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Emily V. Moran
Researcher at University of California, Merced
Publications - 31
Citations - 1391
Emily V. Moran is an academic researcher from University of California, Merced. The author has contributed to research in topics: Population & Biological dispersal. The author has an hindex of 14, co-authored 24 publications receiving 1098 citations. Previous affiliations of Emily V. Moran include National Institute for Mathematical and Biological Synthesis & University of Tennessee.
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Journal ArticleDOI
Evolutionary responses to global change: lessons from invasive species.
Emily V. Moran,James Alexander +1 more
TL;DR: What invasive species can and cannot teach us about likely evolutionary responses to global change and the constraints on those responses and the limitations of invasive species as a model are discussed.
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Intraspecific trait variation across scales: implications for understanding global change responses.
TL;DR: It is argued that many common modeling approaches can allow a stronger consideration of intraspecific trait variation if the necessary data are available, and existing data need to be made more accessible.
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High‐dimensional coexistence based on individual variation: a synthesis of evidence
James S. Clark,David M. Bell,Chengjin Chu,Benoît Courbaud,Michael Dietze,Michelle H. Hersh,Janneke HilleRisLambers,Inés Ibášez,Shannon L. LaDeau,Sean M. McMahon,Jessica Metcalf,Jacqueline E. Mohan,Emily V. Moran,Luke Pangle,Scott M. Pearson,Carl F. Salk,Zehao Shen,Denis Valle,Peter H. Wyckoff +18 more
TL;DR: A hierarchical model is developed that allows for uncertainty at all stages and variation among 26 000 individuals and over time, including 268 000 tree years, for dozens of tree species, providing strong evidence that high- dimensional regulation is critical for biodiversity regulation.
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Individual-scale variation, species-scale differences: inference needed to understand diversity.
James S. Clark,David M. Bell,Michelle H. Hersh,Matthew Kwit,Emily V. Moran,Carl F. Salk,Anne Stine,Denis Valle,Kai Zhu +8 more
TL;DR: This work shows how to identify when aggregation is the problem, where it has caused controversy, and proposes three ways to address it, and explains why niche differences hidden at the species level become apparent upon disaggregation to the individual level.
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The genetics of drought tolerance in conifers.
TL;DR: A more direct focus on survival, growth and the traits that directly predict them (rather than on proxies, such as water use efficiency), combining research approaches with complementary strengths and weaknesses, and the inclusion of a wider range of taxa and life stages is urged.