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New Study Reveals the Many Benefits of Urban Rooftop Gardens

Rooftop vegetable gardens increase urban biodiversity; decrease stormwater run-off; offer psychological benefits to those involved with the garden and with fellow gardeners; and can even protect and extend the lifetime of the roof.

In summary:

– Growing vegetables and herbs on the roof of a private or commercial building offer many advantages, including reducing stormwater run-off and helping to cool the building.
– A report prepared by a UTS academic for City of Sydney council sets out best-practice guidelines for food production on rooftops.

What if the greens you need for tonight’s dinner were grown on the roof of the office where you work? From a cook’s perspective, this is a dream – fresh produce and no time wasted on shopping. And the advantages of urban farming extend way beyond the wellbeing of the time-poor consumer. Produce farmed on urban rooftops also contributes to reducing the heat island effect of cities, lowering summer temperatures and minimizing the carbon footprint of food.

Rooftop vegetable gardens increase urban biodiversity; decrease stormwater run-off; offer psychological benefits to those involved with the garden and with fellow gardeners; and can even protect and extend the lifetime of the roof.

Interest in green roofs is growing like dandelions in spring: the City of Sydney reports an average of one development application a week for a green roof or wall. Already, 100,000 square meters is given over to green roofs across the city, and  Lord Mayor Clover Moore says the City is doing all it can “to introduce more of these features into our urban landscape”.

Yet few are food producing. Sydney’s environmental conditions suggest an urban harvest could contribute significantly to food production. The city of Toronto, for instance, which is under snow for three or four months of the year, estimates that 10 percent of its fresh food could be grown within the city limits.

Research by Dr. Sara Wilkinson, Associate Professor in the School of the Built Environment at the University of Technology, Sydney (UTS), aims to fill the evidence gap on urban farming in Sydney. Her study, funded by the City of Sydney, addresses the barriers and provides evidence for best practice in rooftop food production.

The final report was delivered to the council late last year. User-friendly guides developed from Dr. Wilkinson’s findings are being drafted for the council website.


Dr. Wilkinson stresses that the goal of urban farming is not self-sufficiency but to contribute to food production and derive the other benefits of green roofs.

“On food security, food miles, social and psychological concerns, environmental action, it ticks so many boxes to grow food locally,” she says.

The first step in her study was to identify appropriate sites for the test gardens. “Factors like access, water and power have to be considered,” she says, “and then there is the attitude of building managers.”

Her expertise is in building adaptation rather than horticulture so she has the background to understand building management concerns. To alleviate these she is developing a template for a rooftop farming license agreement that will set out the terms, roles, and responsibilities of all parties involved in rooftop food production.



The UTS study compared three types of gardens on the roof of three campus buildings. Vegetables and herbs were grown in a raised bed, a vertical garden, and a wicking bed.

(A wicking bed waters plants from below through a capillary action that draws water from a reservoir in the base of the container. The soil is separated from the water by a layer of geotextile fabric, and the plant roots take up moisture as needed. The reservoir means that watering – the most labor-intensive aspect of container-gardening – is reduced from every second day to about once a week.)
Of the three types, the wicking bed proved the most efficient. It was the cheapest to establish ($412 plus labor), required the least water, produced the largest harvests, was easiest to transport, assemble and to the garden.

The beds were planted with eggplant, zucchini, basil, carrots, beetroot, lettuce, chili, capsicum, silverbeet, celery, rocket, mizuna, and marigolds. Soil toxicologists studied the produce before it was harvested for consumption, to allay concerns about pollution from the busy Broadway traffic several floors down or from other sources such as water or soil.

Initially, traces of lead were found, but after one crop, as the garden established itself, naturally occurring micro-organisms in the soil absorbed the lead in a process known as bio-remediation. Subsequent tests showed the product was clear of contaminants.


Of the produce grown the silverbeet gave the best results for the least time and effort.

The next stage of Dr. Wilkinson’s research is to apply the findings in the corporate and commercial sector. She is in discussions to introduce food production to the rooftops of commercial buildings in Sydney’s central business district. Though it’s not here yet, the future may offer salad and sides from the rooftop of your workplace or apartment block.

Findings from Dr. Wilkinson’s research will be part of a book, Building Resilience in Urban Settlements: Green Roof Retrofit, to be published by Wiley Blackwell next year.

Source: University of Technology, Sydney

This article was originally published at Ready Nutrition™ on February 19th, 2015

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