molecular Study
14%
Mapping Population
14%
High-resolution
14%
Forage Crops
14%
Lilium
14%
Linkage Mapping
14%
Organic Matter Digestibility
14%
Protein Content
12%
α-linolenic Acid
12%
Animal Performance
12%
Ruminants
11%
Tetraploid
11%
Genotype
10%
High Sugar
10%
High-sugar Grass
7%
Breeding Material
7%
Yield Trial
7%
Yield Quality
7%
Phenotypic Methods
7%
Vernalization Response
7%
Gene number
7%
Single-cut
7%
Protein Use
7%
Grass Protein
7%
Use Efficiency
7%
Masking Effect
7%
Advanced Statistical
7%
Dry Matter Intake
7%
Dry Matter Content
7%
Water Content
7%
High Dry Matter
7%
High-throughput Genotyping
7%
Restricted numbers
7%
Meadow Fescue
7%
Near-infrared Reflectance Spectroscopy
7%
Italian Ryegrass
7%
Physiological Processes
7%
Association Mapping
7%
Low Variation
7%
Crown Rust Resistance
7%
Fodder Quality
7%
Cocksfoot
7%
Genetic Components
7%
Major Gene
7%
Flowering Time
7%
Ryegrass Varieties
7%
Dry Matter Yield
7%
Cut Selection
7%
Major QTL
7%
Neutral Detergent Fiber
7%
Germplasm
7%
Meat Composition
6%
Low Sugar
6%
Quality-oriented
6%
Variety Development
6%
Quick Method
6%
Meat
6%
Rumen Escape
6%
Genetic Material
6%
Quality Characteristics
6%
Heritability
6%
Protein Source
6%
Escape Protein
6%
NIRS Calibration
6%
Milk Composition
6%
Milk
6%
Nitrogen Leaching
6%
Environmentally Friendly
6%
Healthy Animals
6%
Rationing
6%
Omega-3 Fatty Acids
6%
Cattle Farming
6%
Flanders
6%
Gene Pool
6%
Methane
6%
Quality Parameters
6%
Breeding Methods
6%
Adaptation
6%
Silage
6%
Desired Quality
6%
Ryegrass
6%
Ruminal Acidosis
6%
Developmental Stages
6%
Protein Fractions
6%
Acid Content
6%
Cost Savings
6%
Energy Content
6%
Calibration Curve
6%
Efficient Breeding
6%
Agricultural and Biological Sciences
Lolium perenne
100%
Poaceae
85%
Digestibility
85%
Digestion
85%
Cell Wall
71%
Tetraploidy
48%
Cultivar
42%
Festuca arundinacea
34%
Rumen
28%
Animal Performance
28%
Lolium
20%
Breeding Method
14%
Protein Sources
14%
Heritability
14%
Gene Pool
14%
Omega-3 Fatty Acid
14%
Developmental Stage
14%
Methane
14%
Conjugated Linoleic Acid
14%
Annuals
12%
Dry Matter Intake
6%
Lolium multiflorum
6%
Festuca Pratensis
6%
Reflectance Spectroscopy
6%
Dactylis glomerata
6%
Neutral Detergent Fiber
6%
Diploidy
6%