ProfessorsProfessors of University of California, DavisThomas N. Buckley

Thomas N. Buckley

University of California, Davis

H-index: 50

North America-United States

About Thomas N. Buckley

Thomas N. Buckley, With an exceptional h-index of 50 and a recent h-index of 34 (since 2020), a distinguished researcher at University of California, Davis, specializes in the field of Plant Physiology, Plant Ecophysiology, Physiological Plant Ecology.

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

Amphistomy increases leaf photosynthesis more in coastal than montane plants of Hawaiian ʻilima (Sida fallax)

Does stomatal patterning in amphistomatous leaves minimize the CO2 diffusion path length within leaves?

The poorly‐explored stomatal response to temperature at constant evaporative demand

TSWIFT: tower spectrometer on wheels for investigating frequent timeseries for high-throughput phenotyping of vegetation physiology

Hyperspectral remote sensing for phenotyping the physiological drought response of common and tepary bean

Predicting ecosystem productivity based on plant community traits

Leaf relative water content at 50% stomatal conductance measured by noninvasive NMR is linked to climate of origin in nine species of eucalypt

Thermal sensitivity across forest vertical profiles: patterns, mechanisms, and ecological implications

Thomas N. Buckley Information

University	University of California, Davis
Position	Department of Plant Sciences
Citations(all)	8657
Citations(since 2020)	5165
Cited By	5230
hIndex(all)	50
hIndex(since 2020)	34
i10Index(all)	86
i10Index(since 2020)	80
Email	Access Email
University Profile Page	University of California, Davis
Google Scholar	View Google Scholar Profile

Thomas N. Buckley Skills & Research Interests

Plant Physiology

Plant Ecophysiology

Physiological Plant Ecology

Top articles of Thomas N. Buckley

Title	Journal	Author(s)	Publication Date
Amphistomy increases leaf photosynthesis more in coastal than montane plants of Hawaiian ʻilima (Sida fallax)	American Journal of Botany	Genevieve Triplett Thomas N Buckley Christopher D Muir	2024/2/13
Does stomatal patterning in amphistomatous leaves minimize the CO2 diffusion path length within leaves?	AoB PLANTS	Jacob L Watts Graham J Dow Thomas N Buckley Christopher D Muir	2024/2/1
The poorly‐explored stomatal response to temperature at constant evaporative demand	Plant, Cell & Environment	Colleen Mills Megan K Bartlett Thomas N Buckley	2024/4/11
TSWIFT: tower spectrometer on wheels for investigating frequent timeseries for high-throughput phenotyping of vegetation physiology	Plant methods	Christopher YS Wong Taylor Jones Devin P McHugh Matthew E Gilbert Paul Gepts ...	2023/3/28
Hyperspectral remote sensing for phenotyping the physiological drought response of common and tepary bean	Plant Phenomics	Christopher YS Wong Matthew E Gilbert Marshall A Pierce Travis A Parker Antonia Palkovic ...	2023/1/16
Predicting ecosystem productivity based on plant community traits		Nianpeng He Pu Yan Congcong Liu Li Xu Mingxu Li ...	2022/9/14
Leaf relative water content at 50% stomatal conductance measured by noninvasive NMR is linked to climate of origin in nine species of eucalypt	Plant, Cell & Environment	David Coleman Carel W Windt Thomas N Buckley Andrew Merchant	2023/12
Thermal sensitivity across forest vertical profiles: patterns, mechanisms, and ecological implications		Nidhi Vinod Martijn Slot Ian R McGregor Elsa M Ordway Marielle N Smith ...	2023/1
The dynamic multi‐functionality of leaf water transport outside the xylem		Christine Scoffoni Caetano Albuquerque Thomas N Buckley Lawren Sack	2023/9
Burning questions for a warming and changing world: 15 unknowns in plant abiotic stress		Paul E Verslues Julia Bailey-Serres Craig Brodersen Thomas N Buckley Lucio Conti ...	2023/1/1
Kinetic factors of physiology and the dynamic light environment influence the economic landscape of short‐term hydraulic risk	New Phytologist	Thomas N Buckley Ethan H Frehner Brian N Bailey	2023/4
Testing the association of relative growth rate and adaptation to climate across natural ecotypes of Arabidopsis	New Phytologist	Leila R Fletcher Christine Scoffoni Colin Farrell Thomas N Buckley Matteo Pellegrini ...	2022/7/10
Detecting short-term stress and recovery events in a vineyard using tower-based remote sensing of photochemical reflectance index (PRI)	Irrigation Science	Christopher YS Wong Nicolas E Bambach Maria Mar Alsina Andrew J McElrone Taylor Jones ...	2022/9
Genome‐wide association identifies candidate genes for drought tolerance in coast redwood and giant sequoia	The Plant Journal	Amanda R De La Torre Manoj K Sekhwal Daniela Puiu Steven L Salzberg Alison D Scott ...	2022/1
The three‐dimensional construction of leaves is coordinated with water use efficiency in conifers	New Phytologist	Santiago Trueba Guillaume Théroux‐Rancourt J Mason Earles Thomas N Buckley David Love ...	2022/1
Importance of the legacy effect for assessing spatiotemporal correspondence between interannual tree-ring width and remote sensing products in the Sierra Nevada	Remote Sensing of Environment	Christopher YS Wong Derek JN Young Andrew M Latimer Thomas N Buckley Troy S Magney	2021/11/1
CO2, nitrogen deposition and a discontinuous climate response drive water use efficiency in global forests	Nature Communications	Mark A Adams Thomas N Buckley Dan Binkley Mathias Neumann Tarryn L Turnbull	2021/8/31
Optimal carbon partitioning helps reconcile the apparent divergence between optimal and observed canopy profiles of photosynthetic capacity	New Phytologist	Thomas N Buckley	2021/6
A reporting format for leaf-level gas exchange data and metadata	Ecological Informatics	Kim S Ely Alistair Rogers Deborah A Agarwal Elizabeth A Ainsworth Loren P Albert ...	2021/3/1
A double-ratio method to measure fast, slow and reverse sap flows	Tree Physiology	Zijuan Deng Heather K Vice Matthew E Gilbert Mark A Adams Thomas N Buckley	2021/12