Competitive exclusion and limiting similarity: A unified theory
From MaRDI portal
Publication:2489983
DOI10.1016/j.tpb.2005.07.001zbMath1085.92048OpenAlexW2062626613WikidataQ81390127 ScholiaQ81390127MaRDI QIDQ2489983
Mats Gyllenberg, Liz Pásztor, Géza Meszéna, J. A. J. (Hans) Metz
Publication date: 28 April 2006
Published in: Theoretical Population Biology (Search for Journal in Brave)
Full work available at URL: http://pure.iiasa.ac.at/id/eprint/7796/1/IR-05-040.pdf
linear modeltensor calculusCoexistenceLimiting similarityCompetitive exclusionnonlinear generalizationsNichePopulation regulation
Related Items
Evolutionary branching of virulence in a single-infection model, Ideal free distribution of metabolic activity: implications of seasonal metabolic-activity patterns on competitive coexistence, Limiting similarity and niche theory for structured populations, When the exception becomes the rule: the disappearance of limiting similarity in the Lotka-Volterra model, How geographic productivity patterns affect food-web evolution, Plant competition and exclusion with optimizing individuals, Limiting similarity, species packing, and the shape of competition kernels, Geometrical envelopes: extending graphical contemporary niche theory to communities and eco-evolutionary dynamics, Evolutionary branching under multi-dimensional evolutionary constraints, A guideline to study the feasibility domain of multi-trophic and changing ecological communities, Dispersal polymorphism in stable habitats, Evolution of dispersal under variable connectivity, A rigorous model study of the adaptive dynamics of Mendelian diploids, Stability and robustness analysis for a multispecies chemostat model with delays in the growth rates and uncertainties, Harnessing uncertainty to approximate mechanistic models of interspecific interactions, Quantifying the likelihood of co-existence for communities with asymmetric competition, \textit{TPB} and the invasion of adaptive dynamics, What life cycle graphs can tell about the evolution of life histories, Quasi-local competition in stage-structured metapopulations: a new mechanism of pattern formation, Global stability for a model of competition in the chemostat with microbial inputs, A construction method to study the role of incidence in the adaptive dynamics of pathogens with direct and environmental transmission, Diversity as a product of inter-specific interactions, Fixed point sensitivity analysis of interacting structured populations, Cascading extinctions, functional complementarity, and selection in two-trophic-level model communities: a trait-based mechanistic approach, Adaptive dynamics for physiologically structured population models, Coexistence in a fluctuating environment by the effect of relative nonlinearity: a minimal model, The eco-evolutionary modelling of populations and their traits using a measure of trait differentiation, Species competition: coexistence, exclusion and clustering, Unlimited niche packing in a Lotka-Volterra competition game, Selection Theorem for Systems with Inheritance, Evolution of specialization in resource utilization in structured metapopulations, Spatial instabilities untie the exclusion-principle constraint on species coexistence, Self-extinction through optimizing selection, Environmental dimensionality determines species coexistence, Parasitic plasmid-host dynamics and host competition in flowing habitats, Construction of multiple trade-offs to obtain arbitrary singularities of adaptive dynamics, On the impossibility of coexistence of infinitely many strategies, Frequency dependence 3.0: an attempt at codifying the evolutionary ecology perspective, Adaptive dynamics of saturated polymorphisms
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Steady-state analysis of structured population models
- On the impossibility of coexistence of infinitely many strategies
- How should resources be counted?
- Time scale of resource dynamics and coexistence through time partitioning
- Evolutionary dynamics of seed size and seedling competitive ability
- Competitive exclusion and coexistence of species with complex life cycles
- Multispecies competition in variable environments
- On the formulation and analysis of general deterministic structured population models. II. Nonlinear theory
- Robustness of optimal mixed strategies
- On the formulation and analysis of general deterministic structured population models. I: Linear theory
- The evolution of resource use
- General theory of competitive coexistence in spatially-varying environments.
- Coexistence of temporally segregated competitors in a cyclic environment
- Optimal mixed strategies in stochastic environments
- Lyapunov exponents and the mathematics of invasion in oscillatory or chaotic populations
- The dynamical theory of coevolution: A derivation from stochastic ecological processes
- Coexistence of two types on a single resource in discrete time
- SOME GENERALIZED THEOREMS OF NATURAL SELECTION
- A Mathematical Theory for Single-Nutrient Competition in Continuous Cultures of Micro-Organisms
- Adaptive Dynamics in a 2-Patch Environment: A Toy Model for Allopatric and Parapatric Speciation
- Chaotic advection, diffusion, and reactions in open flows
- Chaotic flow: The physics of species coexistence
- Metabolic network dynamics in open chaotic flow
