Development of an adaptive monitoring framework for long‐term programs: An example using indicators of fish health

Arciszewski, Tim J.; Munkittrick, Kelly R.

doi:10.1002/ieam.1636

Cited by 35 publications

(55 citation statements)

References 54 publications

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“…As far as the ramping rate experiment goes, exploring the mechanisms behind the observed biotic responses, if they continue with the inclusion of additional years of monitoring, requires an examination of environmental characteristics such as the flow and temperature regimes, and this is the subject of ongoing analyses. Also still to be considered is if the statistical significance translates into biological relevance for the impacted system (Arciszewski and Munkittrick 2015), but that question is beyond the scope of this paper.…”

Section: Discussionmentioning

confidence: 99%

Cautions on using the Before-After-Control-Impact design in environmental effects monitoring programs

Smokorowski

Randall

2017

FACETS

129

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Often the Before-After-Control-Impact (BACI) design is suggested as being a statistically powerful experimental design in environmental impact studies. If the timing and location of the impact are known and adequate pre-data are collected, the BACI design is considered optimal to help isolate the effect of the development from natural variability. This paper presents 9 years of results from a long-term BACI experiment tested using a range of statistical models and post-impact monitoring designs. To explore suboptimal designs that are often utilized in environmental effects monitoring, the same data were also explored assuming either no control system was available (Before-After only), or that no pre-impact data were available (Control-Impact only). The results of the BACI design were robust to the statistical model used, and the BACI design was able to detect effects from the impact that the two suboptimal designs failed to detect. However, the BACI design demonstrated different conclusions depending on the number and configuration of post-impact years included in the analysis. Our results reinforce the idea that caution should be employed when using, or interpreting results from, a BACI design in an environmental impact study, but demonstrate that a well-designed BACI remains one of the best models for environmental effects monitoring programs.

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Section: Discussionmentioning

confidence: 99%

Cautions on using the Before-After-Control-Impact design in environmental effects monitoring programs

Smokorowski

Randall

2017

FACETS

129

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“…Although not ideal, comparisons to reference sites are adequate for interim analyses. These comparisons may also be used to progress through tiers but may rely on an onerous burden of proof, such as a probable effect or alarm level (Arciszewski and Munkittrick ). This initial effects monitoring is commonly done and can provide information to initiate an adaptive program.…”

Section: Defining Core Aspects Of Adaptive Monitoringmentioning

confidence: 99%

“…Exceeding a threshold often attracts attention, but as initiators of some further monitoring action, including refinement of questions, thresholds are operationalized as triggers. Elsewhere published CESs can serve as preliminary triggers, but their development and refinement is an important and explicit component of an evolving monitoring program (Arciszewski and Munkittrick 2015). Where refinement is desired, a parametric 95% prediction range is commonly advocated as a trigger and placeholder for change that may be relevant (Munkittrick et al 2009;Arciszewski and Munkittrick 2015).…”

Section: Triggersmentioning

confidence: 99%

“…Elsewhere published CESs can serve as preliminary triggers, but their development and refinement is an important and explicit component of an evolving monitoring program (Arciszewski and Munkittrick 2015). Where refinement is desired, a parametric 95% prediction range is commonly advocated as a trigger and placeholder for change that may be relevant (Munkittrick et al 2009;Arciszewski and Munkittrick 2015). Virtually any coverage probability can be used but requires acknowledging the accompanying (and expected) error rates.…”

Section: Triggersmentioning

confidence: 99%

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Using adaptive processes and adverse outcome pathways to develop meaningful, robust, and actionable environmental monitoring programs

Arciszewski

Munkittrick

Scrimgeour

et al. 2017

Integr Envir Assess & Manag

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The primary goals of environmental monitoring are to indicate whether unexpected changes related to development are occurring in the physical, chemical, and biological attributes of ecosystems and to inform meaningful management intervention. Although achieving these objectives is conceptually simple, varying scientific and social challenges often result in their breakdown. Conceptualizing, designing, and operating programs that better delineate monitoring, management, and risk assessment processes supported by hypothesis-driven approaches, strong inference,

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“…Substantial recent work has focused on defining so-called normal ranges for endpoints [60], and this philosophy should, in our opinion, be integrated into omics designs to improve interpretability of molecular (and physiological) indicators. One of the main barriers for inclusion of molecular enpoints in the Canadian EEM program was an inability to define the magnitude of change that would be interpreted as a problem in each species for which the indicator would be used; because of the diversity of receiving environments in Canada, the Canadian EEM program has, so far, used 65 different species of fish [18].…”

Section: Defining Normal: An Important Eem Considerationmentioning

confidence: 99%

Defining the role of omics in assessing ecosystem health: Perspectives from the Canadian environmental monitoring program

Bahamonde

Feswick

Isaacs

et al. 2015

Enviro Toxic and Chemistry

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Scientific reviews and studies continue to describe omics technologies as the next generation of tools for environmental monitoring, while cautioning that there are limitations and obstacles to overcome. However, omics has not yet transitioned into national environmental monitoring programs designed to assess ecosystem health. Using the example of the Canadian Environmental Effects Monitoring (EEM) program, the authors describe the steps that would be required for omics technologies to be included in such an established program. These steps include baseline collection of omics endpoints across different species and sites to generate a range of what is biologically normal within a particular ecosystem. Natural individual variability in the omes is not adequately characterized and is often not measured in the field, but is a key component to an environmental monitoring program, to determine the critical effect size or action threshold for management. Omics endpoints must develop a level of standardization, consistency, and rigor that will allow interpretation of the relevance of changes across broader scales. To date, population-level consequences of routinely measured endpoints such as reduced gonad size or intersex in fish is not entirely clear, and the significance of genome-wide molecular, proteome, or metabolic changes on organism or population health is further removed from the levels of ecological change traditionally managed. The present review is not intended to dismiss the idea that omics will play a future role in large-scale environmental monitoring studies, but rather outlines the necessary actions for its inclusion in regulatory monitoring programs focused on assessing ecosystem health. Environ Toxicol Chem 2016;35:20-35. # 2015 SETAC

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Development of an adaptive monitoring framework for long‐term programs: An example using indicators of fish health

Cited by 35 publications

References 54 publications

Cautions on using the Before-After-Control-Impact design in environmental effects monitoring programs

Cautions on using the Before-After-Control-Impact design in environmental effects monitoring programs

Using adaptive processes and adverse outcome pathways to develop meaningful, robust, and actionable environmental monitoring programs

Defining the role of omics in assessing ecosystem health: Perspectives from the Canadian environmental monitoring program

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