March 26, 2015: FLI Seminar: Urban Leadership: The Science Behind Vertical Gardens

FLI Teun Depreeuw Vertical Green

Green innovator Teun Depreeuw on one of his roof gardens in the city of Antwerp, Belgium

Researcher and speaker: Teun Depreeuw

Topic: The Science Behind Vertical Gardens In An Urban Environment

Date:  26 March 2015

Language:  Dutch

FLI Ecohuis AntwerpenVenue:  EcoHuis
Turnhoutsebaan 139
2140 Borgerhout
Tel: +32 3 217 08 11
Fax: +32 3 217 08 88

Organiser: VIBE and The 7R Future Leadership Institute


  • 9u30: Martin Hermy (Professor Fac. Bio-Ingenieurswetenschappen KU Leuven, Belgium)
    Vertical Green. From Source to Architecture
    Mr. Hermy lectures Ecology and is specialized in ‘Greening Buildings’. He is also the author of ‘Groenbeheer, een verhaal met toekomst’ (2005, published by Velt vzw, in collaboration with Department ‘Bos en Groen’ (currently ANB))
  • 9u50: Marc Ottelé (TU Delft, The Netherlands):
    The Green Enveloppe. The Science behind vertical green and vertical green engineering, impact on biodiversity.
  • 10u10: Roeland Samson (Professor University Antwerp, Departement Bio-Ingenieurswetenschappen)
    City Green, Green Walls, AIRBezen and Air Quality
    Citizen-Science: Monitoring air quality via bio-magnetical monitoring of the leaves of strawberries. “Urban resilience against fine dust”, follows up the successful AIRbezen initiative, for which strawberry plants where used to measure the amount of fine dust in several areas.
  • 10u40: Teun Depreeuw (Building Partner – Expert ‘Green in the City’ – Founder, Co-author ‘Groen bouwen 2.0: De symbiose tussen natuurlijke materialen en bestaande technieken’)
  • 11u30 : ‘Green’ drink offered by


About Teun Depreeuw: Teun Depreeuw is a green innovator living and working in Belgium. His company EcoVerbo was one of the first Antwerp building and construction companies focusing solely on eco solutions in urban architecture. Teun created “” a one stop hub specialising in designing, building and maintaining green walls. He also started to incorporate natural shells in his designs, making him the largest importer of shells in Belgium at the moment. In order to convince architects to start incorporating vertical green in their projects he turned to science to research the pro’s and con’s of implementing green walls or vertical gardens in urban environments. “It is important to be able to measure exactly what the consequences are for the environment when a building in a city starts to be covered with a green garden”, he says.

FLI Vertical Green

About the topic: In times of climate change and a shortage of resources, environmentally-responsible construction, sustainability and energy efficiency are becoming increasingly important. Cities all over the world have an urgent need for improved air quality. Vertical Green is set to deliver a healthy outcome through a system designed to “optimize, recuperate and produce energy” by capturing carbon dioxide and dust while naturally heating and cooling houses and buildings. Under sun exposure, a bare wall will contribute to heat conduction inside the building, making the  internal building temperature rise, and contributing to the urban ‘heat island’ effect. But green  walls, where the leaves of plants lose water through evapotranspiration, lower the surrounding air  and building temperatures. Green walls also depress the cities temperature–they create a  microclimate. The Tokyo Institute of Technology proved that green walls lower the energy loss of buildings. They  also prevent the creation of urban dust (partly due to the effect of wind over buildings) and  absorb heavy metal particulates from the atmosphere.

A green wall or a vertical garden is a wall partially or completely covered with vegetation that includes a growing medium, such as soil. Most green walls also feature an integrated water delivery system. Green walls are also known as living walls, BIOboards, biowalls, ecowalls, vertical gardens or vertical green.

OLYMPUS DIGITAL CAMERAThe History of Green Walls: As cities and buildings all around the world are being covered in  green, we take a look at the phenomenon of green walls. The first example of green walls may be  found in the Hanging Gardens of Babylon, even if they may have been more roof gardens than green  walls. Later, from Scandinavia to Japan, numerous civilizations used climbing plants to cover  buildings, making what is now called ‘green façades’.

Green façades were very important in the Art and Crafts and Modern style movements in Europe. For  instance, in the beginning of the 20th century, the ‘Jugendstil’ movement used climbing plants  (Parthenocissus tricuspidata) on the buildings to make a seamless changeover between the house and  garden. In England, the Garden City movement showed great examples of green façades. William  Robinson and Gertrude Jekyll designed outdoor vegetated rock walls used for screening & boundaries  in gardens. You can still see such examples in Griftpark (Ultrecht, Netherlands). The use of  climbing plants declined in the 30′s, due to new building techniques and people’s concern about  possible consequences on wall stability. Patrick Blanc, a French botanist, is noted as the first to design the ‘modern’ pattern of green  walls, with a full hydroponic system, an inert medium and numerous exotic species. His first green  wall is at the Museum of Science and Industry. In Canada, where winters  are very long, green walls are placed inside buildings to help offset SAD (Seasonal Affective Disorder).

Green façades have always been less common in North America. Nowadays, what we call ‘vertical  gardens’ seems to have first been theorized in the U.S. in 1937 by Stanley Hart White which pre-  dates Patrick Blanc’s work in France. His theories are now being used once again by students at  University of Illinois at Urbana-Champaign. ( by Marie-Laure Séguin,

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