Application of autonomous sensor technology to estimate selenium exposure and a site‐specific selenium threshold in a Canadian boreal lake

Mendes, Maíra P.; Cupe-Flores, Beatriz; Panigrahi, Banamali; Liber, Karsten

doi:10.1002/ieam.4644

Cited by 7 publications

(5 citation statements)

References 62 publications

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“…The goal of this study was to assess Se bioaccumulation in two model benthic macroinvertebrates, H. azteca and C. dilutus, under known exposure duration conditions. Thereby, this study also aimed to clarify results from earlier eld studies in which arti cial substrates were used to sample BMI in a boreal lake (McClean Lake) downstream from a uranium milling and mining operations in northern Canada (Mendes et al 2022a(Mendes et al , 2022b(Mendes et al , 2023 in press). To address this goal, two Se bioaccumulation studies were conducted to investigate Se bioaccumulation in H. azteca and the potential effect of biological competition in co-exposure with C. dilutus.…”

Section: Introductionmentioning

confidence: 95%

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Laboratory and In situ Selenium Bioaccumulation Assessment in the Benthic Macroinvertebrates Hyalella azteca and Chironomus dilutus

Peixoto Mendes,

Flores,

Liber

2024

Arch Environ Contam Toxicol

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Selenium (Se) bioaccumulation and toxicity in aquatic vertebrates have been thoroughly investigated over the past two decades. Limited information is available on Se bioaccumulation at the base of aquatic food webs. In this study, we selected two laboratory-reared benthic macroinvertebrates (BMI), Hyalella azteca and Chironomus dilutus, to investigate Se bioaccumulation potential in a Canadian boreal lake (McClean Lake) receiving continuous Se input from a Saskatchewan uranium mill. Laboratory and in-situ experiments were conducted in summer 2019 to assess the potential effects of biological competition on Se uptake and transfer in co-exposed H. azteca and C. dilutus. In 2021, additional experiments were included to examine the use of lab-reared H. azteca as an indicator of on-site Se exposure (native population vs lab-reared) and the major source of Se (surface water, top 1 cm and top 2-3 cm sediment layers) contributing to Se bioaccumulation in H. azteca. Except for one site (9), comparable Se bioaccumulation and trophic transfer factors (TTFs) were observed in co-exposed H. azteca (whole-body Se 0.9 to 3.1 µg /g d.w; TTFs 0.6 to 6.3) and C. dilutus (whole-body Se at 0.7 to 3.2 µg Se/g d.w.; TTFs 0.7 to 3.4). Similar non-linear dietary Se uptake and bioaccumulation were observed between lab-reared and native H. azteca (NLR, p=0.003; 4.1 ± 0.8 µg Se/g d.w) until day 14 of the experiment. Results from this study corroborate the importance of the sediment-detrital pathway relative to waterborne Se exposure, with the former leading to greater Se bioaccumulation potential to higher trophic levels via BMI.

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Section: Introductionmentioning

confidence: 95%

“…The previous on-site studies showed that diluted e uent distribution in McClean Lake E.B. is heterogeneous (Mendes et al 2022a) and varies depending on a season (AREVA 2016a).…”

Section: Study Sitementioning

confidence: 99%

Laboratory and In situ Selenium Bioaccumulation Assessment in the Benthic Macroinvertebrates Hyalella azteca and Chironomus dilutus

Peixoto Mendes,

Flores,

Liber

2024

Arch Environ Contam Toxicol

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“…Before deployment at Lake Miwasin, a similar WSN methodology was tested in Canadian lakes to delineate effluent exposure downstream of a Uranium Mill region (Cupe-Flores et al, 2022) and to estimate selenium (Se) exposure using a site-specific threshold value (Peixoto Mendes et al, 2023). In Lake Miwasin, deployment spanned from September 18 th to October 10 th in 2020; and from June 21 st to October 16 th in 2021.…”

Section: Data Used In Ml: Pilot Scale Pit Lakementioning

confidence: 99%

On Robustness of the Explanatory Power of Machine Learning Models

Panigrahi,

Razavi,

Doig

et al. 2024

Preprint

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Machine learning (ML) is increasingly considered the solution to environmental problems where only limited or no physico-chemical process understanding is available. But when there is a need to provide support for high-stake decisions, where the ability to explain possible solutions is key to their acceptability and legitimacy, ML can come short. Here, we develop a method, rooted in formal sensitivity analysis (SA), that can detect the primary controls on the outputs of ML models. Unlike many common methods for explainable artificial intelligence (XAI), this method can account for complex multi-variate distributional properties of the input-output data, commonly observed with environmental systems. We apply this approach to a suite of ML models that are developed to predict various water quality variables in a pilot-scale experimental pit lake. A critical finding is that subtle alterations in the design of an ML model (such as variations in random seed for initialization, functional class, hyperparameters, or data splitting) can lead to entirely different representational interpretations of the dependence of the outputs on explanatory inputs. Further, models based on different ML families (decision trees, connectionists, or kernels) seem to focus on different aspects of the information provided by data, although displaying similar levels of predictive power. Overall, this underscores the importance of employing ensembles of ML models when explanatory power is sought. Not doing so may compromise the ability of the analysis to deliver robust and reliable predictions, especially when generalizing to conditions beyond the training data.

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“…Exposure characterization describes the magnitude and spatial and temporal patterns of exposure to stressors (e.g., contaminants) shown in the conceptual model. To this end, autonomous sensor technology has been adapted to estimate exposure levels from pollutants such as metals in lakes associated with adverse effects (Peixoto Mendes et al, 2023). Some of the advantages of this technology include their wireless, remote, ubiquity, and real-time capabilities (Randhawa et al, 2017), which can lead to data collection from remote or hazardous sites.…”

Section: Editorialmentioning

confidence: 99%

“…As the affordability and accuracy of commercial sensors increase, their deployment and application also increase in monitoring activities and site identification (Randhawa et al, 2017). For example, real‐time electrical conductivity data from autonomous sensors have been shown to be a good surrogate for total aqueous selenium levels in a Canadian boreal lake and for identifying key monitoring locations (Peixoto Mendes et al, 2023). Autonomous sensors can not only be deployed to measure water‐quality parameters, but also, they can generate exposure estimates of levels of contaminants on a case‐by‐case basis, as shown for metals in aquatic ecosystems.…”

Section: Figurementioning

confidence: 99%

New technologies as decision aids for the advancement of ecological risk assessment

Chele,

Jimenez‐Pazmino,

Läufer

2023

Integr Envir Assess & Manag

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Application of autonomous sensor technology to estimate selenium exposure and a site‐specific selenium threshold in a Canadian boreal lake

Cited by 7 publications

References 62 publications

Laboratory and In situ Selenium Bioaccumulation Assessment in the Benthic Macroinvertebrates Hyalella azteca and Chironomus dilutus

Laboratory and In situ Selenium Bioaccumulation Assessment in the Benthic Macroinvertebrates Hyalella azteca and Chironomus dilutus

On Robustness of the Explanatory Power of Machine Learning Models

New technologies as decision aids for the advancement of ecological risk assessment

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