A New Look for Talbot Park

Talbot Park, a housing project in Auckland, New Zealand, was once described as a ghetto, troubled by high rates of crime and vandalism. However, it has just been rebuilt at a cost of $48m and the project reflects some new thinking about urban design.

A The new Talbot Park is immediately eye-catching because the buildings look quite different to other state housing projects in Auckland. ‘There is no reason why state housing should look cheap in my view,’ says architect Neil Cotton, one of the design team. ‘In fact, I was anticipating a backlash by those who objected to the quality of what is provided with government money.’ The tidy brick and wood apartments and townhouses would not look out of place in some of the city’s most affluent suburbs and this is a central theme of the Talbot Park philosophy.

B Talbot Park is a triangle of government-owned land, which in the early 1960s was developed for state housing built around a linear garden that ran through the middle. Initially, there was a strong sense of neighbourliness. Former residents recall how the garden played a big part in their childhoods – a place where kids came together to play softball, cricket and bullrush. ‘We had respect for our neighbours and addressed them by title – Mr and Mrs so-and-so,’ recalls Georgie Thompson, who grew up there in the 1960s.

C Exactly what went wrong with Talbot Park is unclear. The community began to change in the late 1970s as more immigrants moved in. The new arrivals didn’t always integrate with the community and a “them and us” mentality developed. In the process, standards dropped and the neighbourhood began to look shabbier. The buildings themselves were also deteriorating and becoming run down, petty crime was on the rise and the garden was considered unsafe. In 2002, Housing New Zealand decided the properties needed upgrading. The question was, how to avoid repeating the mistakes of the past?

D One controversial aspect of the upgrade is that the new development has actually made the density of housing in Talbot Park greater, putting 52 more homes on the same site. Doing this required a fresh approach that can be summed up as “mix and match”. The first priority was to mix up the housing by employing a variety of plans by different architects: some of the accommodation is free-standing houses, some semi-detached, some low level, multi-apartment blocks. By doing this, the development avoids the uniform appearance of so many state housing projects, which residents complain denies them any sense of individual identity. The next goal was to prevent overspending by using efficient designs to maximise the sense of space from minimum room sizes. There was also a no-frills, industrial approach to kitchens, bathrooms and flooring, to optimise durability and ensure the project did not go over budget. Architecturally, the buildings are relatively conservative: fairly plain houses standing in a small garden. There’s a slight reflection of the traditional Pacific beach house (a fale) but it’s not overplayed. ‘It seems to us that low-cost housing is about getting as much amenity as you can for the money,’ says architect Michael Thompson. Another key aspect of the “mix and match” approach is openness: one that not only lets residents see what is going on but also lets them know they are seen. The plan ensures there are no cul-de-sacs or properties hidden from view, that the gardens are not enclosed by trees and that most boundary fences are see-through – a community contained but without walls.

E The population today is cosmopolitan: 50% Pacific Islanders, 20% Maori, 15% Asian, 10% New Zealand European and the rest composed of immigrants from Russia, Ukraine and Iran. ‘It was important that the buildings were sufficiently flexible to cater for the needs of people from a wide variety of cultural backgrounds,’ explains designer James Lundy.

F Despite the quality of the buildings, however, there should be no doubt that Talbot Park and its surrounding suburb of Tamaki are low socio-economic areas. Of the 5,000 houses there, 55% are state houses, 28% privately owned (compared to about 65% nationally) and 17% private rental. The area has a high density of households with incomes in the $5,000 to $15,000 range and very few with an income over $70,000. That’s in sharp contrast to the more affluent suburbs in Auckland.

G Another important part of the new development is what Housing New Zealand calls “intensive tenancy management”. Opponents of the project call it social control. ‘The focus is on frequent inspections and setting clear guidelines and boundaries regarding the sort of behaviour we expect from tenants,’ says Graham Bodman, Housing New Zealand’s regional manager. The result is a code of sometimes strict rules: no loud parties after 10 pm; no washing hung over balcony rails and a requirement to mow lawns and keep the property tidy. The Tenancy Manager walks the site every day, knows everyone by name and deals with problems quickly. ‘It’s all based on the intensification,’ says project manager Stuart Bracey. ‘We acknowledge that if you are going to ask people to live in these quite tightly-packed communities, you have to actually help them to get to know each other by organising morning teas and street barbecues.’ So far it seems to be working and many involved in the project believe Talbot Park represents the way forward for state housing.

