Wednesday, April 14, 2010

Teaching the Farmed Landscape


[Image: The farm at College of Marin Indian Valley, Robert Tong for Independant Journal]

A new 5.8 acre working farm at College of Marin Indian Valley campus is redefining landscape design classwork. Serving students in the Agriculture & Environmental Science and the Environmental Landscaping departments, the farm is both a classroom and a professionally managed market farm. Produce is sold at an on-site stand, delivered as farm boxes to students on campus and donated to local food banks.


Many ag schools have on-campus farms, but what sets the College of Marin program apart is the inclusion of agriculture as a topic in landscape design, with credit classes offered in 'Principles of Organic Farming and Gardening', among others. Central to the program is the concept of 'agroecology', or the idea that the ways people transform the landscape can be used to restore the land as well. Broadening this idea to apply to landscape design offers interesting areas of inquiry - in what ways do gardens, commons and parks relate the transformation of the land to an inherent revitalization of the land? How do we understand these landscape typologies to operate as ecologies in the broadest sense? Farming is an ongoing work of process with the land, a daily physical shaping of an environment. Could the maintenance of designed landscapes be understood as part of an ecological process as well? How could designers use the lens of organic farming to anticipate maintenance structures that build, rather than simply maintain, a landscape?


Quoted in the Independent Journal, Nanda Schorske, the campus dean of workforce development, summarized the link between organic farming and landscape design as such: "People who understand the responsibility for using our resources want gardens rather than lawns."

Saturday, April 3, 2010

Urban Food Loops


[An aquaculture greenhouse]

Anne Spirn diagrammed the difference between a natural, closed system landscape and the urban landscape, which requires constant inputs and produces unwanted outputs, in The Granite Garden. A conventional farm is similar to the urban landscape in this way - requiring a steady stream of inputs and resulting in secondary outputs (wind blown soil, nutrient loaded runoff).


Integrating an agricultural program with low-income housing in the South Bronx, a proposed rooftop garden attempts a closed-system urban agricultural landscape. The 10,000 square foot greenhouse plans to use residual heat from the building and harvest rainwater to grow year-round vegetable crops. The project estimates they will be able to meet the produce needs of 450 residents. As the development consists of only 100 units, it has, intentionally or not, been sized to meet its food print. Designed by BrightFarm Systems, the farm will be a hydroponic system, in which plants grown in a water based nutrient mix, and is one of several similar projects they have underway.

Growing without soil is an idea with a long history. Sir Francis Bacon is credited with the first publication on hydroponics, with the 1627 book Sylva Sylvarum. In fact, the entire history of hydroponics, as briefly outlined here, has such fascinating ties with the surreal landscape that it's worth a brief digressionary tour, including the hydroponic farm at Wake Island used to feed passengers aboard Pan Am planes as they stopped to refuel, the early experiments of a British naturalist with growing spearmint in water to find that less pure water sources grew better plants and Epcot's Land Pavilion which featured hydroponic techniques.


[BrightFarm Systems Greenhouse in the South Bronx]

Back to the integrated urban agricultural system at hand - the beauty in this idea lies not only in addressing food requirements as part of development planning, but in the approach to creating a closed system in which waste is reduced. The greenhouse will rely on solar panels to create power, capture rainwater for the hydroponic system and make use of heat produced by the building itself. The South Bronx project will make use of 750,000 lites of captured storm water that would have otherwise been diverted to storm drainage systems. Even better, yields on crops grown in hydroponic systems are higher than yields from traditional crops, which is partially attributed to the ready availability of nutrients and water to the plant.


['Back to Basics' tilapia farm by M&A]

A similarly appealing water-based closed-system food production system was presented by Materials & Applications in San Francisco recently, in which they described the temporary aquaponic tilapia farm they installed in their studio. Rainwater provided the initial water for the farm, and gravity and solar energy powered the filtering system in which farm water circulated from the fish tank through a series of planted pools for cleansing. In both cases, the potential for designing closed system urban food systems as an rich architectural exploration is revealed.