D
Dylan G. Fischer
Researcher at The Evergreen State College
Publications - 48
Citations - 3348
Dylan G. Fischer is an academic researcher from The Evergreen State College. The author has contributed to research in topics: Ecosystem & Populus fremontii. The author has an hindex of 19, co-authored 45 publications receiving 3086 citations. Previous affiliations of Dylan G. Fischer include Northern Arizona University & University of Washington.
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Journal ArticleDOI
A framework for community and ecosystem genetics: from genes to ecosystems
Thomas G. Whitham,Joseph K. Bailey,Joseph K. Bailey,Jennifer A. Schweitzer,Jennifer A. Schweitzer,Stephen M. Shuster,Randy K. Bangert,Carri J. LeRoy,Carri J. LeRoy,Eric V. Lonsdorf,Eric V. Lonsdorf,G. J. Allan,Stephen P. DiFazio,Brad M. Potts,Dylan G. Fischer,Catherine A. Gehring,Richard L. Lindroth,Jane C. Marks,Stephen C. Hart,Gina M. Wimp,Stuart C. Wooley +20 more
TL;DR: This framework could allow us to understand, for the first time, the genetic basis of ecosystem processes, and the effect of such phenomena as climate change and introduced transgenic organisms on entire communities.
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Community and ecosystem genetics: a consequence of the extended phenotype
Thomas G. Whitham,William P. Young,Gregory D. Martinsen,Catherine A. Gehring,Jennifer A. Schweitzer,Stephen M. Shuster,Gina M. Wimp,Dylan G. Fischer,Joseph K. Bailey,Richard L. Lindroth,Scott A. Woolbright,Cheryl R. Kuske +11 more
TL;DR: It is demonstrated that the extended phenotype can be traced from the individuals possessing the trait, to the community, and to ecosystem processes such as leaf litter decomposition and N mineralization, which provides a genetic framework for community structure and ecosystem processes.
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Plant-soil microorganism interactions: heritable relationship between plant genotype and associated soil microorganisms.
Jennifer A. Schweitzer,Joseph K. Bailey,Dylan G. Fischer,Carri J. LeRoy,Eric V. Lonsdorf,Thomas G. Whitham,Stephen C. Hart +6 more
TL;DR: It is suggested that variation in above- and belowground traits of individual plant genotypes can alter soil microbial dynamics, and suggests that further investigations of the evolutionary implications of genetic feedbacks are warranted.
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From genes to ecosystems: a synthesis of the effects of plant genetic factors across levels of organization
Joseph K. Bailey,Jennifer A. Schweitzer,Francisco Úbeda,Julia Koricheva,Carri J. LeRoy,Michael D. Madritch,Brian J. Rehill,Randy K. Bangert,Dylan G. Fischer,Gerard J. Allan,Thomas G. Whitham +10 more
TL;DR: Findings from a meta-analysis examining the strength of the effects of plant genetic introgression and genotypic diversity across individual, community and ecosystem levels are presented with the goal of synthesizing the patterns to date.
Journal ArticleDOI
From Genes to Ecosystems: The Genetic Basis of Condensed Tannins and Their Role in Nutrient Regulation in a Populus Model System
Jennifer A. Schweitzer,Michael D. Madritch,Joseph K. Bailey,Carri J. LeRoy,Dylan G. Fischer,Brian J. Rehill,Richard L. Lindroth,Ann E. Hagerman,Stuart C. Wooley,Stephen C. Hart,Thomas G. Whitham +10 more
TL;DR: Data suggest that CT may play an underappreciated adaptive role in regulating nutrient dynamics in ecosystems and demonstrate that a holistic perspective from genes-to-ecosystems is a powerful approach for elucidating complex ecological interactions and their evolutionary implications.