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2. Interactions between climate and landscape drive Holocene ecological change in a High Arctic lake on Somerset Island, Nunavut, Canada

Author

Tara M. Paull, Sarah A. Finkelstein, and Konrad Gajewski

Subjects
paleoclimate, holocene, canadian arctic archipelago, lake sediments, diatoms, paleolimnology, pollen, diatom dissolution, Environmental sciences, GE1-350, Environmental engineering, TA170-171
Abstract

This study presents a diatom-based analysis of the post-glacial Holocene environmental history at Lake RS29 on Somerset Island in the Canadian High Arctic. Earliest post-glacial diatom assemblages (10 200–10 000 cal yr BP) consisted mainly of small, benthic fragilarioid taxa. Poor diatom preservation in the early Holocene (~10 000–6200 cal yr BP) is associated with warm conditions, as determined by pollen data from the same core and other paleoclimate estimates from the region. Analysis of this and other sites from across the Canadian Arctic suggest that zones of poor diatom preservation or diatom absence in lake sediment records may be associated with warm conditions. After 6200 cal yr BP, acidophilic assemblages consisting of Aulacoseira spp. and a suite of periphytic taxa indicate acidification since the mid-Holocene. During this time period, cooling causing changes in lake ice phenology was likely a major driver of the reconstructed mid-Holocene pH decline. Watershed processes, including reduced fluxes of base cations as the rate of sediment accumulation slowed, may also be contributors to long-term shifts in lake water pH and associated changes in diatom assemblages. The uppermost sediments in the Lake RS29 record were characterized by abrupt declines in Aulacoseira alpigena and increases in benthic diatom taxa Cyclotella sensu lato, suggesting an increase in lake water pH and longer ice-free seasons.

Published
2017
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4. LinkWave: a Visual Adjacency List for Dynamic Weighted Networks

Author

Tara M. Madhyastha, Yann Riche, Nathalie Henry Riche, Sheelagh Carpendale, Nicolas Roussel, Thomas J. Grabowski, Microsoft Research [Redmond], Microsoft Corporation [Redmond, Wash.], Méthodes et outils pour l'Interaction à gestes (MINT2), Inria Lille - Nord Europe, Institut National de Recherche en Informatique et en Automatique (Inria)-Institut National de Recherche en Informatique et en Automatique (Inria)-Centre de Recherche en Informatique, Signal et Automatique de Lille - UMR 9189 (CRIStAL), Centrale Lille-Université de Lille-Centre National de la Recherche Scientifique (CNRS)-Centrale Lille-Université de Lille-Centre National de la Recherche Scientifique (CNRS), University of Calgary, and University of Washington [Seattle]

Subjects
Novel technique, Theoretical computer science, Computer science, business.industry, 05 social sciences, Network Visualization, 020207 software engineering, Dynamic Networks, 02 engineering and technology, Graph, Functional brain, Information visualization, Graph drawing, Information Visualization, 0202 electrical engineering, electronic engineering, information engineering, sort, Adjacency list, [INFO.INFO-DL]Computer Science [cs]/Digital Libraries [cs.DL], 0501 psychology and cognitive sciences, Functional Brain Connectivity, [INFO.INFO-HC]Computer Science [cs]/Human-Computer Interaction [cs.HC], Zoom, business, 050107 human factors
Abstract

National audience; As the nature and types of graphs in numerous fields such as social sciences, engineering, and biology continue to proliferate, common graph techniques no longer always suffice. In particular, we tackle the problem of visualizing dynamic weighted graphs—graphs with edges whose weight changes over time—to extract connectivity and sequencing patterns. We present LinkWave, a novel technique employing the concept of a visual list of edges. To better support the visual exploration of weight changes in edges and to characterize their rhythmic patterns, LinkWave represents each edge as an individual time series and provides a set of interactions to zoom, filter, sort, and aggregate the edges. We designed LinkWave in collaboration with neuroscientists seeking to extract patterns caused by degenerative diseases in functional brain connectivity data. We report preliminary findings neuroscientists discovered with LinkWave.; Nous présentons LinkWave, un système pour visualiser interactivement des réseaux pondérés dynamiques. LinkWave est basé sur le concept simple d'une liste visuelle de liens qui peuvent être triés, filtrés et agrégés. LinkWave a été développé en collaborations avec des chercheurs en neurosciences pour analyser les réseaux de connectivité du cerveau issus de données IRMf. Nous expliquons la démarche de conception du système et rendons compte des commentaires des neuroscientifiques impliqués et des premières découvertes réalisées avec le système.

Published
2014

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