Theory in Biosciences

Papers
(The TQCC of Theory in Biosciences is 3. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2020-04-01 to 2024-04-01.)
ArticleCitations
A reaction norm perspective on reproducibility16
Modelling and optimal control for Chikungunya disease14
Historicity at the heart of biology12
Consciousness, decision making, and volition: freedom beyond chance and necessity12
Biological information9
Innovations are disproportionately likely in the periphery of a scientific network8
Quantifying the impact of network structure on speed and accuracy in collective decision-making8
Modeling the stochastic within-host dynamics SARS-CoV-2 infection with discrete delay7
The biological Maxwell's demons: exploring ideas about the information processing in biological systems7
Effects of water currents on fish migration through a Feynman-type path integral approach under $$\sqrt{8/3}$$ Liouville-like quantum gravity surfaces7
Mathematical computations on epidemiology: a case study of the novel coronavirus (SARS-CoV-2)7
Biology, geometry and information6
The essence of life revisited: how theories can shed light on it5
Network representation and analysis of energy coupling mechanisms in cellular metabolism by a graph-theoretical approach5
Edge-based analysis of networks: curvatures of graphs and hypergraphs5
Optimal harvesting and stability of a predator–prey model for fish populations with schooling behavior5
Path integral control of a stochastic multi-risk SIR pandemic model5
The historical nature of biological complexity and the ineffectiveness of the mathematical approach to it5
Descriptive versus causal morphology: gynandromorphism and intersexuality4
Flow analysis of Carreau fluid model induced by the ciliary cells, smooth muscle cells and pressure gradient at the ampullar region entrance4
How much biology is in the product? Role and relevance of biological evolution and function for bio-inspired design4
Pattern formation features might explain homoplasy: fertile surfaces in higher fungi as an example4
Hypothesis: nucleoid-associated proteins segregate with a parental DNA strand to generate coherent phenotypic diversity3
Second-order division in sectors as a prepattern for sensory organs in vertebrate development3
Informational architecture across non-living and living collectives3
Clustering systems of phylogenetic networks3
Prebiotic chemical refugia: multifaceted scenario for the formation of biomolecules in primitive Earth3
Nutrient supply, cell spatial correlation and Gompertzian tumor growth3
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