Our cabanas mimic the thatch homes still built in the Toledo district of Belize. The thatch roofing helps regulate inside temperature, and provides extremely excellent insulating properties. This makes it a perfect feature for keeping rooms cool in the summer and warm in the winter. The thatch is made from a local plant called bayleaf which, if harvested at the correct time, can last up to 30 or 40 years.
We actively unite sustainable ventures with artful creation around many areas of our reserve. These are some of our bottle walls, which not only serve to repurpose glass bottles, but offer a beautiful array of colors to the rooms when reflecting the incoming natural light.
Based on the reuse of materials, we use and develop various art techniques in our workshop. Currently much of the creation is focused on mosaics, diverse products of molten glass, and natural fibers. The products coming from the atelier are displayed for sale in our store of sustainable products, and are also used in the decoration and functional parts of the inn, making each environment unique and full of personality.
A new space has also been creatively built with recycled and reused materials that combines mosaics, bottle walls, and demolition pieces integrated into the rustic and cozy ambiance. The mosaic is an organic part of the El Nagual Reserve, practiced as a strategy of recycling in the construction. Today it is possible to find several mosaics in all corners of our facilities, in the same way a great variety of products are made with equally diverse techniques.
Our ecovillage utilizes a biodigester as an excellent solution for sewage treatment. Biodigesters offer the ability to transform waste into usable energy, in the form of methane, and leftover product for fertilizer. Our biosystem consists of a biodigester (left), compensation box (middle), biofilters (right), lake of macrophytes (algae), and root zone (far right). It can be built with relatively low cost and ease, and does not require sophisticated materials or advanced construction knowledge to build.
The biofertilizer produced in the treatment process has no pathogens, due to the anaerobic fermentation it passes through, and is ideal for use in the maintenance of community squares and gardens because it does not pose health risks. It is consolidated as a perfect substitute for chemical fertilizers, which can be more expensive and aggressive to the environment.
The methane gas that is captured in the biodigester is of good quality and can be used in the kitchen of public schools, nurseries and hospitals, or, in large quantities, in thermoelectric plants.
Here in our reserve, initially, we built the biosystem with a focus on sewage treatment. However, the extraction of products from the process far exceeded the expectations foreseen in our planning, and today we have at least two hours of gas daily for consumption in the kitchen and workshop, while biofertilizers are used in the orchard, where we obtained a gain of productivity of at least 50%.