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RESEARCH PRODUCT
A New Method to Reconstruct Quantitative Food Webs and Nutrient Flows from Isotope Tracer Addition Experiments
Steven A. ThomasAlexander S. FleckerAndrés López-sepulcreAndrés López-sepulcreAndrés López-sepulcreSarah M. CollinsRana W. El-sabaawiMatthieu Bruneauxsubject
HydrologyFood ChainModels StatisticalLightNitrogen IsotopesIsotopeNitrogenWaterPlantsMarkov ChainsTrinidad and TobagoNutrientRiversTRACERAmmonium CompoundsAnimalsEnvironmental scienceEcosystem ecologyEcosystemEcology Evolution Behavior and Systematicsdescription
Understanding how nutrients flow through food webs is central in ecosystem ecology. Tracer addition experiments are powerful tools to reconstruct nutrient flows by adding an isotopically enriched element into an ecosystem and tracking its fate through time. Historically, the design and analysis of tracer studies have varied widely, ranging from descriptive studies to modeling approaches of varying complexity. Increasingly, isotope tracer data are being used to compare ecosystems and analyze experimental manipulations. Currently, a formal statistical framework for analyzing such experiments is lacking, making it impossible to calculate the estimation errors associated with the model fit, the interdependence of compartments, and the uncertainty in the diet of consumers. In this article we develop a method based on Bayesian hidden Markov models and apply it to the analysis of
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2020-06-01 | The American Naturalist |