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Combining carbon-13 and oxygen-18 to unravel triticale grain yield and physiological response to water stress

Lawrence Munjonji (UGent) , Kingsley K Ayisi, Bram Vandewalle, Geert Haesaert (UGent) and Pascal Boeckx (UGent)
(2016) FIELD CROPS RESEARCH. 195. p.36-49
Author
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Keywords
Grain yield, Triticale, Intrinsic water use efficiency, Delta C-13, CARBON-ISOTOPE DISCRIMINATION, GROWN DURUM-WHEAT, USE EFFICIENCY, STOMATAL CONDUCTANCE, CONCEPTUAL-MODEL, GAS-EXCHANGE, BREAD WHEAT, FLAG LEAF, MEDITERRANEAN CONDITIONS, EAR PHOTOSYNTHESIS

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Citation

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Chicago
Munjonji, Lawrence, Kingsley K Ayisi, Bram Vandewalle, Geert Haesaert, and Pascal Boeckx. 2016. “Combining Carbon-13 and Oxygen-18 to Unravel Triticale Grain Yield and Physiological Response to Water Stress.” Field Crops Research 195: 36–49.
APA
Munjonji, L., Ayisi, K. K., Vandewalle, B., Haesaert, G., & Boeckx, P. (2016). Combining carbon-13 and oxygen-18 to unravel triticale grain yield and physiological response to water stress. FIELD CROPS RESEARCH, 195, 36–49.
Vancouver
1.
Munjonji L, Ayisi KK, Vandewalle B, Haesaert G, Boeckx P. Combining carbon-13 and oxygen-18 to unravel triticale grain yield and physiological response to water stress. FIELD CROPS RESEARCH. 2016;195:36–49.
MLA
Munjonji, Lawrence, Kingsley K Ayisi, Bram Vandewalle, et al. “Combining Carbon-13 and Oxygen-18 to Unravel Triticale Grain Yield and Physiological Response to Water Stress.” FIELD CROPS RESEARCH 195 (2016): 36–49. Print.
@article{8501747,
  author       = {Munjonji, Lawrence and Ayisi, Kingsley K and Vandewalle, Bram and Haesaert, Geert and Boeckx, Pascal},
  issn         = {0378-4290},
  journal      = {FIELD CROPS RESEARCH},
  keyword      = {Grain yield,Triticale,Intrinsic water use efficiency,Delta C-13,CARBON-ISOTOPE DISCRIMINATION,GROWN DURUM-WHEAT,USE EFFICIENCY,STOMATAL CONDUCTANCE,CONCEPTUAL-MODEL,GAS-EXCHANGE,BREAD WHEAT,FLAG LEAF,MEDITERRANEAN CONDITIONS,EAR PHOTOSYNTHESIS},
  language     = {eng},
  pages        = {36--49},
  title        = {Combining carbon-13 and oxygen-18 to unravel triticale grain yield and physiological response to water stress},
  url          = {http://dx.doi.org/10.1016/j.fcr.2016.06.001},
  volume       = {195},
  year         = {2016},
}
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