(Phys.org)—Complexity – defined as having emergent properties or traits that are not a function of, and are therefore difficult or inherently impossible to predict from, the discrete components comprising the system – is a characteristic of complex systems at a wide range of scales (such as genes, neurons and other cells, brains, computers, language, and both natural and sociopolitical ecosystems) that comprise interconnected elements capable of self-modification via feedback loops. At the same time, there are networks (biological and otherwise) that have far fewer of these loops than might be expected – but while these low feedback loop networks are known to be display high stability, the mechanism for feedback suppression (which imparts that stability) has remained unidentified. Recently, however, scientists at University of Warwick and Imperial College London have shown that the level of feedback in complex systems is a function of trophic coherence – a property that reveals the distribution of nodes into high- and low-feedback network levels.