FLORA
The Forest Lab for Observational Research and Analysis (FLORA) is an advanced and ecological building built in Collserola Natural Park (Barcelona), and developed by a team of students and researchers of the Masters in Advanced Ecological Buildings and Biocities (MAEBB).
The Forest Lab for Observational Research and Analysis (FLORA) is a mass timber structure located in Valldaura, situated in the central forest of the metropolitan area of Barcelona, the Collserola Natural Park. Measuring over 8,5 metres in height, the master's project was built from invasive pine trees sourced within the park through rigorous sustainable forest management and traceability procedures. Seventy trees were cut and processed by the master students to create cross laminated timber panels, laminated beams, and solid wood elements. FLORA will be used to house a researcher for a short period of time who will be studying the biodiversity of the park and utilizing FLORA’s new weather station.
Considered to be the most extensive green space in the metropolitan area of Barcelona, and covering over 8,000 hectares (seventeen kilometres long and six kilometres wide) with its highest peak at 512 metres (Tibidabo), Parc de Collserola is a natural area and getaway for both of those living in Barcelona and neighbouring cities. Located in a mountain range and nearby the sea, it houses 190 different types of vertebrates, Aleppo pine (Pinus halepensis) forests, and has an estimated population of 1,000 different species of plants and 10,000 million total trees. It is in this environmental surrounding where IAAC master's students have built the first building that allows for the observation of the forest canopy: FLORA.
Zero-kilometre materials
The students of MAEBB carried out further research to analyse the biodiversity of the forest and identify various inhabitants from underground, aboveground, canopy, and sky levels. This research allowed them to discern the structures and dimensions necessary to develop the construction, and more importantly, the type of materials they could use.
From its construction to its end use, the FLORA project is part of the ‘zero-kilometre’ philosophy. The primary building material is timber, obtained from the surroundings, without the need of a supply chain. The forest of the Parc de Collserola is formed by a wide variety of trees and plants that require sustainable management actions to allow the forest and the biodiversity it hosts to develop efficiently.
Seventy pine trees were felled to provide the necessary building material for FLORA. These trees were extracted and harvested in the Valldaura area based on the approved Sustainable Forest Management Plan in Collserola. The students processed the harvested pines to create cross-laminated timber (CLT) panels, glulam beams, and solid wood using the sawmill and small CLT press available at Valldaura Labs.
The CLT core rests on four glulam timber columns of 30 x 30 cm. The bridges are made from homemade glue laminated timber; the longest of which spans approximately 12 metres. These components were all individually made and then assembled using a crane in a highly intricate installation sequence. The CLT structure is protected by two layers of natural cork panels providing thermal and acoustic insulation.
The surrounding net, which takes influence from a hunter’s nest, was designed digitally and then woven together by hand. The net intends to better camouflage the project by allowing plants to spread along it thus further blending the structure with the forest in order to hide it from the surrounding wildlife.
FLORA allows a researcher to reside for a short period of time in order to study the local biodiversity and observe how the effects of climate change are influencing the natural park. Housing a bird radio, bird houses, working and projection space, as well as bird watching spaces, the project seeks to be immersed within nature and to create an ecological interactive prototype.
Scientific research facility to study the forest canopy
This observatory is inspired by the excellent work of American biologist Margaret D. Lowman, a.k.a. Canopy Meg, considered the pioneer of the science of canopy ecology. She is known as the "mother of canopy research" and has spent the last 30 years designing hot air balloons and canopy walkways to explore the canopy in order to solve the mysteries of the world's forests, especially insect pests and ecosystem health.
The forest canopy is the habitat formed by the treetops where a great diversity of animals tends to live, as conditions are often more optimal for some species. These canopies protect the forest floor by intercepting and assisting the percolation of 60-90% of rain or snow water into the soil, while acting as a natural regulator to conserve roots in the event of heavy rainfall. It also nourishes the soil by producing leaf litter to maintain its fertility.
The conservation of the forest canopy is fundamental to guarantee the water cycle, as much of the water absorbed by the trees is recirculated to the atmosphere through transpiration, and its study is very useful for climate change mitigation research, as it provides information to analyze the absorption, storage and flow of carbon.
Direction:
Vicente Guallart and Daniel Ibañez
Developed by:
The students of the Masters programme in Advanced Ecological Buildings and Biocities (MAEBB), 2021/22 class:
Andrea Paola Rubio Paredes, Leif-Andres Vallecillo Riksheim, Lillian Wanjiru Beauttah, Pablo Rafael Herraiz García de Guadiana, Prachi Agarwal, Rachael Margaret Verdugo Pelaez, Romain Jacques Kenny Russe, Roshni Chirag Shah, Shagun Modi, Zani Kerubo Gichuki, Iletutu "Tutu" Ibiyemi Awosika, Kshitij Ramlal Sarote, Mónica Irene Pérez Rivera, Prasidh Choudhary, Agnieszka Szklarczyk, Pongpol Punjawaytegul, Suwapat Rodprasert, Anton Hofstadt