Ardulake temperature profiler: An open-source, low-cost, automated monitoring system to unravel the mixing behavior of lakes

Ardulake temperature profiler: An open-source, low-cost, automated monitoring system to unravel the mixing behavior of lakes

Understanding the thermal classification of lakes based on mixing regimes is fundamental in limnology. Although this classification has traditionally been considered well-established, recent studies highlight variations in the mixing behaviors of ponds and shallow lakes. This paper introduces the Ar...

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Bibliographic Details
Main Authors: Guillermo Goyenola, Javier García-Climent
Format: Article
Language:English
Published: Elsevier 2024-12-01
Series:HardwareX
Subjects:
Temperature monitoring system
Lake mixing
Thermal stratification
Monitoring buoy
Limnology
Online Access:http://www.sciencedirect.com/science/article/pii/S2468067224001007
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Summary:Understanding the thermal classification of lakes based on mixing regimes is fundamental in limnology. Although this classification has traditionally been considered well-established, recent studies highlight variations in the mixing behaviors of ponds and shallow lakes. This paper introduces the Ardulake temperature profiler, an innovative, simple, and autonomous high-frequency temperature monitoring system designed for shallow to moderately deep lakes (3.5 to 10 m). Utilizing Arduino technology and GPRS telemetry, the system is cost-effective, with electronic components and sensors costing approximately USD 250 and buoy construction and deployment around USD 1000. The Ardulake enables real-time environmental temperature monitoring and data storage on an online platform for subsequent analysis and visualization. The collected data supports ecosystem research and the numerical modeling of thermal behavior in lakes. Key strengths of the system include low production and maintenance costs, replicability, and customization capabilities. Challenges, such as interference from animal activity, are addressed with recommended preventive measures tailored to specific fauna. Overall, the Ardulake temperature profiler offers a practical tool for advancing limnological research, with potential for modification to various environmental monitoring objectives.
ISSN:2468-0672

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