The Microbiological Transit Authority

In the study of Biomimicry we're discovering nature holds many potential solutions to design issues, often in a sustainable manner. Early on goose down inspired insulation, cockleburrs stuck on his dog inspired George de Mestral to invent velcro, and now perhaps, slime mold can guide our approach to large scale transit and infrastructure projects.

Researchers have used petri dish scaled mapping systems, replacing Japanese cities with slime mold food targets and recorded their routes over a 26-hr time period. The result is highly efficient path system created by tendrils that interconnect the food supplies, closely resembling to the current transit system.

The trick has to do with how slime molds eat. When Physarum polycephalum, a slime mold often found inside decaying logs, discovers bacteria or spores, it grows over them and begins to digest them through its body. To continue growing and exploring, the slime mold transforms its Byzantine pattern of thin tendrils into a simpler, more-efficient network of tubes: Those carrying a high volume of nutrients gradually expand, while those that are little used slowly contract and eventually disappear.

A nobel prize winning experiment in 2000 at Hokkaido University in Japan, showed that P. polycephalum could find the shortest path through a maze to connect two food resources. 

New research wanted to go beyond a one solution problem and involve experiment with multiple factors that would influence the path.

"The planning is very difficult because of the tradeoffs," says cell biologist Mark Fricker of the University of Oxford in the United Kingdom, who was also involved in the research. For example, connecting all cities by the shortest possible length of track often compels travelers to take highly indirect routes between any two points and can mean that a single failure isolates a large part of the network. Building in more redundancy makes the network more convenient and more resilient, but at a higher cost.

Without the obvious exclusion of geographic influence, it would be interesting to begin new transit studies with biologic diagramming. Taking political, economic, and social factors out of mega scale projects. The solutions at this stage are simply the most biologically efficient, perhaps making political rhetoric less influential on final transit design locations.

{Mold creates paths leading to oak flakes representing the surrounding cities of Tokyo}

In the opposite spectrum, could this non-partisan, non-emotional microbiological transit authority selection be used as precedent in eminent domain litigation. "The Physarum polycephalum has unfortunately chosen your homestead as the most efficient and direct path for the new railway, there is nothing that can be done."

{Conceptually proposed map of US high speed rail locations}

I would like to see this experiment done to compare similarities drawn, if any, to the current plan for the US high speed rail map. Have we selected the most righteous paths, only slime will tell (ha).

Floating Ecologies and the Whale

Imagine, seas and rivers occupied with a population of meandering creatures, charged by sunlight and currents creating both man and wildlife mobile habitats, all cleaning our water bodies through bio-filtration.

Architect Vincent Callebaut proposes such an idea in the Physalia, a self-sufficient whale-shaped floating ecosystem which cleans water as it travels through bio-filtration. Inspired by the Physalia physalis jellyfish, the design is intended to by powered by photovoltaic panels and hydro-turbines.

Instantly several adaptations come to mind. Why not extend these concepts to other water-based transports. Slow-moving cargo ships and oil tanker transports are transformed into giant floating ecosystems, cleaning our water while maintaining their purpose. Giant cruise vessels transform from a system of excess and over-consumption to becoming floating utopian-esque tropical ecologies. More eco-tourism then Carnival cruise.

 

This even could be a prelude to a floating housing concept in response to the impending water level rise. Floating around like algae, our homes and neighborhoods in constant fluctuation, changing demographics and social order/hierarchy, your enemy one day could be your neighbor the next. All of this happening while intensely sucking carbon from the air.

+via Inhabitat

Urban Orchard

{View of community garden and portable prefab market structure. Image via AMA}

Urban agriculture has become a well discussed topic. Competitions and student works are producing copious amounts of fascinating work and concepts: vegetated skyscrapers, deserted urban lots retrofitted to crop production and community gardens. 

Unfortunately, much of it amounts to nothing but to what a friend likes to call "render porn." Without quantifiable closed looped solutions the urban ag movement will never gain critical mass.

Andrew Maynard Architects, a young Melbourne firm in their Urban Orchard 2 concept have veered away slightly from the purely conceptual and have proposed a more actionable concept inspired by the community markets of Cuba. Cuban Market Gardens first arose as a community response to a lack of food security after the collapse of the Soviet Union. Collectively they are able to produce 90% of its citizens fruits and vegetables without the use of transport, simultaneously creating urban green areas and neighborhood integration.

{Distribution diagram. Image via AMA}{Circulation diagram. Image via AMA}{"Buildability" diagram. Image via AMA

AMA's proposal calls for the removal of transport, using rooftop garden/orchard production, sold to ground level community markets, and its food waste reused for the production biofuel.

{Circulation strategy. Image via AMA}

While on paper the idea seems like a novel idea, I still believe property owners, developers, and potential entrepreneurs will need to see actionable and profitable business plans for nobel urban ag projects to take hold, until then, enjoy the render porn.

+via Arkinet