This content is not included in
your SAE MOBILUS subscription, or you are not logged in.
SOYCHMBR. I: A Model Designed for the Study of Plant Growth in a Closed Chamber
Annotation ability available
Sector:
Language:
English
Abstract
SOYCHMBR. I, a model designed to study plant growth in a closed chamber, has been developed based on the work of Meyer et al. and their model SOYMOD/OARDC. In the development of SOYCHMBR. I, SOYMOD/OARDC has been modified to allow for incorporation of plant-chamber interactions that are important in the closed environment and to update the model so that it adequately represents the current understanding of plant processes. The photosynthetic routine has been replaced by Tenhunen's. The present version of SOYCHMBR. I is described, and the CO2 dynamics in three test runs are discussed.
Authors
Citation
Reinhold, C., "SOYCHMBR. I: A Model Designed for the Study of Plant Growth in a Closed Chamber," SAE Technical Paper 820853, 1982, https://doi.org/10.4271/820853.Also In
References
- Meyer G. E. Curry R. B. Streeter J. G. Mederski H. J. “SOYMOD/DARDC - A Dynamic Simulator of Soybean Growth, Development, and Seed Yield: I. Theory, Structure, and Validation” Ohio Research Bulletin 1113 1979
- Tenhunen J. D. Lange O. L. Harley P. C. Meyer A. Gates D. M. “The Diurnal Time Course of Net Photosynthesis of Soybean Leaves: Analysis with a Physiologically Based Steady-State Photosynthesis Model.” Oecologia 46 314 321 1980
- Lommen P. W. Schwintzer C. R. Yocum C. S. Gates D. M. “A Model Describing Photosynthesis in Terms of Gas Diffusion and Enzyme Kinetics.” Planta 98 195 220 1971
- Tenhunen J. D. Westrin S. S. “Developement of a Photosynthesis Model with an Emphasis on Ecological Applications.” Oecologia 41 145 162 1979
- Johnson F. Eyring H. Williams R. “The nature of enzyme inhibitions in bacteria luminescence: Sulfanilamide, urethane, temperature, and pressure.” J. cell. comp. Physiol. 20 247 268 1942
- Tenhunen J. D. Webster J. A. Yocum C. S. Gates D. M. “Development of a Photosynthesis Model with an Emphasis on Ecological Applications. II. Analysis of a Data Set Describing the PM Surface.” Oecologia 26 101 119 1976
- Smith E. “The Influence of Light and Carbon Dioxide on Photosynthesis.” Gen. Physiol. 20 807 830 1937
- Smith E. “Limiting factors in photosynthesis: Light and carbon dioxide.” Gen. Physiol. 22 21 35 1938
- Curry R. B. Baker C. H. Streeter J. G. “SOYMOD I: A Dynamic Simulator of Soybean Growth and Development.” Transactions of the ASAE 18 963 968 1975
- Sinclair T. R. Johnson M. N. Drake G. M. Van Houtte R. C. “Mobile Laboratory for Continuous, Long-Term Gas Exchange Measurements of 39 Leaves.” Photosynthetica 13 4 446 453 1979
- Penning de Vries F.W.T. “The Cost of Maintenance Processes in Plant Cells.” Ann. Bot. 39 77 92 1975
- Münch E. Die Stouffbewegungen in der Pflanze Jeana Gustav Fisher 1930
- Housley T. L. Fisher D. B. “Estimation of Osmotic Gradients in Soybean Sieve Tubes by Quantitative Autoradiography. Qualified Support for the Münch Hypothesis.” Plant Physiol. 59 701 706 1977
- Gear C. W. “The automatic integration of ordinary differential equations.” Commun. ACM 14 176 179 1971
- Rawson H. M. Begg J. E. Woodward R. G. “The Effect of Atmospheric Humidity of Photosynthesis, Transpiration and Water Use Efficiency of Leaves of Several Plant Species” Planta 134 5 10 1977