J
John C. Moore
Researcher at Beijing Normal University
Publications - 428
Citations - 29115
John C. Moore is an academic researcher from Beijing Normal University. The author has contributed to research in topics: Ice core & Ice sheet. The author has an hindex of 76, co-authored 389 publications receiving 25542 citations. Previous affiliations of John C. Moore include Arizona State University & University of Lapland.
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Journal ArticleDOI
Application of the cross wavelet transform and wavelet coherence to geophysical time series
TL;DR: It is demonstrated how phase angle statistics can be used to gain confidence in causal relation- ships and test mechanistic models of physical relationships between the time series and Monte Carlo methods are used to assess the statistical significance against red noise backgrounds.
Journal ArticleDOI
Detritus, trophic dynamics and biodiversity
John C. Moore,Eric L. Berlow,David C. Coleman,Quan Dong,Nancy Collins Johnson,Kevin S. McCann,Kim Melville,Peter J. Morin,Amy D. Rosemond,David M. Post,John L. Sabo,Michael J. Vanni,Diana H. Wall +12 more
TL;DR: In this article, the authors developed an integrative framework for understanding the impact of detritus on food web dynamics, emphasizing the ontogeny and heterogeneity of detribus and the various ways that explicit inclusion of the detrital dynamics alters generalizations about the structure and functioning of food webs.
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A meta-analysis of context-dependency in plant response to inoculation with mycorrhizal fungi
Jason D. Hoeksema,V. Bala Chaudhary,Catherine A. Gehring,Nancy Collins Johnson,Justine Karst,Roger T. Koide,Anne Pringle,Catherine A. Zabinski,James D. Bever,John C. Moore,Gail W. T. Wilson,John N. Klironomos,James Umbanhowar +12 more
TL;DR: Univariate analyses supported the hypothesis that plant response is most positive when plants are P-limited rather than N-limited when the soil community was more complex, and emphasize that mycorrhizal function depends on both abiotic and biotic context.
Journal ArticleDOI
Structural asymmetry and the stability of diverse food webs
TL;DR: In this paper, the authors show that real food webs are structured such that top predators act as couplers of distinct energy channels that differ in both productivity and turnover rate, and that coupled fast and slow channels convey both local and non-local stability to food webs.
Structural asymmetry and the stability of diverse food webs. Nature
TL;DR: Real food webs are structured such that top predators act as couplers of distinct energy channels that differ in both productivity and turnover rate, and theoretical analysis shows that coupled fast and slow channels convey both local and non-local stability to food webs.