P
Paul J. Hanson
Researcher at Oak Ridge National Laboratory
Publications - 279
Citations - 21982
Paul J. Hanson is an academic researcher from Oak Ridge National Laboratory. The author has contributed to research in topics: Soil water & Peat. The author has an hindex of 70, co-authored 251 publications receiving 19504 citations. Previous affiliations of Paul J. Hanson include University of Costa Rica & Bethel University.
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Posted ContentDOI
Minnesota peat viromes reveal terrestrial and aquatic niche partitioning for local and global viral populations
Anneliek M. ter Horst,Christian Santos-Medellín,Jackson W. Sorensen,Laura Zinke,Rachel M. Wilson,Eric R. Johnston,Gareth Trubl,Jennifer Pett-Ridge,Steven J. Blazewicz,Paul J. Hanson,Jeffrey P. Chanton,Christopher W. Schadt,Joel E. Kostka,Joanne B. Emerson +13 more
TL;DR: The significant enrichment of aquatic-like vOTUs in more waterlogged peat suggests that viruses may also exhibit niche partitioning on more local scales, and the substantially higher per-sample vOTU recovery after viral particle enrichment highlights the utility of soil viromics.
Book ChapterDOI
Natural 15N- and 13C-abundance as indicators of forest nitrogen status and soil carbon dynamics
TL;DR: Stable isotope analysis in ecology and environmental science has been extensively studied in the literature as discussed by the authors, with a wide range of techniques that use natural abundance isotopes to understand processes of soil organic matter formation and the movement of water in watersheds.
Journal ArticleDOI
Long-term successional forest dynamics: species and community responses to climatic variability
TL;DR: In this paper, a long-term data set (1967-2006) was used to evaluate the relationship between forest dynamics and climate across levels of organization, showing that vulnerability of developing forests to predicted climate conditions is stand-type dependent.
Journal ArticleDOI
Minnesota peat viromes reveal terrestrial and aquatic niche partitioning for local and global viral populations.
Anneliek M. ter Horst,Christian Santos-Medellín,Jackson W. Sorensen,Laura Zinke,Rachel M. Wilson,Eric R. Johnston,Gareth Trubl,Jennifer Pett-Ridge,Steven J. Blazewicz,Paul J. Hanson,Jeffrey P. Chanton,Christopher W. Schadt,Joel E. Kostka,Joanne B. Emerson +13 more
TL;DR: In this paper, the SPRUCE whole-ecosystem warming experiment and surrounding bog was analyzed for dsDNA viral community ecological patterns, and the recovered viral populations (vOTUs) were compared with the curated PIGEON database of 266,125 vOTUs from diverse ecosystems.
Journal ArticleDOI
The effects of throughfall manipulation on soil leaching in a deciduous forest.
TL;DR: Results suggest that lower precipitation will cause temporary N immobilization in litter and long-term enrichment in soil base cations whereas increased precipitation willcause long- term depletion of soil basecations.