Bamboo Building Workshop  Upstate New York
Friday 13, saturday 14 and Sunday 15 of October 2016
Organizers :Joana Torres Architect based in NYC with 10+ years of experience. Designer and builder of bamboo structures Founder of OFICINA. Oficina provides design and construction strategies geared towards sustainable design and socially engaged architecture.
Alejandro Chellet Permaculture designer and multidisciplinary artist based in Mexico city and New York. He incorporates the audience, public space & architecture. A social practitioner in permacultural networks, interacting with squats, ecologists, artists hubs, activists, gallerists, cultural entrepreneurs.
Hands-on construction workshop with Guadua Bamboo. This combined 'theoretical' and 'hands-on' workshop, verbally and physically demonstrates to the participant the architectural concepts and techniques applied to bamboo construction.The 3 day workshop will result in a new outdoor bamboo shading structure. While building, you will learn about bamboo framing, joinery techniques, tools and many other interesting aspects about this fast growing, sustainable material.
ABOUT Guadua Bamboo

What is Guadua angustifolia?
For centuries bamboo has been used in everyday life and in many different cultures throughout the world. A gigantic and extraordinary type, known as Guadua angustifolia 'Kunth', is considered one of the 20 best bamboo species in the world.
In 1822, the German botanist Kunth described Guadua as a genus segregated from the Asian one, Bambusa. Kunth used the indigenous word "guadua" (narrow leaf), which was the name given to this bamboo among the native communities of Colombia and Ecuador.
This user-and environmental-friendly grass (often referred to as "Vegetal Steel") is presently employed for a multitude of uses; furniture & crafts work, raw construction material, panels (plywood, laminates, floors), bio-energy industry, musical instruments, houses, etc.
Guadua bamboo is by far the most important bamboo in America, and is often compared with its Asian counterpart: Moso (Phyllostachys edulis). For a detailed comparison see: Guadua vs Moso

The reason for that is simple: no other natural resource possesses more: versatility, lightness, flexibility, endurance, hardness, strength, climatic adaptability, seismic-resistance, rapid growth, easy handling and visual warmth!
To top this of, Guadua can easily meet the International Building Code (IBC) and all environmental requirements. So it's no exaggeration if we state that the Guadua bamboo is the American forestry species of the future!
Trees vs. Guadua angustifolia
All bamboo, but Guadua in particular, has a rapid growth and a higher productivity, when compared with trees. Usually, the growth cycle of bamboo is a third of that of a "tree of rapid growth" and has double the productivity per hectare. Compared to oak, Guadua even produces up to four times more wood.

In addition, bamboo emerge from the soil with a fixed diameter, without showing increases of diameter over time, as happens with trees. The maximum diameter reported for Guadua angustifolia is 25 cm and the average is between 9 and 13 centimeters.
In the case of Guadua, a 21 cm daily growth in height has been observed, so that it reaches its maximum height (15 - 30 meters) in the first six months of growth and can be harvested after 4 to 5 years. This growth is rarely surpassed by the native timber species of the region.
If handled properly, guadua may have an unlimited production once it has been established, without a great deal of care. The ideal composition of culms in a guadua grove is estimated to be 10% shoots, 30% young ones, and 60% mature ones with a density of 3000 to 8000 culms per hectare. This means a productivity of 1,200 - 1,350 culms per hectare per year, and an effective alternative to wood for production of laminated and agglomerate wood (columns, beams, girders, planks, panels, etc.)
Where does Guadua angustifolia grow?
There currently exists 38 known species of Guadua bamboo which are all found in Central and South America. The species Guadua angustifolia however, is only native to Colombia, Ecuador, and Venezuela, where it forms dominant colonies known as "guaduales" or guadua groves.
These Guadua forests reach their optimum development in the central region of the Andes, between 900 and 1,600 meters above sea level, at temperatures between 20° and 26° Centigrade, rainfalls of 2,000 - 2,500 mm/year, a relative humidity of 75 - 85% and on alluvial soils that are rich in volcanic ash with a moderate fertility and good drainage. Guadua angustifolia has been introduced to several Central American, Caribbean and Asian countries where they can grow in similar climate conditions.
Environmental advantages of Guadua

Guadua bamboo has a large environmental impact. It conserves the soil, controls erosion, regulates the flow of rivers and streams, supplies organic material, and acts as a CO2 sink.

Its rapid growth, both aerial and sub-surface, the network of rhizomes that grow in the superficial layer of the soil (20 - 50 centimeters) and its willingness to occupy disturbed areas make guadua an ideal resource for the conservation of unstable soils.
Bamboo also captures CO2 and converts it into oxygen, 35% more than regular trees; therefore it plays a vital role in a healthy eco-system. Recent studies indicate that the potential for atmospheric carbon dioxide fixation in the first six years of Guadua's growth from new sowings is 54 metric tons per hectare - a fundamental discovery that facilitates participation in the international system of trading emission rights and will bring additional benefits to investors and farmers who plant and cultivate guadua, that produces zero emissions!
It is also important to point out that using guadua in industrial processes would significantly reduce negative environmental impacts on native forests, since guadua becomes a substitute for timber, thus reducing the pressure on the tropical jungle.
Whenever we use bamboo we make a valuable contribution to the environment, with its high per hectare density, rapid growth, ready exploitation and enormous capacity for renewal without reforesting we leave the much slower growing hardwood forests untouched.