Draft:Food Web Modeling

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A food web model is a simplified version of the interactions between organisms and their ecosystem. Ultimately depicting how everything in an ecosystem is interconnected, changing one aspect of the model affects all other components, just on different scales. These differ from simple food chains, as they follow more than one organisms' path or eating habits. Food web modeling involves more complex processes that go beyond just the energy transfer between trophic levels we see in a typical food web graphic. ^{[Food Web Modeling 1]}

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Modeling in general, can be very useful for oceanographic researchers as we have limited resources when it comes to collecting data over large spatial and temporal scales. By using a model, researchers can take the relatively "small" amount of accessible data in order to make predictions in regards to large scales problems.^{[Food Web Modeling 2]} It is important to note that while, models are highly useful tools they also included uncertainties and probabilities. They are but a snapshot of reality that allows humans to pull out useful information, such as patterns in shark feeding habits. Models are make assumptions, and are therefore limited.^{[Food Web Modeling 3]} To check a model's accuracy researchers can compare to baseline data or other models.

Food web models can be used to support ocean research and ecosystem management in many ways by creating a possible picture of an ecosystem. Scientists can use this picture to predict changes in the environment after a disturbance, such as hurricanes and other storms. These models can be used to help protect specific marine animals by showing how an individual species is likely to be affected in different scenarios. Lastly, food web models allow scientists to better understand the health of the whole oceanic ecosystem.

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Food web models can take on many different forms. They may be in the form of a mathematical equation. They may be represented by a physical model, such as an experimental tank filled with various components of a real marine food web. Simulation software is a heavily utilized form for food web models as they can be adapted to test various issues on a food web. Simulated food web models however require a great deal of data on multiple aspects of an ecosystem, which can take a great deal of time, money, and cooperation amongst researchers. Most model variations fall under two main categories: deterministic or stochastic models. Deterministic models are based on known values and inputs that can be used to make predictions about a system. While stochastic models use random or unknown values to model a system. A brief list of examples of models used to examine food web dynamics are listed below. ^{[Food Web Models 1]}

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Food Web Model Techniques 1) Simple Linear Regression a. Mathematical model

       b. Used to look at the relationship between two variables (an independent and dependent 
          variable)[Food Web Modeling 4]

2) NPZD a. Nutrients-Phytoplankton - Zooplankton - Detritus b. Typical oceanographic food web model c. Variables are the stocks of N, P, Z, and D d. The relationships amongst these stocks are expressed as equations e. Can compare against observational data or place into more complex models^{[Food Web Modeling 5]} 3) ERSEM a. European Region Seas Ecosystem Model

       b. Incorporates marine biogeochemical cycles into an ecosystem model
       c. Aids in describing nutrient cycles in open ocean and benthic systems[Food Web Modeling 6]

4) ECOPATH 5) Simulations a. When mathematical equations are not an option to describe natural systems 6) Individual Based (IBMs) a. Track individuals and their behaviors b. Simulate how individual traits impact communities

       c. Often used to model endangered populations[Food Web Modeling 7]

• upload image from link below

https://pml.ac.uk/wp-content/uploads/2021/10/ERSEM-Schematic-5.png

Applications of Models • Management plans • Research approaches • Test hypotheses • Compare model to field data • Simulate potential outcomes • Identify relationships between parts of a system • Synthesize data

   • Make predictions

Cite error: There are <ref group=Food Web Modeling> tags on this page, but the references will not show without a {{reflist|group=Food Web Modeling}} template (see the help page).
Cite error: There are <ref group=Food Web Models> tags on this page, but the references will not show without a {{reflist|group=Food Web Models}} template (see the help page).