Keyphrases
Safe Operating Space
35%
Sharing Principles
27%
Wood-based Panels
27%
Poplar Wood
27%
Sustainability Boundaries
27%
Value Chain
27%
Short Rotation Coppice
27%
Production Value Chain
27%
Effect Level
27%
Physicochemical Properties
27%
Human Health
27%
TiO2 Nanoparticles
27%
Global Level
27%
System State
27%
Aggregation Approach
27%
Earth System
27%
Planetary Boundaries
19%
Nanoproducts
18%
Environmental Sustainability
15%
Photoautotrophic Production
13%
Inconsistency
13%
Environmental Boundary
13%
Spatial Aggregation
13%
Life Cycle Assessment Framework
11%
Heterotrophic Production
10%
Adaptive Robust
9%
Threshold Level
9%
Primary Particle Size
9%
Toxic Effects
9%
Toxic Response
9%
Numerical Value
9%
Toxicological Studies
9%
Surface Coating
9%
Ingestion Exposure
9%
Nanosize
9%
Robust Risk
9%
Microparticles
9%
Life Cycle Assessment
9%
Nanoparticles
9%
Mass-based
9%
Adverse Effects
9%
Inhalation Exposure
9%
Engineered Nanomaterials
9%
Continuous Function
9%
Risk Assessment
9%
Nanomaterials
9%
Particle Size
9%
Micro-nano
9%
Toxicity Response
9%
Exposure Pathways
9%
Earth and Planetary Sciences
Environmental Impact Assessment
100%
Eutrophication
83%
Life Cycle Assessment
49%
Emissions
48%
Spatial Aggregation
39%
Physicochemical Property
27%
Human Health
27%
Environmental Impact
23%
Life Cycle
18%
Nanomaterial
18%
Spatial Resolution
16%
Aquatic Ecosystem
16%
Literature Reviews
13%
Decision Making
13%
Evaluation Method
12%
Environmental Assessment
12%
Assessment Method
9%
Austria
9%
Slovakia
9%
Exposure Route
9%
Environmental Problem
5%
Primary Production
5%
Bottom Water
5%
Engineering
Life Cycle Assessment
36%
Earth System
31%
Polyhydroxyalkanoate
27%
Impact Category
27%
Nanoparticles
27%
Human Health
27%
Physicochemical Property
27%
System State
27%
Metrics
18%
Nanomaterial
18%
Comparability
13%
Global Assessment
13%
Size of Particle
9%
Sized Particle
9%
Surface Coating
9%
Numerical Value
9%
Inhalation Exposure Route
9%
Ingestion Exposure Route
9%
Broad Range
9%
Continuous Function
9%
Bioplastics
7%
