Global tree intrinsic water use efficiency is enhanced by increased atmospheric CO2 and modulated by climate and plant functional types
JM Mathias, RB Thomas - Proceedings of the National …, 2021 - National Acad Sciences
We conducted a meta-analysis of carbon and oxygen isotopes from tree ring chronologies
representing 34 species across 10 biomes to better understand the environmental drivers …
representing 34 species across 10 biomes to better understand the environmental drivers …
Global tree intrinsic water use efficiency is enhanced by increased atmospheric CO 2 and modulated by climate and plant functional types
JM Mathias, RB Thomas - Proceedings of the National Academy of …, 2021 - par.nsf.gov
We conducted a meta-analysis of carbon and oxygen isotopes from tree ring chronologies
representing 34 species across 10 biomes to better understand the environmental drivers …
representing 34 species across 10 biomes to better understand the environmental drivers …
Global tree intrinsic water use efficiency is enhanced by increased atmospheric CO2 and modulated by climate and plant functional types.
JM Mathias, RB Thomas - 2021 - cabidigitallibrary.org
We conducted a meta-analysis of carbon and oxygen isotopes from tree ring chronologies
representing 34 species across 10 biomes to better understand the environmental drivers …
representing 34 species across 10 biomes to better understand the environmental drivers …
[HTML][HTML] Global tree intrinsic water use efficiency is enhanced by increased atmospheric CO2 and modulated by climate and plant functional types
JM Mathias, RB Thomas - Proceedings of the National Academy of …, 2021 - ncbi.nlm.nih.gov
We conducted a meta-analysis of carbon and oxygen isotopes from tree ring chronologies
representing 34 species across 10 biomes to better understand the environmental drivers …
representing 34 species across 10 biomes to better understand the environmental drivers …
Global tree intrinsic water use efficiency is enhanced by increased atmospheric CO2 and modulated by climate and plant functional types
JM Mathias, RB Thomas - … of the United States of America, 2021 - pubmed.ncbi.nlm.nih.gov
We conducted a meta-analysis of carbon and oxygen isotopes from tree ring chronologies
representing 34 species across 10 biomes to better understand the environmental drivers …
representing 34 species across 10 biomes to better understand the environmental drivers …
Global tree intrinsic water use efficiency is enhanced by increased atmospheric CO2 and modulated by climate and plant functional types
JM Mathias, RB Thomas - Proceedings of the National …, 2021 - ui.adsabs.harvard.edu
Abstract Changes in tree physiology driven by environmental change can alter the balance
of forest ecosystem carbon and water fluxes. We performed a meta-analysis of published …
of forest ecosystem carbon and water fluxes. We performed a meta-analysis of published …
Global tree intrinsic water use efficiency is enhanced by increased atmospheric CO 2 and modulated by climate and plant functional types
JM Mathias, RB Thomas - Proceedings of the National Academy of …, 2021 - cir.nii.ac.jp
抄録< jats: title> Significance</jats: title>< jats: p> Changes in tree physiology driven by
environmental change can alter the balance of forest ecosystem carbon and water fluxes …
environmental change can alter the balance of forest ecosystem carbon and water fluxes …
Global tree intrinsic water use efficiency is enhanced by increased atmospheric CO2 and modulated by climate and plant functional types.
JM Mathias, RB Thomas - Proceedings of the National Academy of …, 2021 - europepmc.org
We conducted a meta-analysis of carbon and oxygen isotopes from tree ring chronologies
representing 34 species across 10 biomes to better understand the environmental drivers …
representing 34 species across 10 biomes to better understand the environmental drivers …
Global tree intrinsic water use efficiency is enhanced by increased atmospheric CO₂ and modulated by climate and plant functional types
JM Mathias, RB Thomas - Proceedings of the National Academy of …, 2021 - JSTOR
We conducted a meta-analysis of carbon and oxygen isotopes from tree ring chronologies
representing 34 species across 10 biomes to better understand the environmental drivers …
representing 34 species across 10 biomes to better understand the environmental drivers …