Omics-based ecosurveillance for the assessment of ecosystem function, health, and resilience.

IF 3.4 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
David J Beale, Oliver A H Jones, Utpal Bose, James A Broadbent, Thomas K Walsh, Jodie van de Kamp, Andrew Bissett
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引用次数: 0

Abstract

Current environmental monitoring efforts often focus on known, regulated contaminants ignoring the potential effects of unmeasured compounds and/or environmental factors. These specific, targeted approaches lack broader environmental information and understanding, hindering effective environmental management and policy. Switching to comprehensive, untargeted monitoring of contaminants, organism health, and environmental factors, such as nutrients, temperature, and pH, would provide more effective monitoring with a likely concomitant increase in environmental health. However, even this method would not capture subtle biochemical changes in organisms induced by chronic toxicant exposure. Ecosurveillance is the systematic collection, analysis, and interpretation of ecosystem health-related data that can address this knowledge gap and provide much-needed additional lines of evidence to environmental monitoring programs. Its use would therefore be of great benefit to environmental management and assessment. Unfortunately, the science of 'ecosurveillance', especially omics-based ecosurveillance is not well known. Here, we give an overview of this emerging area and show how it has been beneficially applied in a range of systems. We anticipate this review to be a starting point for further efforts to improve environmental monitoring via the integration of comprehensive chemical assessments and molecular biology-based approaches. Bringing multiple levels of omics technology-based assessment together into a systems-wide ecosurveillance approach will bring a greater understanding of the environment, particularly the microbial communities upon which we ultimately rely to remediate perturbed ecosystems.

基于组学的生态监测在生态系统功能、健康和恢复力评估中的应用
目前的环境监测工作往往集中在已知的、受管制的污染物上,而忽视了未测量化合物和/或环境因素的潜在影响。这些具体的、有针对性的方法缺乏广泛的环境信息和了解,阻碍了有效的环境管理和政策。转向对污染物、生物体健康和环境因素(如营养物质、温度和pH值)进行全面、无目标的监测,将提供更有效的监测,并可能随之提高环境健康水平。然而,即使这种方法也不能捕捉到由慢性毒物暴露引起的生物体的细微生化变化。生态监测是对生态系统健康相关数据的系统收集、分析和解释,可以解决这一知识缺口,并为环境监测项目提供急需的额外证据。因此,它的使用将对环境管理和评价大有裨益。不幸的是,“生态监测”科学,特别是基于组学的生态监测并不为人所知。在这里,我们概述了这一新兴领域,并展示了它如何在一系列系统中得到有益的应用。我们希望这篇综述能够成为一个起点,进一步努力通过综合化学评估和基于分子生物学的方法来改善环境监测。将多个层次的基于组学技术的评估结合到一个全系统的生态监测方法中,将使我们更好地了解环境,特别是我们最终依赖于修复受干扰的生态系统的微生物群落。
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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来源期刊
CiteScore
7.70
自引率
0.00%
发文量
94
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