1. Environmental Biology
1.1. Jaco Vangronsveld
1.1.1. plant-microbe interactions
1.1.2. environmental stresses
1.1.2.1. pollution
1.1.2.2. nanoparticles
1.1.2.3. drought
1.1.3. phytoremediation
1.1.3.1. bio2clean
1.2. Ann Cuypers
1.2.1. plants
1.2.1.1. oxidative stress
1.2.1.1.1. metals
1.2.1.1.2. herbicides
1.2.1.1.3. radionuclides/nuclear irradiation
1.2.1.2. yield
1.2.1.2.1. crops
1.2.1.3. quality
1.2.1.3.1. nutraceuticals
1.2.1.4. biochar research
1.2.1.4.1. BASTA
1.3. Jan Colpaert
1.3.1. mycorrhiza
1.3.1.1. metal stress
1.3.1.2. ectomycorrhiza
1.3.1.3. ecophysiology
1.4. Tim Nawrot
1.4.1. epidemiology
1.4.1.1. health outcomes
1.4.1.1.1. longitudinal cohorts
1.4.1.1.2. cross-sectional studies
1.5. Michelle Plusquin
1.6. François Rineau
1.6.1. FRC
1.6.1.1. Ecotron
1.6.1.1.1. climate change
1.6.1.1.2. plant diversity
1.6.1.1.3. soil diversity
2. Zoology, Biodiversity & Toxicity
2.1. Tom Artois
2.1.1. EcoCities
2.2. Patrick Reygel
2.3. Karen Smeets
2.4. Maarten Vanhove
3. Applied & Analytic Chemistry
3.1. Dries Vandamme
3.1.1. (bio)polymers
3.1.2. pyrolysis
3.1.2.1. chemical feedstock (biochar)
3.1.2.1.1. BASTA
3.1.2.2. green energy (biogas & -oil)
4. Nuclear Technology
4.1. Sonja Schreurs
4.2. Wouter Schroeyers
4.3. Brigitte Reniers
5. Environmental Economics
5.1. Robert Malina
5.1.1. economic valuation of ESS
5.1.2. BASTA
5.2. Sebastien Lizin
5.3. Stephan Bruns
6. Environmental Law
6.1. Bernhard Vanheusden
6.1.1. environmental law
6.1.2. energy law
6.1.3. legal protection & development new legal frameworks
6.1.3.1. biodiversity
6.1.3.2. ESS
6.1.3.3. climate change
6.1.3.4. BASTA