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Python Package for Visualization of Water Geochemistry Data

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Introduction

WQChartPy is an an open-source Python package for producing most of the graphical diagrams for visualization of water geochemistry data. Utilizing the commonly used file formats such as Microsoft Excel, comma-separated values (CSV), and general delimited Text as the input data format, WQChartPy can produce twelve geochemical diagrams including not only the traditional Piper trilinear, Durov, Chadha, Stiff, Chernoff face, Schoeller, Gibbs, and Gaillardet diagram, but also the recently proposed diagrams such as the rectangle Piper, color-coded Piper, contour-filled Piper, and HFE-D diagrams that have not been implemented in previous software.

This is the first release of WQChartPy. As a Python-based cross platform program, WQChartPy works on Windows, MacOS X and GNU/Linux. We provided a self-contained Jupyter notebook file to illustrate how to use WQChartPy. Users with a little Python experience can do the whole process from data to the graphical diagrams. Buidling on the oldest and most popular Python plotting library Matplotlib, the figures generated by WQChartPy can be saved as portable network graphics (PNG), scalable vector graphics (SVG) or portable document format (PDF). WQChartPy is an open-source project and any assistance is welcomed. Please email the development team if you want to contribute.

The repository contains:

+-- data                                         
¦ +-- data_template.csv                      # Example water geochemsitry dataset taken from Ray et al. 2014 in CSV foramt 
¦ +-- data_template.xlsx                     # Example water geochemsitry dataset taken from Ray et al. 2014 in MS Excel foramt 
¦ +-- data_template.txt                      # Example water geochemsitry dataset taken from Ray et al. 2014 in Tab delimited Text format
¦ +-- data_Liu_et_al_2021.csv                # Example water geochemsitry dataset taken from Liu et al. 2021 in CSV format
¦ +-- data_Yang_et_al_2021.csv               # Example water geochemsitry dataset taken from Yang et al. 2020 in CSV format
¦ +-- data_Moreno_Merino_et_al_2021.csv      # Example water geochemsitry dataset taken from Moreno Merino et al. 2021 in CSV format
+-- examples         
¦ +-- example_data_template.ipynb            # Jupyter notebook to illustrate how to use WQChartPy by using dataset taken from Ray et al. 2014
¦ +-- example_Liu_et_al_2021.ipynb           # Jupyter notebook  illustrate how to use WQChartPy by using dataset taken from Liu et al. 2021
¦ +-- example_Moreno_Merino_et_al_2021.ipynb # Jupyter notebook  to illustrate how to use WQChartPy by using dataset taken from Moreno Merino et al. 2021
¦ +-- example_Yang_et_al_2020.ipynb          # Jupyter notebook  to illustrate how to use WQChartPy by using dataset taken from Yang et al. 2020
+-- papers
¦ +-- Chadha-1999-A proposed ...             # Reference for Chadha diagram    
¦ +-- ...                                    # ... 
¦ +-- Ray-2008-Reproducing the ...           # Reference for rectangle Piper diagram    
+-- wqchartpy
¦ +-- BivariateColourScheme.npy              # NumPy ndarray object used to for the background color scheme
¦ +-- __init__.py                            # Common script used in the regular package  
¦ +-- chadha.py                              # Code for generating the Chadha diagram
¦ +-- chernoff.py                            # Code for generating Chernoff faces
¦ +-- color_piper.py                         # Code for generating color-coded Piper diagram
¦ +-- contour_piper.py                       # Code for generating contour-filled Piper diagram
¦ +-- durvo.py                               # Code for generating Durvo diagram
¦ +-- gaillardet.py                          # Code for generating Gaillardet diagram
¦ +-- gibss.py                               # Code for generating Gibbs diagram
¦ +-- hfed.py                                # Code for generating HFE-D diagram
¦ +-- ions.py                                # Code for defining the ion weights and charges
¦ +-- rectangle_piper.py                     # Code for generating rectangle diagram
¦ +-- schoeller.py                           # Code for generating Schoeller diagram
¦ +-- stiff.py                               # Code for generating Stiff diagram
¦ +-- triangle_piper.py                      # Code for generating triangle Piper diagram
+-- LICENCE                                  # Licence file
+-- MANIFEST.in                              # Adding BivariateColourScheme.npy to the source distribution 
+-- README.md                                # Readme file
+-- setup.py                                 # Centre script for installing this package

Installation

WQChartPy requires Python 3.7 (or higher). We recommend using Anaconda on Windows or Linux platforms.

The easiest way to install is via pip:

To install WQChartPy type:

pip install wqchartpy

To update WQChartPy type:

pip install wqchartpy --upgrade

To uninstall WQChartPy type:

pip uninstall wqchartpy

Another way is to manually install WQChartPy with setup.py. Preliminary steps to take:

1. Download the package and extract it into a local directory

2. cd into the root directory where setup.py is located using an Anaconda Prompt

3. Enter: python setup.py install

Requirements:

How to use

We recommend to start by executing the workflow provided in the examples folder.

Diagram Basic usage
Triangle Piper from wqchartpy import triangle_piper; triangle_piper.plot(df, unit, figname, figformat)
Rectangle Piper from wqchartpy import rectangle_piper; rectangle_piper.plot(df, unit, figname, figformat)
Color-coded Piper from wqchartpy import color_piper; color_piper.plot(df, unit, figname, figformat)
Contour-filled Piper from wqchartpy import contour_piper; contour_piper.plot(df, unit, figname, figformat)
Durov from wqchartpy import durvo; durvo.plot(df, unit, figname, figformat)
Stiff from wqchartpy import stiff; stiff.plot(df, unit, figname, figformat)
Chernoff face from wqchartpy import chernoff; chernoff.plot(df, unit, figname, figformat)
Schoeller from wqchartpy import schoeller; schoeller.plot(df, unit, figname, figformat)
Gibbs from wqchartpy import gibbs; gibbs.plot(df, unit, figname, figformat)
Chadha from wqchartpy import chadha; chadha.plot(df, unit, figname, figformat)
Gaillardet from wqchartpy import gaillardet; gaillardet.plot(df, unit, figname, figformat)
HFE-D from wqchartpy import hfed; hfed.plot(df, unit, figname, figformat)

Triangle Piper

Triangle Piper with color varying across TDS values

Rectangle Piper

Color-coded Piper

Contour-filled Piper

Durvo

Stiff

Chernoff face

Schoeller

Gibbs

Chadha

Gaillardet

HFE-D

How to cite

Yang, J., Liu, H., Tang, Z., Peeters, L. and Ye, M. (2022), Visualization of Aqueous Geochemical Data Using Python and WQChartPy. Groundwater. https://doi.org/10.1111/gwat.13185

License

WQChartPy is distributed under the GNU General Public License v3.0. See the LICENSE file for details.

Contributing to WQChartPy

Users are welcome to submit bug reports, feature requests, and code contributions to this project through GitHub or mail to us at [email protected].

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