The water supply, especially one based on large dams, is highly vulnerable to disruption. Dams could be designed so that, in an emergency, the water could be released quickly but safely. In a number of countries that are still developing their infrastructure, choosing microhydro rather than large dams would greatly aid resilience against attack. Another approach is using water tanks and dry toilets to reduce water requirements from a central supply system which might be destroyed by an aggressor.
Similarly, producing steel at numerous minimills, geographically dispersed, provides greater resilience than having a few large integrated steelworks. Installing solar and wind power systems throughout the country would mean that the population could not be held hostage by control over electricity generating plants. The challenge is to develop technologies that are efficient and require little maintenance. Of course, economic incentives are important in promoting such alternatives.
Bridges are often attacked by aggressors. Building a bridge that would survive any attack would be impossibly expensive, though designs allowing easy rebuilding would be possible. Also, bridges might be designed so that saboteurs could easily be detected. Laser detectors, perhaps?
Similar considerations apply to housing. In order to be able to reconstruct destroyed buildings, designs should be simple and straightforward, relying on readily available materials. Portable homes might be useful for moving people around the country. There is some research on cheap, effective housing for the Third World which may be applicable. Research could be done on materials to make tents long-lasting. Combined with telecommunications, tent-based activists would be hard to track down.
In the case of manufacturing, aggressors often take over plants for their own purposes. To resist, workers could go on strike, but torture against workers or their families could be used to break the strike. Another approach is to go slow and make “inadvertent” mistakes, as done in some factories taken over by the Nazis in World War II. A technological solution — raised by Johan Galtung, quoted in chapter 4 — is to design the factory so that vital pieces of equipment can be removed or destroyed. Replacements could be kept in a safe place, such as another country. Torture would be pointless, since it couldn’t get the factory going again. Actually, in many modern factories, the technological sophistication is so great that outsiders would not know whether the workers were resisting or not.
When hierarchies are flattened and groups of workers can operate without a boss, the workforce is better equipped to resist a takeover. Therefore, manufacturing systems that are tied to empowering the workers may be the best for nonviolent struggle.
Large-scale monocultures are vulnerable to disruption. A more resilient food system would include many local gardens and food-bearing trees. Relevant research here includes seed varieties robust to lack of fertilisers and pesticides, nutritious diets from wild natives, and methods for long-term storage of food.[9]
A transport system highly resilient to attack can be achieved by designing communities so that most travel can be accomplished by walking or cycling, in contrast with systems of roads or rail which can be interrupted by cutting off fuel. Powered vehicles are very useful for shipping goods, so it would be valuable to design vehicles that are simple to build and repair, use fuels that can be easily produced or stored throughout the community and, perhaps, in an emergency could be powered by human muscles.[10] There is likely to be a trade-off between the convenience of maintaining some forms of motorised transport and their vulnerability. Thus there is a general challenge to develop motorised transport technologies that cannot be easily disrupted by an aggressor.
Health
Many doctors and health workers have been involved in peace activism over the years,[11] but only some of this involvement is directly relevant to nonviolent resistance to aggression and repression. One of the ways that health professionals today help to oppose repression is by documenting cases of torture or execution. Governments routinely deny that they are involved in torture and extra-judicial execution; investigations and authoritative pronouncements by medical and forensic experts can help to expose such abuses. Some of the activities of physicians and medical researchers concerned about violations of human rights include:
assessing cases of alleged torture;
exhuming bodies (sometimes buried months earlier) and determining the cause of death;
using genetic tracing to track down relatives of orphans whose parents have disappeared, presumed murdered;
estimating the number of casualties in wars;
carrying out psychiatric assessment of torture survivors;
examining conditions in prisons;