2020
DOI: 10.1111/gcb.15045
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The case for research integration, from genomics to remote sensing, to understand biodiversity change and functional dynamics in the world's lakes

Abstract: Freshwater ecosystems are heavily impacted by multiple stressors, and a freshwater biodiversity crisis is underway. This realization has prompted calls to integrate global freshwater ecosystem data, including traditional taxonomic and newer types of data (e.g., eDNA, remote sensing), to more comprehensively assess change among systems, regions, and organism groups. We argue that data integration should be done, not only with the important purpose of filling gaps in spatial, temporal, and organismal representat… Show more

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Cited by 17 publications
(11 citation statements)
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“…However, there are exceptions (Box 1) that can provide insights to direct future research priorities (Masi et al 2017; Sturludottir et al 2018; Hansen et al 2019) and estimate the effects of measurement error (Masi et al 2017). Furthermore, we must ask how diverse data sources representing component responses can combine effectively to generate new and holistic understanding of ecosystem function, and emergent behavior (Thackeray and Hampton 2020). For example, when ecological surveys and models are paired together, such efforts offer opportunities to simultaneously track and evaluate individual and multiple systems across landscapes or seascapes for novel conditions (Letcher et al 2016; Read et al 2016; Hansen et al 2017).…”
Section: What Tools Are Advancing the Understanding Of Emergent Properties Of Aquatic Systems?mentioning
confidence: 99%
“…However, there are exceptions (Box 1) that can provide insights to direct future research priorities (Masi et al 2017; Sturludottir et al 2018; Hansen et al 2019) and estimate the effects of measurement error (Masi et al 2017). Furthermore, we must ask how diverse data sources representing component responses can combine effectively to generate new and holistic understanding of ecosystem function, and emergent behavior (Thackeray and Hampton 2020). For example, when ecological surveys and models are paired together, such efforts offer opportunities to simultaneously track and evaluate individual and multiple systems across landscapes or seascapes for novel conditions (Letcher et al 2016; Read et al 2016; Hansen et al 2017).…”
Section: What Tools Are Advancing the Understanding Of Emergent Properties Of Aquatic Systems?mentioning
confidence: 99%
“…Few data are available on the distribution of most freshwater species, particularly for groups like parasites, meiofauna, protists, fungi, and bacteria, although these play a critical role in ecosystem functions (Grossart et al., 2019). The augmentation of routine monitoring schemes with novel, emerging methods could shrink these gaps and promote a more complete understanding of freshwater biodiversity (Thackeray & Hampton, 2020). Emerging methods include environmental DNA (eDNA) for species detection, metabarcoding, metagenomics, and metatranscriptomics for taxon diversity, and proteomics for functional processes.…”
Section: Special Recommendations For Freshwater Biodiversity Post‐2020mentioning
confidence: 99%
“…Molecular biology and AI are well recognised as interdisciplinary fields of research [34,52]. In order to solve complex biological questions as well as to analyse and interpret results that are unsolved in traditional laboratory methods, modern molecular biology requires the help of sophisticated software.…”
Section: Molecular Study and Drug Designmentioning
confidence: 99%