Your search keyword '"Richard Baran"' showing total 3 results

1. Exometabolite niche partitioning among sympatric soil bacteria

Author

Eoin L. Brodie, Jazmine Mayberry-Lewis, Hinsby Cadillo-Quiroz, Ulas Karaoz, Richard Baran, Romy Chakraborty, Benjamin P. Bowen, Trent R. Northen, Ferran Garcia-Pichel, Ulisses Nunes da Rocha, and Eric Hummel

Subjects

Multidisciplinary, Bacteria, Desert climate, Ecology, Niche differentiation, General Physics and Astronomy, General Chemistry, Biology, Cyanobacteria, Substrate (marine biology), complex mixtures, General Biochemistry, Genetics and Molecular Biology, Article, Taxon, Sympatric speciation, Utah, Soil water, Botany, Ecosystem, Desert Climate, Soil microbiology, human activities, Soil Microbiology

Abstract

Soils are arguably the most microbially diverse ecosystems. Physicochemical properties have been associated with the maintenance of this diversity. Yet, the role of microbial substrate specialization is largely unexplored since substrate utilization studies have focused on simple substrates, not the complex mixtures representative of the soil environment. Here we examine the exometabolite composition of desert biological soil crusts (biocrusts) and the substrate preferences of seven biocrust isolates. The biocrust's main primary producer releases a diverse array of metabolites, and isolates of physically associated taxa use unique subsets of the complex metabolite pool. Individual isolates use only 13−26% of available metabolites, with only 2 out of 470 used by all and 40% not used by any. An extension of this approach to a mesophilic soil environment also reveals high levels of microbial substrate specialization. These results suggest that exometabolite niche partitioning may be an important factor in the maintenance of microbial diversity., Production and consumption of metabolites by soil microorganisms are important for nutrient cycling and maintenance of microbial diversity. Here, Baran et al. study metabolite uptake and release by desert soil microorganisms, showing that coexisting microbes can have divergent substrate preferences.

Published

2015

2. Current progress and open challenges for applying deep learning across the biosciences

Author

Nicolae Sapoval, Amirali Aghazadeh, Michael G. Nute, Dinler A. Antunes, Advait Balaji, Richard Baraniuk, C. J. Barberan, Ruth Dannenfelser, Chen Dun, Mohammadamin Edrisi, R. A. Leo Elworth, Bryce Kille, Anastasios Kyrillidis, Luay Nakhleh, Cameron R. Wolfe, Zhi Yan, Vicky Yao, and Todd J. Treangen

Subjects

Science

Abstract

Deep learning has enabled advances in understanding biology. In this review, the authors outline advances, and limitations of deep learning in five broad areas and the future challenges for the biosciences.

Published

2022

3. Clustering earthquake signals and background noises in continuous seismic data with unsupervised deep learning

Author

Léonard Seydoux, Randall Balestriero, Piero Poli, Maarten de Hoop, Michel Campillo, and Richard Baraniuk

Subjects

Science

Abstract

The authors here tackle the problem that too much seismic data is acquired worldwide to be evaluated in a timely fashion. Seydoux and colleagues develop a machine learning framework that can detect and cluster seismic signals in continuous seismic records.

Published

2020