The Sub-Neolithic hunter-gatherer-fisher (HGF) groups and Corded Ware (CW) agro-pastoral group interactions within the Lithuanian portion of the Neman Basin around ~3000 BC did not follow the same patterns of agriculturalisation seen elsewhere in Europe during Neolithization. The variation of interaction in this agricultural frontier zone provides valuable insight into the way information exchange between groups drives the exchange of intercultural information and how information exchange between groups ultimately the adaptive morphogenesis of culture. This article’s primary author has already studied this outlier behaviour and the Unified Agricultural Frontier Model (UAFM) was proposed in volume 45 of this journal (Troskosky et al. 2019). The article presented in this volume is a companion piece to the 2019 publication which further explains and tests the mechanics underlying the UAFM. The UAFM applies self-organised criticality (SOC) to the hypothesis that marked cultural shifts are most likely to occur in response to increased levels of stress affect within a society. Stress affect is defined as the dissonance between encultured expectations of reality and phenomenologically lived reality within a population. To test this hypothesis, The Arithmetic Logarithm Illustrating Cultural Exchange (ALICE) model was developed; it provides confirmation that information exchange drives the behaviour of the UAFM across frontier zones. This model provides strong computational confirmation that information drives the behaviour of the UAFM across frontier zones. Theoretically, ALICE supports a general model for information flow between different cultures, facilitating corresponding cultural changes across any frontier. It models how increased levels of stress affect within interacting groups can lead to shifts of societal behaviour marked by a pattern of periods of equilibrium alternating
with periods of disequilibrium. The results from the ALICE model and logical extrapolation of their effects in the UAFM demonstrate support for the eight new archaeological testable governing dynamics for information-driven adaptive morphogenesis of culture.
We present a unified model for the movement of agricultural frontiers based on the construction of the parallax shift and its relation to normalizable science. The model is based on data from the Baltic Basin, where for thousands of years, complex and semi-complex hunter/gatherer/fishers and agriculturalists remained in an equilibrium state. When agriculturalization occurred, it occurred in a punctuated
equilibrium manner, which defies current models of agricultural frontier movement, and by extension, current understandings of the underlying dynamics of social change. This new model is a modification of Structuration (Giddens 1984), with the emerging field of selforganized criticality within Physics (Bak et. al 1988; Brunk 2002b). These modifications require two additional governing dynamics not included in Giddens’s original formulation. When joined to an agricultural frontiers model with selective information permeability, these governing dynamics allow for societies to undergo punctuated equilibrium change under stress affect conditions. This results in critical behavior without the need for chaotic state change (Bak et. al 1988). This results in the creation of new material culture assemblages, reflecting new societal structures which are in equilibrium with the social and environmental landscape. The model is scale independent in both space and time, presenting some interesting conclusions.