Earth and Planetary Sciences
Mangrove
100%
Biomass
42%
Carbon
42%
Harvesting
42%
Stoichiometry
28%
Oxidase
28%
Catalytic Activity
28%
Phenol
28%
Long-Term Effect
28%
Tannin
28%
Decomposition
28%
Carbon Sequestration
28%
Nitrogen
14%
Coastal Development
14%
Eutrophication
14%
Primary Production
14%
Nutrient Enrichment
14%
Open Water
14%
Enrichment
14%
Phosphorus
14%
Fertilization
14%
Proximity
14%
Microbial Activity
14%
Sea Level Rise
14%
Nutrient Limitation
14%
Peat
14%
Latch
14%
Soil Subsidence
14%
Show
14%
Investigation
14%
Ability
14%
Constraint
14%
Increasing
14%
Loss
14%
Site
14%
Amount
14%
Need
14%
Plant
14%
Growth
14%
Addition
14%
Biochemistry, Genetics and Molecular Biology
Mangrove
100%
Enzyme Activity
42%
Microbial Biomass
42%
Stoichiometry
28%
Oxidase
28%
Tannin
28%
Exoenzyme
28%
Carbon Sequestration
28%
Plant Growth
14%
Fertilization
14%
Electric Potential
14%
Development
14%
Microbial Activity
14%
Aptitude
14%
Decomposer
14%
Immunology and Microbiology
Mangrove
100%
Enzyme Activity
42%
Microbial Biomass
42%
Stoichiometry
28%
Phenol
28%
Decomposition
28%
Carbon Sequestration
28%
Fertilization
14%
Plant Growth
14%
Microbial Activity
14%
Electric Potential
14%
Development
14%
Eutrophication
14%
Aptitude
14%
Decomposer
14%
Agricultural and Biological Sciences
Nutrients
57%
Microbial Biomass
42%
Harvesting
42%
Enzyme Activity
28%
Tannin
28%
Long Term Effects
28%
Plant Growth
14%
Eutrophication
14%
Primary Production
14%
Microbial Activity
14%
Peat
14%
Rhizophora mangle
14%
Subsidence
14%
Water
14%
Fields
14%
Soil
14%
Sea Level
14%