Differential response of root uptake kinetics of NH4+ and NO3- to enriched atmospheric CO2 concentration in field-grown loblolly pine
Publication
, Journal Article
BassiriRad; H; Thomas, RB; REYNOLDS, J; Strain, BR
Published in: Plant Cell and Environment
1996
Duke Scholars
Published In
Plant Cell and Environment
Publication Date
1996
Volume
19
Start / End Page
367 / 371
Related Subject Headings
- Plant Biology & Botany
- 3108 Plant biology
- 07 Agricultural and Veterinary Sciences
- 06 Biological Sciences
Citation
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Chicago
ICMJE
MLA
NLM
BassiriRad, H, Thomas, R. B., REYNOLDS, J., & Strain, B. R. (1996). Differential response of root uptake kinetics of NH4+ and NO3- to enriched atmospheric CO2 concentration in field-grown loblolly pine. Plant Cell and Environment, 19, 367–371.
BassiriRad, H, R. B. Thomas, J. F. REYNOLDS, and B. R. Strain. “Differential response of root uptake kinetics of NH4+ and NO3- to enriched atmospheric CO2 concentration in field-grown loblolly pine.” Plant Cell and Environment 19 (1996): 367–71.
BassiriRad, H, Thomas RB, REYNOLDS J, Strain BR. Differential response of root uptake kinetics of NH4+ and NO3- to enriched atmospheric CO2 concentration in field-grown loblolly pine. Plant Cell and Environment. 1996;19:367–71.
BassiriRad, et al. “Differential response of root uptake kinetics of NH4+ and NO3- to enriched atmospheric CO2 concentration in field-grown loblolly pine.” Plant Cell and Environment, vol. 19, 1996, pp. 367–71.
BassiriRad, H, Thomas RB, REYNOLDS J, Strain BR. Differential response of root uptake kinetics of NH4+ and NO3- to enriched atmospheric CO2 concentration in field-grown loblolly pine. Plant Cell and Environment. 1996;19:367–371.
Published In
Plant Cell and Environment
Publication Date
1996
Volume
19
Start / End Page
367 / 371
Related Subject Headings
- Plant Biology & Botany
- 3108 Plant biology
- 07 Agricultural and Veterinary Sciences
- 06 Biological Sciences