Mercurial > repos > greg > insect_phenology_model
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| author | greg |
|---|---|
| date | Mon, 25 Nov 2019 14:12:07 -0500 |
| parents | 393085589438 |
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<tool id="insect_phenology_model" name="Insect phenology model" version="1.2.0"> <description>expressing stage-specific phenology and population dynamics</description> <requirements> <requirement type="package" version="1.4.4">r-optparse</requirement> </requirements> <command detect_errors="exit_code"><![CDATA[ #import os #set output_data_dir = "output_data_dir" #set output_plots_dir = "output_plots_dir" #set error_file = $os.path.join($output_data_dir, "04_combined_generations.csv") #set life_stages = list() #set plot_adult_life_stage = $plot_adult_life_stage_cond.plot_adult_life_stage #set plot_nymph_life_stage = $plot_nymph_life_stage_cond.plot_nymph_life_stage #if str($plot_egg_life_stage) == "yes": $life_stages.append("Egg") #end if #if str($plot_nymph_life_stage) == "yes": $life_stages.append("Nymph") #end if #if str($plot_adult_life_stage) == "yes": $life_stages.append("Adult") #end if #if str($plot_egg_life_stage) == "yes" and str($plot_nymph_life_stage) == "yes" and str($plot_adult_life_stage) == "yes": $life_stages.append("Total") #end if #set life_stages = ",".join($life_stages) mkdir output_data_dir && mkdir output_plots_dir && Rscript '$__tool_directory__/insect_phenology_model.R' --adult_mortality $adult_mortality --adult_accumulation $adult_accumulation --egg_mortality $egg_mortality #if str($merge_ytd_temperature_data_cond.merge_ytd_temperature_data) == "yes": --input_ytd '$merge_ytd_temperature_data_cond.input_ytd' --location '$merge_ytd_temperature_data_cond.location' --num_days_ytd $merge_ytd_temperature_data_cond.input_ytd.metadata.data_lines #end if --input_norm '$input_norm' --insect '$insect' --insects_per_replication $insects_per_replication --life_stages '$life_stages' #if str($plot_adult_life_stage) == "yes": --life_stages_adult '$plot_adult_life_stage_cond.life_stages_adult' #end if #if str($plot_nymph_life_stage) == "yes": --life_stages_nymph '$plot_nymph_life_stage_cond.life_stages_nymph' #end if --max_clutch_size $max_clutch_size --min_clutch_size $min_clutch_size --nymph_mortality $nymph_mortality --old_nymph_accumulation $old_nymph_accumulation --oviposition $oviposition --photoperiod $photoperiod --plot_generations_separately $plot_generations_separately --plot_std_error $plot_std_error --replications $replications --script_dir '$__tool_directory__' --young_nymph_accumulation $young_nymph_accumulation &>ipm_log.txt; if [[ $? -ne 0 ]]; then cp ipm_log.txt '$error_file'; exit 1; fi]]></command> <inputs> <param name="input_norm" type="data" format="csv" label="30 year normals temperature data"> <validator type="expression" message="30 year normals temperature data must have 10 columns and 366 rows">value is not None and value.metadata.columns==10 and value.metadata.data_lines==366</validator> </param> <conditional name="merge_ytd_temperature_data_cond"> <param name="merge_ytd_temperature_data" type="select" label="Merge daily actuals temperature data with 30 year normals temperature data?"> <option value="yes" selected="true">Yes</option> <option value="no">No</option> </param> <when value="yes"> <param name="input_ytd" type="data" format="csv" label="Daily actuals temperature data"> <validator type="expression" message="Daily actuals temperature data must have 6 columns">value is not None and value.metadata.columns==6</validator> </param> <param name="location" type="text" value="" optional="true" label="Location" help="Enter the location or leave blank to use the station name from 30 year normals data."/> </when> <when value="no"/> </conditional> <param name="insect" type="select" label="Select insect"> <option value="BMSB" selected="True">Brown Marmorated Stink Bug</option> </param> <param name="replications" type="integer" value="5" min="2" label="Number of replications"/> <param name="insects_per_replication" type="integer" value="1000" min="100" label="Number of insects with which to start each replication"/> <param name="photoperiod" type="float" value="13.5" min="0" label="Critical photoperiod for diapause induction/termination"/> <param name="egg_mortality" type="float" value="1" min="0" max="1" label="Adjustment rate for egg mortality" help="Floating point value between 0 and 1"/> <param name="nymph_mortality" type="float" value="1" min="0" label="Adjustment rate for nymph mortality"/> <param name="adult_mortality" type="float" value="1" min="0" label="Adjustment rate for adult mortality"/> <param name="oviposition" type="float" value="1" min="0" label="Adjustment oviposition rate"/> <param name="min_clutch_size" type="float" value="0" min="0" label="Adjustment of minimum clutch size"/> <param name="max_clutch_size" type="float" value="0" min="0" label="Adjustment of maximum clutch size"/> <param name="young_nymph_accumulation" type="float" value="0" min="0" label="Adjustment of degree-days accumulation (egg->young nymph)"/> <param name="old_nymph_accumulation" type="float" value="0" min="0" label="Adjustment of degree-days accumulation (young nymph->old nymph)"/> <param name="adult_accumulation" type="float" value="0" min="0" label="Adjustment of degree-days accumulation (old nymph->adult)"/> <param name="plot_generations_separately" type="select" label="Plot generations separately?"