Exploring the analytical consequences of ecological subjects unwittingly neglected by the mainstream of evolutionary thought

•Ecological uncertainty (QEU) and evolutionary capacitance (EC) are recent findings•QEU & EC vs. gradualism (EG) and the criterion of evolutionary success (CCES).•EG & CCES seem unsustainable from the point of view of ecosystem ecology and physics.•Exploration of consequences, alternative in...

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Published in:Ecological modelling 2017-07, Vol.355, p.70-83
Main Authors: Rodríguez, Ricardo A., Duncan, Janelle M., Vanni, Michael J., Melkikh, Alexey V., Delgado, Juan D., Riera, Rodrigo, Herrera, Ada M., Camarena, Tomás, Quirós, Ángel, Fernández-Palacios, José M., Miranda, Jezahel V., Perdomo, María E., Fernández-Rodríguez, María J., Jiménez-Rodríguez, Antonia, Otto, Rüdiger, Escudero, Carlos G., Navarro-Cerrillo, Rafael M., González, María J.
Format: Article
Language:English
Subjects:
Darwinism
Ecosystem ecology
Evolutionary capacitance
Evolutionary forces
Organic biophysics of ecosystems
Quantum eco-evolutionary effects
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Summary:•Ecological uncertainty (QEU) and evolutionary capacitance (EC) are recent findings•QEU & EC vs. gradualism (EG) and the criterion of evolutionary success (CCES).•EG & CCES seem unsustainable from the point of view of ecosystem ecology and physics.•Exploration of consequences, alternative interpretations and roots of this problem.•An interdisciplinary readjustment of our current view about evolution is suitable. The Darwinian interpretation (Di) of evolutionary process, and its subsequent development in the form of modern evolutionary synthesis (MES), plays a paradigmatic role in the mainstream biological thought. However, the main role in the improvement from Di to MES has depended on population genetics. Conventional ecosystem ecology has added relatively few specific insights to this endeavor in spite of the well-known combined selective influence from environment. This article integrates i) recent findings in genetics (i.e.: evolutionary capacitance); ii) orthodox topics as well as recent results from a large set of models in ecosystem ecology which have recently been encompassed under the term “organic biophysics of ecosystem”; and iii) an epistemological analysis of the origin of On the Origin of Species… by reaching four main particular conclusions: (a) Despite the contemporary recognition that any kind of interspecific relationship has an evolutionary influence, the analytical emphasis of Di and MES on competition has been unwittingly oversized because of the paradoxical manner in which mutualism can emerge as an essential evolutionary force starting from competition, being this an unpublished topic that is analyzed in this manuscript by the first time. This link between two interspecific relationships that seem opposite to each other at the first glance is based on quantum effects that are totally unknown in conventional evolutionary theory due to its bias in favor of genetics, neglecting ecological considerations by contrast. (b) A holistic combination of ecological, genetic and evolutionary insights at the ecosystem level additionally confirms that the analytical role of evolutionary gradualism has also been oversized. (c) The main criterion of evolutionary success conventionally applied by Di and MES should be modified given that: (d) the preferential direction of evolutionary process theoretically proposed by Di and MES does not match with the direction of spontaneous development of natural ecosystems. The final section of this manuscript expl
ISSN:0304-3800
1872-7026
DOI:10.1016/j.ecolmodel.2017.03.029