conceptual model

(noun)

a model that is represented by conceptual representations of the relationships between different organisms in a community and their environment

Related Terms

Examples of conceptual model in the following topics:

  • Modeling Ecosystem Dynamics

    • Conceptual models describe ecosystem structure, while analytical and simulation models use algorithms to predict ecosystem dynamics.
    • Conceptual models are usually depicted graphically as flow charts.
    • Conceptual models are limited; they poorly predict the consequences of changes in ecosystem species and/or environment.
    • This conceptual model shows the flow of energy through a spring ecosystem in Silver Springs, Florida.
    • Compare and contrast conceptual, analytical, and simulation models of ecosystem dynamics

  • Studying Ecosystem Dynamics

    • Many different models are used to study ecosystem dynamics, including holistic, experimental, conceptual, analytical, and simulation models.
    • Three basic types of ecosystem modeling are routinely used in research and ecosystem management: conceptual models, analytical models, and simulation models.
    • A conceptual model consists of flow charts to show interactions of different compartments of the living and nonliving components of the ecosystem.
    • A conceptual model describes ecosystem structure and dynamics and shows how environmental disturbances affect the ecosystem, although its ability to predict the effects of these disturbances is limited.
    • Differentiate between conceptual, analytical, and simulation models of ecosystem dynamics, and mesocosm and microcosm research studies

  • Productivity within Trophic Levels

    • This conceptual model shows the flow of energy through a spring ecosystem in Silver Springs, Florida.

  • Web, Network, and Ring of Life Models

    • To more accurately describe the phylogenetic relationships of life, web and ring models have been proposed as updates to tree models.
    • This model is often called the "web of life."
    • However, phylogeneticists remain highly skeptical of this model.
    • In the (a) phylogenetic model proposed by W.
    • Describe the web, network, and ring of life models of phylogenetic trees

  • Limitations to the Classic Model of Phylogenetic Trees

    • The concepts of phylogenetic modeling are constantly changing causing limitations to the classic model to arise.
    • The concepts of phylogenetic modeling are constantly changing.
    • New models of these relationships have been proposed for consideration by the scientific community.
    • Many phylogenetic trees have been shown as models of the evolutionary relationship among species.
    • Classical thinking about prokaryotic evolution, included in the classic tree model, is that species evolve clonally.

  • Use of Whole-Genome Sequences of Model Organisms

    • Sequencing genomes of model organisms allows scientists to study homologous proteins in more complex eukaryotes, such as humans.
    • By 1997, the genome sequences of two important model organisms were available: the bacterium Escherichia coli K12 and the yeast Saccharomyces cerevisiae.
    • Much basic research is performed using model organisms because the information can be applied to the biological processes of genetically-similar organisms.
    • It is the most-studied eukaryotic model organism in molecular and cell biology, similar to E. coli's role in the study of prokaryotic organisms.
    • Saccharomyces cerevisiae, a yeast, is used as a model organism for studying signaling proteins and protein-processing enzymes which have homologs in humans.

  • Speciation

    • There is no reason why there might not be more than two species formed at one time except that it is less likely; multiple events can be conceptualized as single splits occurring close in time.

  • Sliding Filament Model of Contraction

    • In the sliding filament model, the thick and thin filaments pass each other, shortening the sarcomere.
    • The sliding filament model describes the process used by muscles to contract.
    • To understand the sliding filament model requires an understanding of sarcomere structure.
    • At the level of the sliding filament model, expansion and contraction only occurs within the I and H-bands.

  • Varying Rates of Speciation

    • As their ideas take shape and as research reveals new details about how life evolves, they develop models to help explain rates of speciation.
    • In terms of how quickly speciation occurs, two patterns are currently observed: the gradual speciation model and the punctuated equilibrium model.
    • In the gradual speciation model, species diverge gradually over time in small steps.
    • In the punctuated equilibrium model, a new species changes quickly from the parent species and then remains largely unchanged for long periods of time afterward.
    • This early change model is called punctuated equilibrium, because it begins with a punctuated or periodic change and then remains in balance afterward.

  • Electron Shells and the Bohr Model

    • Niels Bohr proposed an early model of the atom as a central nucleus containing protons and neutrons being orbited by electrons in shells.
    • An early model of the atom was developed in 1913 by Danish scientist Niels Bohr (1885–1962).
    • The Bohr model shows the atom as a central nucleus containing protons and neutrons with the electrons in circular orbitals at specific distances from the nucleus .
    • The Bohr model was developed by Niels Bohr in 1913.
    • In this model, electrons exist within principal shells.