A Hardened CO$_2$ Sensor for In-Ground Continuous Measurement in a Perennial Grass System

arXiv - EE - Systems and Control Pub Date : 2024-09-10 DOI:arxiv-2409.06828

Bobby Schulz, Bryan Runck, Andrew Hollman, Ann Piotrowski, Eric Watkins

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Abstract

Carbon dioxide levels below the soil surface are an important measurement relating to plant health, especially for plants such as perennial grasses in northern climates where ice encasement can occur over winter. In such cases, the CO$_2$ levels can build up and become toxic. This is likely a significant contributor to turfgrass death over winter; however, there is an insufficient amount of data regarding this phenomenon in large part due to the lack of effective sensors. Many off the shelf CO$_2$ sensors exist, but they are not sufficiently hardened for in ground deployment over winter. As a result, the only options currently available are very costly automated gas samplers or manual sampling at intervals with laboratory testing -- a process that results in a limited number of data points and is labor intensive. To combat this problem we have taken an established NDIR CO$_2$ sensor and hardened it for use in winter and ice encased environments to allow for continuous automated sampling of subsurface CO$_2$ levels to better understand ice encasement damage in perennial grass systems.

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用于多年生草地系统地面连续测量的硬化 CO$_2$ 传感器

土壤表层下的二氧化碳含量是衡量植物健康状况的一个重要指标，尤其是对于多年生禾本科植物而言。在这种情况下，二氧化碳含量会不断积累并变得有毒。这可能是导致草坪草越冬死亡的一个重要原因；然而，有关这一现象的数据不足，很大程度上是因为缺乏有效的传感器。现在有许多现成的 CO$_2$ 传感器，但它们的硬度不够，无法在地面部署过冬。因此，目前唯一的选择是非常昂贵的自动气体采样器，或者每隔一段时间进行人工采样，然后进行实验室测试 - 这一过程产生的数据点数量有限，而且劳动强度大。为了解决这个问题，我们采用了一种成熟的近红外 CO$_2$ 传感器，并对其进行了加固，使其能够在冬季和冰封环境中使用，从而能够对地下 CO$_2$ 水平进行连续自动采样，以便更好地了解冰封对多年生草地系统造成的破坏。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - EE - Systems and Control

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