> <option value="yes" selected="True">Yes</option> <option value="no">No</option> </param> <param name="plot_egg_life_stage" type="select" label="Plot egg life stage?"> <option value="yes" selected="true">Yes</option> <option value="no">No</option> </param> <conditional name="plot_nymph_life_stage_cond"> <param name="plot_nymph_life_stage" type="select" label="Plot nymph life stage?"> <option value="yes" selected="true">Yes</option> <option value="no">No</option> </param> <when value="yes"> <param name="life_stages_nymph" type="select" multiple="true" label="Select nymph life stage"> <option value="Total" selected="true">All</option> <option value="Young">Young</option> <option value="Old">Old</option> </param> </when> <when value="no"/> </conditional> <conditional name="plot_adult_life_stage_cond"> <param name="plot_adult_life_stage" type="select" label="Plot adult life stage?"> <option value="yes" selected="true">Yes</option> <option value="no">No</option> </param> <when value="yes"> <param name="life_stages_adult" type="select" multiple="true" label="Select adult life stage"> <option value="Total" selected="true">All</option> <option value="Pre-vittelogenic">Pre-vittelogenic</option> <option value="Vittelogenic">Vittelogenic</option> <option value="Diapausing">Diapausing</option> </param> </when> <when value="no"/> </conditional> <param name="plot_std_error" type="select" label="Plot standard error?"> <option value="yes" selected="True">Yes</option> <option value="no">No</option> </param> </inputs> <outputs> <collection name="output_data_collection" type="list" label="${tool.name} (data), on ${on_string}"> <discover_datasets pattern="__name__" directory="output_data_dir" format="csv"/> </collection> <collection name="output_plots_collection" type="list" label="${tool.name} (plots), on ${on_string}"> <discover_datasets pattern="__name__" directory="output_plots_dir" format="pdf"/> </collection> </outputs> <tests> <test> <param name="input_norm" value="30_year_normals.csv" ftype="csv"/> <param name="merge_ytd_temperature_data" value="no"/> <param name="replications" value="2"/> <param name="plot_generations_separately" value="no"/> <param name="plot_egg_life_stage" value="no"/> <param name="life_stages_nymph" value="Young"/> <param name="life_stages_adult" value="Pre-vittelogenic"/> <output_collection name="output_data_collection" type="list"> <element name="04_combined_generations.csv" file="output_combined1.csv" ftype="csv" compare="contains"/> </output_collection> <output_collection name="output_plots_collection" type="list"> <element name="02_young_nymph_pop.pdf" file="plot.pdf" ftype="pdf" compare="contains"/> <element name="05_pre-vittelogenic_adult_pop.pdf" file="plot.pdf" ftype="pdf" compare="contains"/> </output_collection> </test> <test> <param name="input_norm" value="30_year_normals.csv" ftype="csv"/> <param name="input_ytd" value="state_college_partial.csv" ftype="csv"/> <param name="location" value="State College PA"/> <param name="replications" value="2"/> <param name="plot_generations_separately" value="no"/> <param name="plot_egg_life_stage" value="no"/> <param name="life_stages_nymph" value="Young"/> <param name="life_stages_adult" value="Pre-vittelogenic"/> <output_collection name="output_data_collection" type="list"> <element name="04_combined_generations.csv" file="output_combined1.csv" ftype="csv" compare="contains"/> </output_collection> <output_collection name="output_plots_collection" type="list"> <element name="02_young_nymph_pop.pdf" file="plot.pdf" ftype="pdf" compare="contains"/> <element name="05_pre-vittelogenic_adult_pop.pdf" file="plot.pdf" ftype="pdf" compare="contains"/> </output_collection> </test> <test> <param name="input_norm" value="30_year_normals.csv" ftype="csv"/> <param name="input_ytd" value="state_college_ytd.csv" ftype="csv"/> <param name="location" value="State College PA"/> <param name="replications" value="2"/> <param name="plot_generations_separately" value="no"/> <output_collection name="output_data_collection" type="list"> <element name="04_combined_generations.csv" file="output_combined2.csv" ftype="csv" compare="contains"/> </output_collection> <output_collection name="output_plots_collection" type="list"> <element name="01_egg_pop.pdf" file="plot.pdf" ftype="pdf" compare="contains"/> <element name="04_total_nymph_pop.pdf" file="plot.pdf" ftype="pdf" compare="contains"/> <element name="08_total_adult_pop.pdf" file="plot.pdf" ftype="pdf" compare="contains"/> <element name="09_total_pop.pdf" file="plot.pdf" ftype="pdf" compare="contains"/> </output_collection> </test> <test> <param name="input_norm" value="30_year_normals.csv" ftype="csv"/> <param name="input_ytd" value="state_college_partial.csv" ftype="csv"/> <param name="location" value="State College PA"/> <param name="replications" value="2"/> <param