Amy Zanne

George Washington University

H-index: 43

North America-United States

About Amy Zanne

Amy Zanne, With an exceptional h-index of 43 and a recent h-index of 34 (since 2020), a distinguished researcher at George Washington University, specializes in the field of Ecology, Evolution.

His recent articles reflect a diverse array of research interests and contributions to the field:

Termites are key drivers of short‐term deadwood decay in Neotropical Cerrado across vegetation types

Shifts in internal stem damage along a tropical precipitation gradient and implications for forest biomass estimation

The role of deadwood in the carbon cycle: Implications for models, forest management, and future climates

Faster than expected: Release of nitrogen and phosphorus from decomposing wood

Drivers of wood decay in tropical ecosystems: Termites versus microbes along spatial, temporal and experimental precipitation gradients

Why are trees hollow? Termites, microbes, and tree internal stem damage in a tropical savanna

Wood traits explain microbial but not termite‐driven decay in Australian tropical rainforest and savanna

Comparing the effects of internal stem damage on aboveground biomass estimates from terrestrial laser scanning and allometric scaling models

Amy Zanne Information

University	George Washington University
Position	Associate Professor
Citations(all)	23214
Citations(since 2020)	13900
Cited By	14280
hIndex(all)	43
hIndex(since 2020)	34
i10Index(all)	77
i10Index(since 2020)	66
Email	Access Email
University Profile Page	George Washington University
Google Scholar	View Google Scholar Profile

Amy Zanne Skills & Research Interests

Ecology

Evolution

Top articles of Amy Zanne

Title	Journal	Author(s)	Publication Date
Termites are key drivers of short‐term deadwood decay in Neotropical Cerrado across vegetation types	Austral Ecology	André M D'Angioli Amy E Zanne Reginaldo Constantino Larissa S Verona Rafael S Oliveira	2024/2
Shifts in internal stem damage along a tropical precipitation gradient and implications for forest biomass estimation	New Phytologist	Habacuc Flores‐Moreno Abbey R Yatsko Alexander W Cheesman Steven D Allison Lucas A Cernusak ...	2024/2
The role of deadwood in the carbon cycle: Implications for models, forest management, and future climates		Baptiste Joseph Wijas Steven D Allison Amy T Austin William K Cornwell J Hans C Cornelissen ...	2024/1/10
Faster than expected: Release of nitrogen and phosphorus from decomposing wood		Baptiste Joseph Wijas William K Cornwell Jeff R Powell Brad Oberle Amy E Zanne	2024/4/12
Drivers of wood decay in tropical ecosystems: Termites versus microbes along spatial, temporal and experimental precipitation gradients	Functional Ecology	Baptiste J Wijas Habacuc Flores‐Moreno Steven D Allison Luciana Chavez Rodriguez Alexander W Cheesman ...	2024/1/2
Why are trees hollow? Termites, microbes, and tree internal stem damage in a tropical savanna		Abbey R Yatsko Baptiste Wijas Jed Calvert Alexander W Cheeseman Keith Cook ...	2024/2/16
Wood traits explain microbial but not termite‐driven decay in Australian tropical rainforest and savanna	Journal of Ecology	Stephanie Law Habacuc Flores‐Moreno Alexander W Cheesman Rebecca Clement Marc Rosenfield ...	2023/5
Comparing the effects of internal stem damage on aboveground biomass estimates from terrestrial laser scanning and allometric scaling models		Jed Calvert Abbey R Yatsko Judy Bresgi Alexander W Cheeseman Keith Cook ...	2023/10/3
Coevolutionary legacies for plant decomposition		J Hans C Cornelissen William K Cornwell Grégoire T Freschet James T Weedon Matty P Berg ...	2023/1/1
Wood microclimate as a predictor of carbon dioxide fluxes from deadwood in tropical Australia	EGUsphere	Elizabeth S Duan Luciana Chavez Rodriguez Nicole Hemming-Schroeder Baptiste Wijas Habacuc Flores-Moreno ...	2023/9/13
Symbiotic status alters fungal eco‐evolutionary offspring trajectories	Ecology Letters	Carlos A Aguilar‐Trigueros Franz‐Sebastian Krah William K Cornwell Amy E Zanne Nerea Abrego ...	2023/9
Higher internal stem damage in dry compared to wet tropics: where are we overestimating forest biomass?		H Flores-Moreno A Yatsko A Cheeseman S Allison L Cernusak ...	2023/7/11
Beyond the usual climate? Factors determining flowering and fruiting phenology across a genus over 117 years	American Journal of Botany	Kelsey B Bartlett Matthew W Austin James B Beck Amy E Zanne Adam B Smith	2023/7
Global Distribution of Vascular Epiphyte Diversity		Nora M Cavanaugh Amy E Zanne William K Cornwell	2023/11/20
The hidden value of trees: Quantifying the ecosystem services of tree lineages and their major threats across the contiguous US	PLOS Sustainability and Transformation	Jeannine Cavender-Bares Erik Nelson Jose Meireles Jesse Lasky Daniela A. Miteva ...	2022/4/5
The global spectrum of plant form and function: enhanced species-level trait dataset	Scientific Data	Sandra Díaz Jens Kattge Johannes HC Cornelissen Ian J Wright Sandra Lavorel ...	2022/12/7
Termite sensitivity to temperature affects global wood decay rates	Science	Amy E Zanne Habacuc Flores-Moreno Jeff R Powell William K Cornwell James W Dalling ...	2022/9/23
Initial wood trait variation overwhelms endophyte community effects for explaining decay trajectories	Functional Ecology	Marissa Lee Jeff R Powell Brad Oberle Faride Unda Shawn D Mansfield ...	2022/5
Assessing the Australian termite diversity anomaly: how habitat and rainfall affect termite assemblages	Frontiers in Ecology and Evolution	Rebecca A Clement Habacuc Flores-Moreno Lucas A Cernusak Alexander W Cheesman Abbey R Yatsko ...	2021/4/23
The evolutionary assembly of forest communities along environmental gradients: recent diversification or sorting of pre‐adapted clades?	New Phytologist	Alexander G Linan Jonathan A Myers Christine E Edwards Amy E Zanne Stephen A Smith ...	2021/12