Exploring Soil Sample Variability through Principal Component Analysis (PCA) with SPSS Data
This workflow aims to analyze diverse soil datasets using PCA to understand physicochemical properties. The process starts with converting SPSS (.sav) files into CSV format for better compatibility. It emphasizes variable selection, data quality improvement, standardization, and conducting PCA for data variance and pattern analysis. The workflow includes generating graphical representations like covariance and correlation matrices, scree plots, and scatter plots. These tools aid in identifying significant variables, exploring data structure, and determining optimal components for effective soil analysis.
Background
Understanding the intricate relationships and patterns within soil samples is crucial for various environmental and agricultural applications. Principal Component Analysis (PCA) serves as a powerful tool in unraveling the complexity of multivariate soil datasets. Soil datasets often consist of numerous variables representing diverse physicochemical properties, making PCA an invaluable method for:
∙Dimensionality Reduction: Simplifying the analysis without compromising data integrity by reducing the dimensionality of large soil datasets.
∙Identification of Dominant Patterns: Revealing dominant patterns or trends within the data, providing insights into key factors contributing to overall variability.
∙Exploration of Variable Interactions: Enabling the exploration of complex interactions between different soil attributes, enhancing understanding of their relationships.
∙Interpretability of Data Variance: Clarifying how much variance is explained by each principal component, aiding in discerning the significance of different components and variables.
∙Visualization of Data Structure: Facilitating intuitive comprehension of data structure through plots such as scatter plots of principal components, helping identify clusters, trends, and outliers.
∙Decision Support for Subsequent Analyses: Providing a foundation for subsequent analyses by guiding decision-making, whether in identifying influential variables, understanding data patterns, or selecting components for further modeling.
Introduction
The motivation behind this workflow is rooted in the imperative need to conduct a thorough analysis of a diverse soil dataset, characterized by an array of physicochemical variables. Comprising multiple rows, each representing distinct soil samples, the dataset encompasses variables such as percentage of coarse sands, percentage of organic matter, hydrophobicity, and others. The intricacies of this dataset demand a strategic approach to preprocessing, analysis, and visualization. This workflow centers around the exploration of soil sample variability through PCA, utilizing data formatted in SPSS (.sav) files. These files, specific to the Statistical Package for the Social Sciences (SPSS), are commonly used for data analysis. To lay the groundwork, the workflow begins with the transformation of an initial SPSS file into a CSV format, ensuring improved compatibility and ease of use throughout subsequent analyses.
Incorporating PCA offers a sophisticated approach, enabling users to explore inherent patterns and structures within the data. The adaptability of PCA allows users to customize the analysis by specifying the number of components or desired variance. The workflow concludes with practical graphical representations, including covariance and correlation matrices, a scree plot, and a scatter plot, offering users valuable visual insights into the complexities of the soil dataset.
Aims
The primary objectives of this workflow are tailored to address specific challenges and goals inherent in the analysis of diverse soil samples:
∙Data transformation: Efficiently convert the initial SPSS file into a CSV format to enhance compatibility and ease of use.
∙Standardization and target specification: Standardize the dataset and designate the target variable, ensuring consistency and preparing the data for subsequent PCA.
∙PCA: Conduct PCA to explore patterns and variability within the soil dataset, facilitating a deeper understanding of the relationships between variables.
∙Graphical representations: Generate graphical outputs, such as covariance and correlation matrices, aiding users in visually interpreting the complexities of the soil dataset.
Scientific questions
This workflow addresses critical scientific questions related to soil analysis:
∙Variable importance: Identify variables contributing significantly to principal components through the covariance matrix and PCA.
∙Data structure: Explore correlations between variables and gain insights from the correlation matrix.
∙Optimal component number: Determine the optimal number of principal components using the scree plot for effective representation of data variance.
∙Target-related patterns: Analyze how selected principal components correlate with the target variable in the scatter plot, revealing patterns based on target variable values.
Default
Identification
- Date ( Publication )
- 2023-12-31T00:00:00
- Status
- On going / operational
- Version
- 1.0
- Keywords
- Soil sample variability
- Keywords
- Principal Component Analysis (PCA)
- Keywords
- Dimensionality reduction
- Keywords
- Data variance
- Keywords
- Soil datasets
- Keywords
- Physicochemical properties
- Keywords
- Data quality improvement
- Keywords
- SPSS data
- Keywords
- Covariance and correlation matrix
- Keywords
- Scree plot
- Keywords
- Scatter plot
- Keywords
- Multivariate analysis
- Keywords
- Standardization
- Keywords
- Target-related patterns
- Keywords
- Data structure exploration
- Access constraints
- Copyright
- Other constraints
- Copyright 2023 Khaos Research Group
- Protocol
- DOI
- Service Name
- SPSS to CSV
- Service Description
- Change .sav to .csv
- Service Reference (id)
- https://gitlab.lifewatch.dev/lfw002-khaos/wrapper-library/-/tree/develop/data-processing/SPSS2CSV/1.0.0
- Service Name
- Data Normalization
- Service Description
- Standardization and normalization of data
- Service Reference (id)
- https://gitlab.lifewatch.dev/lfw002-khaos/wrapper-library/-/tree/develop/data-processing/DataNormalization/1.0.0
- Service Name
- PCA
- Service Description
- PCA of soil samples
- Service Reference (id)
- https://gitlab.lifewatch.dev/lfw002-khaos/wrapper-library/-/tree/develop/data-analysing/PCAsoil/1.0.0
- Service Name
- CSV to HTML
- Service Description
- Transform a CSV table to HTML
- Service Reference (id)
- https://gitlab.lifewatch.dev/lfw002-khaos/wrapper-library/-/tree/develop/data-sink/CorrelationMatrixHeatmap/1.0.0
- Service Name
- PCA Plot
- Service Description
- It represents a plot from the PCA CSV
- Service Reference (id)
- https://gitlab.lifewatch.dev/lfw002-khaos/wrapper-library/-/tree/develop/data-sink/PCAplot/1.0.0
- Service Name
- Scree Plot
- Service Description
- It represents the variance array of dataset variables
- Service Reference (id)
- https://gitlab.lifewatch.dev/lfw002-khaos/wrapper-library/-/tree/develop/data-sink/ScreePlot/1.0.0
- Service Name
- Correlation Matrix Heatmap
- Service Description
- It represents the correlation matrix of dataset variables
- Service Reference (id)
- https://gitlab.lifewatch.dev/lfw002-khaos/wrapper-library/-/tree/develop/data-processing/CSV2HTML/1.0.0
- Workflow Helpdesk
- https://helpdesk.lifewatch.eu