Francis Garcia

A new approach to landscape ecology involves the application of the eco-field hypothesis and the General Theory of Resources. In this study, we describe the putative eco-field of bark beetles as a spatial configuration with a specific meaning-carrier for every organism-resource interaction. Bark beetles are insects with key roles in matter and energy cycles in coniferous forests, which cause significant changes to forestry landscapes when outbreaks occur. Bark beetles are guided towards host trees by the recognition of semiotic signals using a specific eco-field. These signals mainly comprise a group of scents, which are called the odourtope. Their interactions with other organisms occur by sharing relevant information from the eco-field networks in the forest ecosystem. The eco-field networks modulate the expansion of the realized semiotic niche of the bark beetle towards the potential semiotic niche. Moreover, the niche construction process can be initiated by interchanging signals among species living in the same place, where these signals allow the exploitation of the required resources. If different organisms are interdependent on signals in eco-field networks, then this process may result in the establishment of mutualistic relationships. This is an example of how evolutionary processes are initiated by the recognition of signals in a network of eco-fields.

The purpose of this article is to explore a newly defined concept of distributed cognition in a spatial domain and to propose how this conceptualization may be applied to how architectural space is organized. A novel view of distributed cognition is presented, which is concerned with the purposive behaviour of an organism-in-its-environment. We term this concept teleonomic distributed cognition. Teleonomic distributed cognition is the ability of an organism (including humans) to interact with its environment for the purpose of satisfying its physiological (internal and external) and social needs in order to survive and sustain itself. An implication of this approach is that the sensory capabilities that drive the teleonomic distributed cognition of the organism define its spatial domain.