Development of a general protocol for rapid response research on water quality disturbances and its application for monitoring the largest wildfire recorded in New Mexico, USA

IF 2.6 Q2 WATER RESOURCES Frontiers in Water Pub Date : 2023-07-24 DOI:10.3389/frwa.2023.1223338
P. Tunby, J. Nichols, Asmita Kaphle, A. Khandelwal, David Van Horn, R. González‐Pinzón
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Abstract

Anthropogenic and natural disasters (e.g., wildfires, oil spills, mine spills, sewage treatment facilities) cause water quality disturbances in fluvial networks. These disturbances are highly unpredictable in space-time, with the potential to propagate through multiple stream orders and impact human and environmental health over days to years. Due to challenges in monitoring and studying these events, we need methods to strategize the deployment of rapid response research teams on demand. Rapid response research has the potential to close the gap in available water quality data and process understanding through time-sensitive data collection efforts. This manuscript presents a protocol that can guide researchers in preparing for and researching water quality disturbance events. We tested and refined the protocol by assessing the longitudinal propagation of water quality disturbances from the 2022 Hermit's Peak—Calf Canyon, NM, USA, the largest in the state's recorded history. Our rapid response research allowed us to collect high-resolution water quality data with semi-continuous sensors and synoptic grab sampling. The data collected have been used for traditional peer-reviewed publications and pragmatically to inform water utilities, restoration, and outreach programs.
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制定水质扰动快速反应研究的一般方案,并将其应用于监测美国新墨西哥州有记录以来最大的野火
人为和自然灾害(例如,野火、石油泄漏、矿井泄漏、污水处理设施)造成河流网的水质紊乱。这些干扰在时空中是高度不可预测的,有可能通过多个流顺序传播,并在数天至数年内影响人类和环境健康。由于在监测和研究这些事件方面存在挑战,我们需要根据需要制定快速反应研究小组部署战略的方法。快速反应研究有可能缩小现有水质数据的差距,并通过对时间敏感的数据收集工作来了解过程。本文提出了一个方案,可以指导研究人员准备和研究水质干扰事件。我们通过评估2022年美国NM隐士峰-卡夫峡谷水质扰动的纵向传播来测试和完善该协议,这是该州有记录以来最大的一次。我们的快速反应研究使我们能够通过半连续传感器和天气抓取采样收集高分辨率水质数据。收集的数据已用于传统的同行评议出版物,并务实地为水务公司、修复和推广项目提供信息。
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来源期刊
Frontiers in Water
Frontiers in Water WATER RESOURCES-
CiteScore
4.00
自引率
6.90%
发文量
224
审稿时长
13 weeks
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