ProfessorsProfessors of University of California, Santa BarbaraJustin Mathias

Justin Mathias

University of California, Santa Barbara

H-index: 5

North America-United States

About Justin Mathias

Justin Mathias, With an exceptional h-index of 5 and a recent h-index of 4 (since 2020), a distinguished researcher at University of California, Santa Barbara, specializes in the field of forest biogeochemistry, carbon cycle, climate change, stable isotopes.

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

Terrestrial carbon dynamics in an era of increasing wildfire

Differences in leaf gas exchange strategies explain Quercus rubra and Liriodendron tulipifera intrinsic water use efficiency responses to air pollution and climate …

Understanding Forest Ecosystems: The Use of Stable Isotopes and Physiological Measurements

Boosts in leaf-level photosynthetic capacity aid Pinus ponderosa recovery from wildfire

Climate change impacts plant carbon balance, increasing mean future carbon use efficiency but decreasing total forest extent at dry range edges

isocalcR: An R package to streamline and standardize stable isotope calculations in ecological research

Global tree intrinsic water use efficiency is enhanced by increased atmospheric CO2 and modulated by climate and plant functional types

Tree growth and water use efficiency during the twentieth century: from global trends to local drivers

Justin Mathias Information

University	University of California, Santa Barbara
Position	Postdoctoral scholar
Citations(all)	185
Citations(since 2020)	181
Cited By	46
hIndex(all)	5
hIndex(since 2020)	4
i10Index(all)	3
i10Index(since 2020)	3
Email	Access Email
University Profile Page	University of California, Santa Barbara
Google Scholar	View Google Scholar Profile

Justin Mathias Skills & Research Interests

forest biogeochemistry

carbon cycle

climate change

stable isotopes

Top articles of Justin Mathias

Title	Journal	Author(s)	Publication Date
Terrestrial carbon dynamics in an era of increasing wildfire		Tara Hudiburg Justin Mathias Kristina Bartowitz Danielle M Berardi Kelsey Bryant ...	2023/12
Differences in leaf gas exchange strategies explain Quercus rubra and Liriodendron tulipifera intrinsic water use efficiency responses to air pollution and climate …	Global Change Biology	Justin M Mathias Kenneth R Smith Kristin E Lantz Keanan T Allen Marvin J Wright ...	2023/6
Understanding Forest Ecosystems: The Use of Stable Isotopes and Physiological Measurements		Lucy Kerhoulas Alana Chin Adam Csank Justin Mathias	2023/7/17
Boosts in leaf-level photosynthetic capacity aid Pinus ponderosa recovery from wildfire	Environmental Research Letters	Kelsey N Bryant Jeffrey Stenzel Justin Mathias Hyojung Kwon Crystal A Kolden ...	2022/11/3
Climate change impacts plant carbon balance, increasing mean future carbon use efficiency but decreasing total forest extent at dry range edges	Ecology letters	Justin M Mathias Anna T Trugman	2022/2
isocalcR: An R package to streamline and standardize stable isotope calculations in ecological research	Global Change Biology	Justin M Mathias Tara W Hudiburg	2022/12
Global tree intrinsic water use efficiency is enhanced by increased atmospheric CO2 and modulated by climate and plant functional types	Proceedings of the National Academy of Sciences	Justin M Mathias Richard B Thomas	2021/2/16
Tree growth and water use efficiency during the twentieth century: from global trends to local drivers		Justin Michael Mathias	2020