Comparison of seasonal variations in water‐use efficiency calculated from the carbon isotope composition of tree rings and flux data in a temperate forest
A Michelot, T Eglin, E Dufrene… - Plant, cell & …, 2011 - Wiley Online Library
Tree‐ring δ13C is often interpreted in terms of intrinsic water‐use efficiency (WUE) using a
carbon isotope discrimination model established at the leaf level. We examined whether …
carbon isotope discrimination model established at the leaf level. We examined whether …
[引用][C] Comparison of seasonal variations in water-use efficiency calculated from the carbon isotope composition of tree rings and flux data in a temperate forest
A Michelot, T Eglin, E Dufrêne… - Plant, Cell and …, 2011 - hal.science
Comparison of seasonal variations in water-use efficiency calculated from the carbon isotope
composition of tree rings and flux data in a temperate forest - Archive ouverte HAL Accéder …
composition of tree rings and flux data in a temperate forest - Archive ouverte HAL Accéder …
Comparison of seasonal variations in water-use efficiency calculated from the carbon isotope composition of tree rings and flux data in a temperate forest.
A Michelot, T Eglin, E Dufrêne, C Lelarge-Trouverie… - 2011 - cabidigitallibrary.org
Tree-ring δ13C is often interpreted in terms of intrinsic water-use efficiency (WUE) using a
carbon isotope discrimination model established at the leaf level. We examined whether …
carbon isotope discrimination model established at the leaf level. We examined whether …
Comparison of seasonal variations in water‐use efficiency calculated from the carbon isotope composition of tree rings and flux data in a temperate forest
A MICHELOT, T EGLIN, E DUFRÊNE… - Plant, Cell & …, 2011 - infona.pl
Tree‐ring δ 13 C is often interpreted in terms of intrinsic water‐use efficiency (WUE) using a
carbon isotope discrimination model established at the leaf level. We examined whether …
carbon isotope discrimination model established at the leaf level. We examined whether …
Comparison of seasonal variations in water-use efficiency calculated from the carbon isotope composition of tree rings and flux data in a temperate forest.
A Michelot, T Eglin, E Dufrêne… - Plant, Cell & …, 2010 - europepmc.org
Tree-ring δ (13) C is often interpreted in terms of intrinsic water-use efficiency (WUE) using a
carbon isotope discrimination model established at the leaf level. We examined whether …
carbon isotope discrimination model established at the leaf level. We examined whether …
[PDF][PDF] Comparison of seasonal variations in water-use efficiency calculated from the carbon isotope composition of tree rings and flux data in a temperate …
C DAMESIN - Plant, Cell and Environment, 2010 - Citeseer
Tree-ring d13C is often interpreted in terms of intrinsic wateruse efficiency (WUE) using a
carbon isotope discrimination model established at the leaf level. We examined whether …
carbon isotope discrimination model established at the leaf level. We examined whether …
[引用][C] Comparison of seasonal variations in water-use efficiency calculated from the carbon isotope composition of tree rings and flux data in a temperate forest
A MICHELOT, T EGLIN, E DUFRENE… - Plant, cell and …, 2011 - pascal-francis.inist.fr
Comparison of seasonal variations in water-use efficiency calculated from the carbon isotope
composition of tree rings and flux data in a temperate forest CNRS Inist Pascal-Francis CNRS …
composition of tree rings and flux data in a temperate forest CNRS Inist Pascal-Francis CNRS …
Comparison of seasonal variations in water-use efficiency calculated from the carbon isotope composition of tree rings and flux data in a temperate forest
A Michelot, T Eglin, E Dufrêne… - Plant, cell & …, 2011 - pubmed.ncbi.nlm.nih.gov
Tree-ring δ (13) C is often interpreted in terms of intrinsic water-use efficiency (WUE) using a
carbon isotope discrimination model established at the leaf level. We examined whether …
carbon isotope discrimination model established at the leaf level. We examined whether …