1. Analysis of hydrological data with correlation matrices: technical implementation and possible applications
- Author
-
Steffen Birk, Matthew B. Switanek, and Johannes Christoph Haas
- Subjects
010504 meteorology & atmospheric sciences ,0208 environmental biotechnology ,Soil Science ,02 engineering and technology ,computer.software_genre ,01 natural sciences ,Data type ,Correlation ,Software ,Data logger ,Environmental engineering science ,Environmental Chemistry ,0105 earth and related environmental sciences ,Earth-Surface Processes ,Water Science and Technology ,computer.programming_language ,Global and Planetary Change ,business.industry ,Geology ,Python (programming language) ,Pollution ,020801 environmental engineering ,Visualization ,Data quality ,Data mining ,business ,computer - Abstract
Changing political frameworks in addition to novel and more cost-effective means to investigate the subsurface have led to an increase in the availability of hydrological data. This wealth of data, however, poses new challenges in effectively making use of it. Traditional tools such as spreadsheets or proprietary datalogger software often do not scale easily with a larger amount of available datasets, requiring considerable user interaction. Also, comparing different locations and types of data can be difficult and tedious. Thus, a python script is presented that enables the user to quickly visualize and compare different types of data such as for example groundwater levels or precipitation amounts. This is done by first standardizing the data using different drought indices and, subsequently, visualization of correlation matrices or plots of data on maps. This approach can be used for data quality control (identifying erroneous data, classifying data into different types), data comparison (comparing different types of data, such as groundwater and precipitation; comparing different locations) and to visualize and analyze the development of hydrological data and their correlation patterns over time. Prospects and limitations of the approach are illustrated and discussed using various example applications.
- Published
- 2018