scholarly journals Revisiting Van Valen's Red Queen Hypothesis

2021 ◽  
Author(s):  
Ricard Sole
Keyword(s):  
Complex Adaptive Systems ◽  
Adaptive Systems ◽  
Unexpected Result ◽  
Red Queen Hypothesis ◽  
Red Queen ◽  
Arms Races ◽  
Complex Systems Theory ◽  
Record Data ◽  
Complex Adaptive ◽  
The Red Queen

Leigh Van Valen was an American evolutionary biologist who made major contributions to evolutionary theory and is particularly remembered by his groundbreaking paper "A New Evolutionary Law" (1973) where he provided evidence from fossil record data that this law maintains that the probability of extinction within any group remains es­sentially constant through time. In order to explain such unexpected result, Van Valen formulated a very influential idea that he dubbed the "Red Queen hypothesis". It states that the constant decay must be a consequence of evolutionary interactions among connected species within ecological networks. In Van Valen's picture, species do not merely evolve: they also coevolve with other species. As a consequence, when thinking in adaptation to an external environment, the other species must be considered as part (may be a major part) of such external world. Van Valen's law provided the first complex systems theory of coevolutionary dynamics and inspired a whole range of theoretical and experimental developments and scholars from very diverse fields, from economics to physics. In that respect, Leigh Van Valen's contribution percolated far beyond its original formulation. Red Queen arms races are nowadays considered a widespread feature of complex adaptive systems.

Positioning Against Other Theories

2010 ◽  
pp. 135-161
Author(s):  
Lars Taxén
Keyword(s):  
Strategic Management ◽  
Complex Adaptive Systems ◽  
Adaptive Systems ◽  
Research Area ◽  
Organizational Research ◽  
Complex Systems Theory ◽  
Turbulent Environments ◽  
Starting Point ◽  
Complex Adaptive

Complex systems theory (e.g. Bar-Yam, 1997) is a rich and vital research area that has a huge potential for organizational research (Lewin, 1999). In particular, the study of complex adaptive systems (CASs) provides many insightful results concerning the adaptability and strategic management of organizations in turbulent environments (ibid). In the following, I will take this characterization of CASs as a starting point for exploring possible connections between CAS and ADT. This is done against the background of the previously reported complexity inherent in both telecom systems and projects developing these systems.

Physical Activity, Aerobic Fitness, and Causality: Reflections from Complex Adaptive Systems

2006 ◽  
Vol 18 (2) ◽  
pp. 182-192 ◽  
Author(s):  
George R. Biltz
Keyword(s):  
Physical Activity ◽  
Aerobic Fitness ◽  
Complex Adaptive Systems ◽  
Adaptive Systems ◽  
Unexpected Result ◽  
Exercise Science ◽  
Complex Adaptive ◽  
Asking Questions ◽  
Unexpected Outcomes

In their article, Kemper and Koppes have presented their assessment of the long-term relationship between physical activity (PA) and aerobic fitness (AF). Specifically, their autoregression analysis did not support a significant causal relationship between current PA and subsequent AF as measured by VO2max. Thus, the authors question how to interpret this unexpected result. Which way does the causal arrow point between PA and AF? This reflection aims to conceptually reframe the causality question, not to resolve its behavioral or physiologic components. This reflection will explore potential sources of unexpected outcomes, analyze dimensions of cognitive difficulty in the context of exercise science, and introduce complex adaptive systems (CAS) as an alternative framework for asking questions and understanding outcomes in exercise research.

Viruses as Complex Adaptive Systems

2018 ◽  
Author(s):  
Richard Sole ◽  
Santiago F. Elena
Keyword(s):  
Complex Systems ◽  
Systems Theory ◽  
Complex Adaptive Systems ◽  
Adaptive Systems ◽  
Influenza A ◽  
Farm Animals ◽  
Unified Framework ◽  
Evolutionary Potential ◽  
Complex Systems Theory ◽  
Complex Adaptive

Viruses are everywhere, infecting all sorts of living organisms, from the tiniest bacteria to the largest mammals. Many are harmful parasites, but viruses also play a major role as drivers of our evolution as a species and are essential regulators of the composition and complexity of ecosystems on a global scale. This book draws on complex systems theory to provide a fresh look at viral origins, populations, and evolution, and the coevolutionary dynamics of viruses and their hosts. New viruses continue to emerge that threaten people, crops, and farm animals. Viruses constantly evade our immune systems, and antiviral therapies and vaccination campaigns can be powerless against them. These unique characteristics of virus biology are a consequence of their tremendous evolutionary potential, which enables viruses to quickly adapt to any environmental challenge. This book presents a unified framework for understanding viruses as complex adaptive systems. It shows how the application of complex systems theory to viral dynamics has provided new insights into the development of AIDS in patients infected with HIV-1, the emergence of new antigenic variants of the influenza A virus, and other cutting-edge advances. The book also extends the analogy of viruses to the evolution of other replicators such as computer viruses, cancer, and languages.

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