name="plot_egg_life_stage" value="no"/> <param name="life_stages_nymph" value="Old"/> <param name="plot_adult_life_stage" value="no"/> <output_collection name="output_data_collection" type="list"> <element name="01_generation_P.csv" file="output_p_3.csv" ftype="csv" compare="contains"/> <element name="02_generation_F1.csv" file="output_f1_3.csv" ftype="csv" compare="contains"/> <element name="03_generation_F2.csv" file="output_f2_3.csv" ftype="csv" compare="contains"/> <element name="04_combined_generations.csv" file="output_combined3.csv" ftype="csv" compare="contains"/> </output_collection> <output_collection name="output_plots_collection" type="list"> <element name="03_old_nymph_pop_by_generation.pdf" file="plot.pdf" ftype="pdf" compare="contains"/> </output_collection> </test> <test> <param name="input_norm" value="30_year_normals.csv" ftype="csv"/> <param name="input_ytd" value="state_college_ytd.csv" ftype="csv"/> <param name="location" value="State College PA"/> <param name="replications" value="2"/> <output_collection name="output_data_collection" type="list"> <element name="01_generation_P.csv" file="output_p_4.csv" ftype="csv" compare="contains"/> <element name="02_generation_F1.csv" file="output_f1_4.csv" ftype="csv" compare="contains"/> <element name="03_generation_F2.csv" file="output_f2_4.csv" ftype="csv" compare="contains"/> <element name="04_combined_generations.csv" file="output_combined4.csv" ftype="csv" compare="contains"/> </output_collection> <output_collection name="output_plots_collection" type="list"> <element name="01_egg_pop_by_generation.pdf" file="plot.pdf" ftype="pdf" compare="contains"/> <element name="04_total_nymph_pop_by_generation.pdf" file="plot.pdf" ftype="pdf" compare="contains"/> <element name="08_total_adult_pop_by_generation.pdf" file="plot.pdf" ftype="pdf" compare="contains"/> <element name="09_total_pop_by_generation.pdf" file="plot.pdf" ftype="pdf" compare="contains"/> </output_collection> </test> </tests> <help> **What it does** Provides an agent-based stochastic model expressing stage-specific phenology and population dynamics for an insect species across geographic regions. ----- **Required options** * **30 year normals temperature data** - the dataset from your history containing the 30-year normals temperature data (available at http://pestwatch.psu.edu/ghcn). * **Merge year-to-date temperature data with 30 year normals temperature data** - select Yes to merge a year-to-date temperature dataset from your history into the selected 30 year normals temperature data. * **Daily actuals temperature data** - the dataset from your history containing the daily actuals temperature data (available at http://pestwatch.psu.edu/minmax). * **Location** - the location associated with the selected temperature data. * **Select insect** - currently only the Brown Marmorated Stink Bug can be analyzed. * **Number of replications** - number of replications. * **Number of insects with which to start each replication** - the analysis for each replication will start with this number of insects. * **Critical photoperiod for diapause induction/termination** - critical photoperiod for diapause induction/termination. * **Adjustment rate for egg mortality** - adjustment rate for egg mortality. * **Adjustment rate for nymph mortality** - adjustment rate for nymph mortality. * **Adjustment rate for adult mortality** - adjustment rate for adult mortality. * **Adjustment oviposition rate** - adjustment oviposition rate. * **Adjustment of minimum clutch size** - adjustment of minimum clutch size. * **Adjustment of maximum clutch size** - adjustment of maximum clutch size * **Adjustment of degree-days accumulation (egg->young nymph)** - adjustment of degree-days accumulation (egg->young nymph). * **Adjustment of degree-days accumulation (young nymph->old nymph)** - adjustment of degree-days accumulation (young nymph->old nymph). * **Adjustment of degree-days accumulation (old nymph->adult)** - adjustment of degree-days accumulation (old nymph->adult). * **Plot generations separately** - select "Yes" to plot P, F1 and F2 as separate lines or "no" to pool across generations, resulting in a total for the selected life states. * **Plot egg life stage** - select "Yes" to plot the egg life stage. If all life stages (egg, nymph and adult) are selected for plotting, one output for the total will be produced. * **Plot nymph life stage** - select "Yes" to plot the nymph life stage. If all life stages (egg, nymph and adult) are selected for plotting, one output for the total will be produced. * **Select nymph life stage** - select the nymph life stage for plotting. * **Plot adult life stage** - select "Yes" to plot the adult life stage. If all life stages (egg, nymph and adult) are selected for plotting, one output for the total will be produced. * **Select adult life stage** - select the adult life stage for plotting. * **Plot standard error** - add standard error lines to plot. </help> <citations> <citation type="doi">10.3389/fphys.2016.00165</citation> <citation type="doi">10.1175/JTECH-D-11-00103.1</citation> <citation type="doi">10.7289/V5D21VHZ</citation> </citations> </tool>