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Resistance to radial CO2 diffusion contributes to between-tree variation in CO2 efflux of Populus deltoides stems

Kathy Steppe (UGent) , An Saveyn (UGent) , MA MCGUIRE, Raoul Lemeur (UGent) and RO TESKEY
(2007) FUNCTIONAL PLANT BIOLOGY. 34(9). p.785-792
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Chicago
Steppe, Kathy, An Saveyn, MA MCGUIRE, Raoul Lemeur, and RO TESKEY. 2007. “Resistance to Radial CO2 Diffusion Contributes to Between-tree Variation in CO2 Efflux of Populus Deltoides Stems.” Functional Plant Biology 34 (9): 785–792.
APA
Steppe, Kathy, Saveyn, A., MCGUIRE, M., Lemeur, R., & TESKEY, R. (2007). Resistance to radial CO2 diffusion contributes to between-tree variation in CO2 efflux of Populus deltoides stems. FUNCTIONAL PLANT BIOLOGY, 34(9), 785–792.
Vancouver
1.
Steppe K, Saveyn A, MCGUIRE M, Lemeur R, TESKEY R. Resistance to radial CO2 diffusion contributes to between-tree variation in CO2 efflux of Populus deltoides stems. FUNCTIONAL PLANT BIOLOGY. 2007;34(9):785–92.
MLA
Steppe, Kathy, An Saveyn, MA MCGUIRE, et al. “Resistance to Radial CO2 Diffusion Contributes to Between-tree Variation in CO2 Efflux of Populus Deltoides Stems.” FUNCTIONAL PLANT BIOLOGY 34.9 (2007): 785–792. Print.
@article{423675,
  author       = {Steppe, Kathy and Saveyn, An and MCGUIRE, MA and Lemeur, Raoul and TESKEY, RO},
  issn         = {1445-4408},
  journal      = {FUNCTIONAL PLANT BIOLOGY},
  language     = {eng},
  number       = {9},
  pages        = {785--792},
  title        = {Resistance to radial CO2 diffusion contributes to between-tree variation in CO2 efflux of Populus deltoides stems},
  volume       = {34},
  year         = {2007},
}

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