Skip to content

A new tool for detecting changes in dynamic rules in population time series data

Notifications You must be signed in to change notification settings

cbahlai/dynamic_shift_detector

Folders and files

NameName
Last commit message
Last commit date

Latest commit

 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 
 

Repository files navigation

The Dynamic Shift Detector project

Authors/developers: Christie A. Bahlai @cbahlai and Elise F. Zipkin @ezipkin

In this repository, we develop a novel break-point analysis tool for population time series data, building on the methods described in Bahlai et al 2015, Ecological Applications. The tool uses the Ricker model as the data-generating process for a dynamic rule, iterates through all break point combinations, and uses information-theoretic decision tools (i.e. Akaike's Information Criteron) to determine best fits. In this repository we develop the tool, simulate data under a variety of conditions to demonstrate the tool, and apply the tool to two case studies: overwintering populations of monarch butterflies and invasions of multicolored Asian ladybeetle. This tool is scripted entirely in R.

File navigation

dynamic_shift_detector.R - contains functions to detect regime shifts in population time series. The function DSdetector() takes raw time series data and generates a complete report on fits, best fits, break points, and regression parameters for models with best fits

monarch_example.R - applies the dynamic shift detector analysis to monarch overwintering data from Mexico

plot_monarch_figures.R - plots output from monarch example, places outputs in figs folder

harmonia_example.R - applies the dynamic shift detector analysis to harmonia ladybeetle population data from Kellogg Biological Station. Includes data cleaning/manipulation code after Bahlai et al 2015.

plot_harmona_figures.R - plots output from harmonia example, places outputs in figs folder

simulations.R- a set of functions that creates time series data using secified parameters, and then a set of funtions to test if the parameters input match the ones detected by the dynamic shift detector, and the code that creates simulations under a variety of conditions, runs it through the comparison functions, and tallies the outputs, outputs a CSV file to the 'simresults' folder

plot_simulation_results.R - takes the simulation outputs and creates plots based on varying one input at a time to see the DSdetector's performance under differing conditions- outputs figures as PDF vector graphis to the 'figs' folder

casestudydata folder contains data for Harmonia case study. Monarch study data are proprietary

simresults folder contains simpulation output CSVs, in sets of one iteration of each case per file

figs folder PDF versions of all figs produced be scripts are held in this folder

tests folder contains a version of the RSdetector code and test data used in development

writing folder contains bits of writing, abstracts, etc, relevant to presentations and publications on this project

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.

About

A new tool for detecting changes in dynamic rules in population time series data

Topics

Resources

Stars

Watchers

Forks

Packages

No packages published

Languages