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Keyphrases
Biochar
100%
Sustainable Agriculture
100%
Surface Response Methodology
100%
Biochar Amendment
100%
Food Environment
100%
Pea Pod
100%
Water Supply
55%
Optimal Response
44%
Vegetable Waste
11%
Plant Growth
11%
Food Waste
11%
Water Demand
11%
Water Retention
11%
Heating Rate
11%
Plant Height
11%
Seed Germination
11%
Lignocellulose
11%
Leaf Area
11%
Pyrolysis Temperature
11%
High Content
11%
Response Surface Methodology
11%
Soil Water Retention
11%
Plant Leaves
11%
Loading Rate
11%
Leaf Chlorophyll Content
11%
Soil Amendment
11%
Economic Opportunity
11%
Catalase Activity
11%
Water Volume
11%
Activity Retention
11%
Microbial Activity
11%
Vigna Radiata
11%
Sustainable Agriculture Production
11%
Mungbean
11%
Environmental Opportunities
11%
Urease Activity
11%
Leaf Development
11%
Pisum Sativum
11%
Stomatal Conductance
11%
Immunology and Microbiology
Tight Junction
100%
Water Retention
100%
Low Drug Dose
50%
Leaf Development
50%
Microbial Activity
50%
Pyrolysis
50%
Germination
50%
Plant Height
50%
Conductance
50%
Pisum
50%
Plant Leaf
50%
Vigna
50%
Plant Growth
50%
Agricultural and Biological Sciences
Biochar
100%
Tight Junction
100%
Response Surface Methodology
100%
Water Supply
40%
Mung Bean
20%
Seed Germination
10%
Soil Water Retention
10%
Soil Amendment
10%
Stomatal Conductance
10%
Microbial Activity
10%
Pea
10%
Vigna Radiata
10%
Catalase
10%
Urease
10%
Lignocellulose
10%
Leaf Development
10%
Leaf Area
10%
Germination
10%
Earth and Planetary Sciences
Biochar
100%
Alternative Agriculture
100%
Response Surface Methodology
100%
Water Supply
40%
Water Retention
20%
Soil Water
10%
Water Demand
10%
Leaf Area
10%
Vegetable Waste
10%
Catalase
10%
Microbial Activity
10%
Loading Rate
10%
Pyrolysis
10%
Soil Amendment
10%
Germination
10%
Food Science
Response Surface Methodology
100%
Food Environment
100%
Food Waste
50%
Pea
50%
Mung Bean
50%
Engineering
Biochar
100%
Response Surface Methodology
100%
Retention Capacity
20%
Pyrolysis
10%
Microbial
10%
Design Factor
10%
Rate of Heating
10%
Loading Rate
10%