Digital Evolution for Ecology Research: A Review

Dolson, Emily; Ofria, Charles

doi:10.3389/fevo.2021.750779

Cited by 9 publications

(4 citation statements)

References 108 publications

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“…Another factor that has yet to be explored but likely plays a critical role in the emergence of adaptive dynamics is the environment's spatial structure, which mediates the range of possible interactions among its occupants. Spatial structure is also known to influence ecological and evolutionary processes both in natural (Kool et al, 2013) and artificial systems (Dolson and Ofria, 2021;Tomassini, 2005;Plum and Baum, 2022). In this work, we use an artificial ecology model to investigate how different patterns of environmental connectivity influence the probability of adaptive dynamics occurring, a property termed "transitionability" (Leither et al, 2023).…”

Section: Introductionmentioning

confidence: 99%

Environmental connectivity influences the origination of adaptive processes

Shea,

Leither,

Foreback

et al. 2024

Preprint

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Spatial structure is hypothesized to be an important factor in the origin of life, wherein encapsulated chemical reaction networks came together to form systems capable adaptive complexification via Darwinian evolution. In this work, we use a computational model to investigate how different patterns of environmental connectivity influence the emergence of adaptive processes in simulated systems of self-amplifying networks of interacting chemical reactions (autocatalytic cycles, ``ACs''). Specifically, we measured the propensity for adaptive dynamics to emerge in communities with nine distinct patterns of inter-AC interactions, across ten different patterns of environmental connectivity. We found that the pattern of connectivity can dramatically influence the emergence of adaptive processes; however, the effect of any particular spatial pattern varied across systems of ACs. Relative to a well-mixed (fully connected) environment, each spatial structure that we investigated amplified adaptive processes for at least one system of ACs and suppressed adaptive processes for at least one other system. Our findings suggest that there may be no single environment that universally promotes the emergence of adaptive processes in a system of interacting components (e.g., ACs). Instead, the ideal environment for amplifying (or suppressing) adaptive dynamics will depend on the particularities of the system.

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Section: Introductionmentioning

confidence: 99%

Environmental connectivity influences the origination of adaptive processes

Shea,

Leither,

Foreback

et al. 2024

Preprint

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“…Over the past 30 years, digital evolution research has established itself as a valuable approach in biology, bridging experimental research with computational modelling ( Ray, 1991 ). The contribution of digital evolution to the development of ecology and evolutionary biology comprises diverse topics such as robustness and evolvability ( Edlund & Adami, 2004 ; Lenski, Barrick & Ofria, 2006 ; Elena et al, 2007 ; Elena & Sanjuán, 2008 ; Fortuna et al, 2017 ), complexity ( Ray, 1997 ; Lenski et al, 1999 ; Adami, Ofria & Collier, 2000 ; Gerlee & Lundh, 2008 ; Ofria, Huang & Torng, 2008 ), phenotypic plasticity ( Clune, Ofria & Pennock, 2007 ; Lalejini et al, 2021 ; Fortuna, 2022 ), the role historical contingency in evolution ( Hagstrom et al, 2004 ; Wagenaar & Adami, 2004 ; Clune et al, 2012 ), ecological interactions among species ( Cooper & Ofria, 2003 ; Johnson & Wilke, 2004 ; Zaman, Devangam & Ofria, 2011 ; Fortuna et al, 2013 ; Zaman et al, 2014 ; Dolson & Ofria, 2021 ), gene regulatory networks ( Lenski et al, 2003 ; Edlund & Adami, 2004 ; Covert et al, 2013 ), genomic architecture ( Wilke et al, 2001 ; Knibbe et al, 2005 ; Adami, 2006 ; Knibbe et al, 2007 ; Gerlee & Lundh, 2008 ; Batut et al, 2013 ; Gupta et al, 2016 ), evolution of sex ( Chandler, Ofria & Dworkin, 2012 ), and evolution of cooperation ( Goings et al, 2004 ; Knoester, McKinley & Ofria, 2007 ; Clune et al, 2011 ), among others.…”

Section: Introductionmentioning

confidence: 99%

avidaR: an R library to perform complex queries on an ontology-based database of digital organisms

Ortega,

Fortuna

2023

PeerJ Computer Science

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Digital evolution is a branch of artificial life in which self-replicating computer programs—digital organisms—mutate and evolve within a user-defined computational environment. In spite of its value in biology, we still lack an up-to-date and comprehensive database on digital organisms resulting from evolution experiments. Therefore, we have developed an ontology-based semantic database—avidaDB—and an R package—avidaR—that provides users of the R programming language with an easy-to-use tool for performing complex queries without specific knowledge of SPARQL or RDF. avidaR can be used to do research on robustness, evolvability, complexity, phenotypic plasticity, gene regulatory networks, and genomic architecture by retrieving the genomes, phenotypes, and transcriptomes of more than a million digital organisms available on avidaDB. avidaR is already accepted on CRAN (i.e., a comprehensive collection of R packages contributed by the R community) and will make biologists better equipped to embrace the field of digital evolution.

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“…Since the pioneering work by Thomas S. Ray 1 30 years ago, digital evolution research has established itself as a valuable approach in biology, bridging experimental research with computational modelling. The contribution of digital evolution to the development of ecology and evolutionary biology comprises diverse topics such as robustness and evolvability 2 – 6 , complexity 1 , 7 – 10 , phenotypic plasticity 11 , 12 , the role historical contingency in evolution 13 – 15 , ecological interactions among species 16 – 21 , gene regulatory networks 2 , 22 , 23 , genomic architecture 9 , 24 – 26 , evolution of sex 27 , and evolution of cooperation 28 – 30 .…”

Section: Introductionmentioning

confidence: 99%

Ontology for the Avida digital evolution platform

Ortega,

Wulff,

Fortuna

2023

Sci Data

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The Ontology for Avida (OntoAvida) aims to develop an integrated vocabulary for the description of Avida, the most widely used computational approach for performing experimental evolution using digital organisms–self-replicating computer programs that evolve within a user-defined computational environment. The lack of a clearly defined vocabulary makes some biologists feel reluctant to embrace the field of digital evolution. This integrated framework empowers biologists by equipping them with the necessary tools to explore and analyze the field of digital evolution more effectively. By leveraging the vocabulary of Avida, researchers can gain deeper insights into the evolutionary processes and dynamics of digital organisms. In addition, OntoAvida allows researchers to make inference based on certain rules and constraints, facilitate the reproducibility of in silico evolution experiments and trace the provenance of the data stored in avidaDB–an RDF database containing the genomes, transcriptomes, and phenotypes of more than a million digital organisms. OntoAvida is part of the Open Biological and Biomedical Ontologies (OBO Foundry) and is available at http://www.obofoundry.org/ontology/ontoavida.html.

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Digital Evolution for Ecology Research: A Review

Cited by 9 publications

References 108 publications

Environmental connectivity influences the origination of adaptive processes

Environmental connectivity influences the origination of adaptive processes

avidaR: an R library to perform complex queries on an ontology-based database of digital organisms

Ontology for the Avida digital evolution platform

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