分析尺度决定了微生物水质中空间方差与非空间方差的观测比值：来自二十年来公民科学数据的启示。

Scale of analysis drives the observed ratio of spatial to non-spatial variance in microbial water quality: insights from two decades of citizen science data.

机构信息

Department of Biostatistics and Computational Biology, University of Rochester, Rochester, NY 14642, USA, 14642.

Department of Food Science, Virginia Tech, Blacksburg, VA 24061, USA, 24061.

出版信息

J Appl Microbiol. 2023 Oct 4;134(10). doi: 10.1093/jambio/lxad210.

DOI:10.1093/jambio/lxad210

PMID:37709569

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10561027/

Abstract

AIMS

While fecal indicator bacteria (FIB) testing is used to monitor surface water for potential health hazards, observed variation in FIB levels may depend on the scale of analysis (SOA). Two decades of citizen science data, coupled with random effects models, were used to quantify the variance in FIB levels attributable to spatial versus temporal factors.

METHODS AND RESULTS

Separately, Bayesian models were used to quantify the ratio of spatial to non-spatial variance in FIB levels and identify associations between environmental factors and FIB levels. Separate analyses were performed for three SOA: waterway, watershed, and statewide. As SOA increased (from waterway to watershed to statewide models), variance attributable to spatial sources generally increased and variance attributable to temporal sources generally decreased. While relationships between FIB levels and environmental factors, such as flow conditions (base versus stormflow), were constant across SOA, the effect of land cover was highly dependent on SOA and consistently smaller than the effect of stormwater infrastructure (e.g. outfalls).

CONCLUSIONS

This study demonstrates the importance of SOA when developing water quality monitoring programs or designing future studies to inform water management.

摘要

目的

尽管粪便指示细菌（FIB）测试被用于监测地表水是否存在潜在健康危害，但 FIB 水平的观测变化可能取决于分析尺度（SOA）。本研究利用 20 年的公民科学数据和随机效应模型，量化了 FIB 水平的空间与时间因素归因方差。

方法和结果

分别采用贝叶斯模型量化了 FIB 水平的空间与非空间方差比，并确定了环境因素与 FIB 水平之间的关系。分别针对三种 SOA（水道、流域和全州）进行了分析。随着 SOA 的增加（从水道到流域再到全州模型），归因于空间源的方差通常会增加，而归因于时间源的方差通常会减少。尽管 FIB 水平与环境因素（如流量条件[基准流量与暴雨流量]）之间的关系在 SOA 之间保持不变，但土地覆盖的影响高度依赖于 SOA，且始终小于雨水基础设施（如出水口）的影响。

结论

本研究表明，在制定水质监测计划或设计未来研究以告知水管理时，SOA 非常重要。

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