The Analysis of Fear

Researchers are investigating the processes in the brain that give rise to fear in animals. The results may lead to new ways to treat human anxiety.

Over the years, the majority of people acquire a range of skills for coping with frightening situations. They will attempt to placate a vexed teacher or boss and will shout and run when chased by a hostile stranger. But some individuals become overwhelmed in circumstances others would consider only minimally stressful: fear of ridicule might cause them to shake uncontrollably when called on to speak in a group, or terror of strangers might lead them to hide at home, unable to work or shop for groceries. Why do certain people fall prey to excessive fear?

Ned H. Kalin and Steven E. Shelton at the University of Wisconsin-Madison are addressing this problem by identifying specific brain processes that regulate fear and its associated behaviors. Despite the availability of non-invasive computer imaging techniques, such information is still extremely difficult to obtain in humans. Hence, they have turned their attention to another primate, the rhesus monkey. These animals undergo many of the same physiological and psychological developmental stages that humans do, but in a more compressed time span. As we gain more insight into the nature and operation of neural circuits that modulate fear in monkeys, it should be possible to pinpoint the brain processes that cause inordinate anxiety in people, and to devise new therapies to counteract it. Effective interventions would be particularly valuable if they were applied at an early age, as growing evidence suggests overly fearful youngsters are at high risk of later emotional distress.

When they began their studies two decades ago, Kalin and Shelton knew that they would first have to find cues that elicit fear and identify behaviors that reflect different types of anxiety. With such information in hand, they could then proceed to determine the age at which monkeys begin to match defensive behaviors selectively to specific cues. Finally, by determining the parts of the brain that reach maturity during the same time span, they could gain clues to the regions that underlie the regulation of fear and fear-related behavior.

The experiments were carried out at the University of Wisconsin-Madison. Kalin and Shelton discerned varied behaviors by exposing monkeys between six and 12 months old to three related situations. In the alone condition, an animal was separated from its mother and left by itself in a cage for ten minutes. In the no-eye-contact condition, a person stood motionless outside the cage and avoided looking at the solitary infant. In the stare condition, a person was again present and motionless but, assuming a neutral expression, peered directly at the animal. These positions are no more frightening than those that primates encounter frequently in the wild, or those that human infants encounter every time they are left at a day-care center.

In the alone condition, most monkeys became very active and emitted frequent gentle ‘coo’ calls made with pursed lips. More than 40 years ago it was deduced that when an infant monkey is separated from its mother, it yearns to regain the closeness and security provided by nearness to the parent. These responses help to draw the mother’s attention. In contrast, in the more frightening no-eye-contact situation, the monkeys reduced their activity greatly and sometimes froze for extended periods of time. When an infant spots a potential predator, its goal shifts from attracting the mother to becoming inconspicuous. Inhibiting motion and freezing are common attempts to achieve this in many species. If the infant perceives that it has been detected, its aim shifts to warding off an attack. So the stare condition evoked a third set of responses. The monkeys made several hostile gestures: barking (forcing air from the abdomen through the vocal cords to emit a harsh, growl-like sound) and staring back. Sometimes the animals mixed the threatening displays with submissive ones, such as fear grimaces, which look something like wary grins, or grinding of teeth.

Having identified three categories of defensive behaviors, Kalin and Shelton set about determining when infant monkeys first begin to apply them effectively. Several lines of work had led them to surmise that the ability to make such choices emerges when an infant is around two months old. To establish the critical period of development, they examined four groups of infant monkeys ranging in age up to 12 weeks old. The babies were separated from their mothers, left to acclimatize to a cage, and then exposed to the alone, no-eye-contact and stare conditions. All sessions were videotaped for analysis. They found that the infants in the youngest group (no more than two weeks old) engaged in defensive behaviors. But they lacked some motor control and seemed to act randomly, as if they had not noticed the human beings that were present. Babies in the two intermediate-age groups had good motor control, but their actions seemed unrelated to the test condition. Only animals in the oldest group (nine- to 12-weeks old) conducted themselves differently in each situation, and their reactions were both appropriate and identical to those of mature monkeys. This finding meant motor control was not the prime determinant of selective responding and that nine to 12 weeks is the critical age for the appearance of a monkey’s ability to adaptively modulate its defensive activity to meet changing demands.