Bhaleka Persaud scite author profile

The rapid growth in microplastic pollution research is influencing funding priorities, environmental policy, and public perceptions of risks to water quality and environmental and human health. Ensuring that environmental microplastics research data are findable, accessible, interoperable, and reusable (FAIR) is essential to inform policy and mitigation strategies. We present a bibliographic analysis of data sharing practices in the environmental microplastics research community, highlighting the state of openness of microplastics data. A stratified (by year) random subset of 785 of 6,608 microplastics articles indexed in Web of Science indicates that, since 2006, less than a third (28.5%) contained a data sharing statement. These statements further show that most often, the data were provided in the articles’ supplementary material (38.8%) and only 13.8% via a data repository. Of the 279 microplastics datasets found in online data repositories, 20.4% presented only metadata with access to the data requiring additional approval. Although increasing, the rate of microplastic data sharing still lags behind that of publication of peer-reviewed articles on environmental microplastics. About a quarter of the repository data originated from North America (12.8%) and Europe (13.4%). Marine and estuarine environments are the most frequently sampled systems (26.2%); sediments (18.8%) and water (15.3%) are the predominant media. Of the available datasets accessible, 15.4% and 18.2% do not have adequate metadata to determine the sampling location and media type, respectively. We discuss five recommendations to strengthen data sharing practices in the environmental microplastic research community.

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Rates and timing of chlorophyll-aincreases and related environmental variables in global temperate and cold-temperate lakes

Adams

Persaud

et al. 2022

Earth Syst. Sci. Data

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Abstract. Lakes are key ecosystems within the global biogeosphere. However, the environmental controls on the biological productivity of lakes – including surface temperature, ice phenology, nutrient loads, and mixing regime – are increasingly altered by climate warming and land-use changes. To better characterize global trends in lake productivity, we assembled a dataset on chlorophyll-a concentrations as well as associated water quality parameters and surface solar radiation for temperate and cold-temperate lakes experiencing seasonal ice cover. We developed a method to identify periods of rapid net increase of in situ chlorophyll-a concentrations from time series data and applied it to data collected between 1964 and 2019 across 343 lakes located north of 40∘. The data show that the spring chlorophyll-a increase periods have been occurring earlier in the year, potentially extending the growing season and increasing the annual productivity of northern lakes. The dataset on chlorophyll-a increase rates and timing can be used to analyze trends and patterns in lake productivity across the northern hemisphere or at smaller, regional scales. We illustrate some trends extracted from the dataset and encourage other researchers to use the open dataset for their own research questions. The PCI dataset and additional data files can be openly accessed at the Federated Research Data Repository at https://doi.org/10.20383/102.0488 (Adams et al., 2021).

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Hydrological Perspectives on Integrated, Coordinated, Open, Networked (ICON) Science

Acharya¹,

Ahmmed

Chen

et al. 2022

Earth and Space Science

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This article discusses the Integrated, Coordinated, Open, Networked (ICON) principles in hydrology with respect to: field, experimental, remote sensing, and real-time data research and application (Section 2); Machine learning (ML) for multiscale hydrological modeling (Section 3); and Inclusive, equitable, and accessible science: Involvement, challenges, and support of early career, marginalized racial groups, women, Lesbian, gay, bisexual, transgender and queer or questioning (LGBTQ+), and/or disabled researchers (Section 4

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Hydrological Perspectives on Integrated, Coordinated, Open, Net- worked (ICON) Science

Acharya

Ahmmed

Chen

et al. 2021

Preprint

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Hawliau Cyffredinol / General rightsCopyright and moral rights for the publications made accessible in the public portal are retained by the authors and/or other copyright owners and it is a condition of accessing publications that users recognise and abide by the legal requirements associated with these rights.• Users may download and print one copy of any publication from the public portal for the purpose of private study or research.• You may not further distribute the material or use it for any profit-making activity or commercial gain • You may freely distribute the URL identifying the publication in the public portal ? Take down policyIf you believe that this document breaches copyright please contact us providing details, and we will remove access to the work immediately and investigate your claim. Jul. 2022This article discusses the Integrated, Coordinated, Open, Networked (ICON) principles in hydrology with respect to: field, experimental, remote sensing, and real-time data research and application (Section 2); Machine learning (ML) for multiscale hydrological modeling (Section 3); and Inclusive, equitable, and accessible science: Involvement, challenges, and support of early career, marginalized racial groups, women, Lesbian, gay, bisexual, transgender and queer or questioning (LGBTQ+), and/or disabled researchers (Section 4

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Evaluating the suitability of three gridded‐datasets and their impacts on hydrological simulation at Scotty Creek in the southern Northwest Territories, Canada

Persaud

Whitfield

Quinton

et al. 2020

Hydrological Processes

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In the southern Northwest Territories (NWT), long time series of historical observations of climate and hydrology are scarce. Gridded datasets have been used as an alternative to instrumental observations for climate analysis in this area, but not for driving models to understand hydrological processes in the southern NWT. The suitability of temperature and precipitation from three-gridded datasets (Australian National University Spline [ANUSPLIN], ERA-Interim, and Modern-Era Retrospective Analysis for Research and Application, Version 2 [MERRA-2]) as forcings for hydrological modelling in a small subcatchment in the southern NWT are assessed. Multiple statistical techniques are used to ensure that structural and temporal attributes of the observational datasets are adequately compared. Daily minimum and maximum air temperatures in gridded datasets are more similar to observations than precipitation. The ANUSPLIN temperature time series are more statistically similar to observations, based on population statistics and temporal structure, than either of ERA-Interim or MERRA-2. The gridded datasets capture the seasonal and annual seasonal variability of precipitation but with large biases.ANUSPLIN precipitation compares better with observations than either ERA-Interim or MERRA-2 precipitation. The biases in these gridded datasets affect run-off simulations.The biases in hydrological simulations are predictable from the statistical differences between gridded datasets and observations and can be used to make informed choices about their use.

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Bhaleka Persaud

Current State of Microplastic Pollution Research Data: Trends in Availability and Sources of Open Data

Rates and timing of chlorophyll-aincreases and related environmental variables in global temperate and cold-temperate lakes

Hydrological Perspectives on Integrated, Coordinated, Open, Networked (ICON) Science

Hydrological Perspectives on Integrated, Coordinated, Open, Net- worked (ICON) Science

Evaluating the suitability of three gridded‐datasets and their impacts on hydrological simulation at Scotty Creek in the southern Northwest Territories, Canada

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