ANALYSIS OF THE TEMPERATURE DEPENDENCE OF CO2 ASSIMILATION RATE (STUDY CASE: GLYCINE MAXL. MERR)
The maximum rate of carboxylation (Kcmax) and maximum rate of regeneration of Ribulose bisphosphate (RuBP) (controlled by the rate of electron transport, Jmax) arc two processes governing the photosynthetic capacity of plants. Both processes are affected by temperature. This paper examines how the...
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Format: | Article |
Language: | English |
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SEAMEO, BIOTROP
2011-11-01
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Series: | Biotropia: The Southeast Asian Journal of Tropical Biology |
Online Access: | https://journal.biotrop.org/index.php/biotropia/article/view/176 |
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author | TANIA JUNE |
author_facet | TANIA JUNE |
author_sort | TANIA JUNE |
collection | DOAJ |
description | The maximum rate of carboxylation (Kcmax) and maximum rate of regeneration of Ribulose bisphosphate (RuBP)
(controlled by the rate of electron transport, Jmax) arc two processes governing the photosynthetic capacity of plants. Both
processes are affected by temperature. This paper examines how the response of these two photosynthetic capacities to
temperature determines the temperature response curve of the CO2-assimilation rate for plants grown at different
temperatures, by using the concept of the Farquhar €3 photosynthesis model. The goal is to use photosynthetic parameters
from CO2 and light curves to predict the temperature dependence of the CO2-assimilation rate (A) of soybean and to estimate
the preferred growth temperature. Analysis shows that the optimum temperature of the assimilation rate changes with the
changing temperature dependence of carboxylation and regeneration of RuBP.
Key words :Â temperature dependence/soybean/modeling photosynthesis/preferred growth temperature. |
first_indexed | 2024-03-12T18:32:10Z |
format | Article |
id | doaj.art-adf53136ef6f4307b97f60a758608dd2 |
institution | Directory Open Access Journal |
issn | 0215-6334 1907-770X |
language | English |
last_indexed | 2024-03-12T18:32:10Z |
publishDate | 2011-11-01 |
publisher | SEAMEO, BIOTROP |
record_format | Article |
series | Biotropia: The Southeast Asian Journal of Tropical Biology |
spelling | doaj.art-adf53136ef6f4307b97f60a758608dd22023-08-02T08:16:18ZengSEAMEO, BIOTROPBiotropia: The Southeast Asian Journal of Tropical Biology0215-63341907-770X2011-11-012410.11598/btb.2005.0.24.176ANALYSIS OF THE TEMPERATURE DEPENDENCE OF CO2 ASSIMILATION RATE (STUDY CASE: GLYCINE MAXL. MERR)TANIA JUNE0SEAMEO BIOTROPThe maximum rate of carboxylation (Kcmax) and maximum rate of regeneration of Ribulose bisphosphate (RuBP) (controlled by the rate of electron transport, Jmax) arc two processes governing the photosynthetic capacity of plants. Both processes are affected by temperature. This paper examines how the response of these two photosynthetic capacities to temperature determines the temperature response curve of the CO2-assimilation rate for plants grown at different temperatures, by using the concept of the Farquhar €3 photosynthesis model. The goal is to use photosynthetic parameters from CO2 and light curves to predict the temperature dependence of the CO2-assimilation rate (A) of soybean and to estimate the preferred growth temperature. Analysis shows that the optimum temperature of the assimilation rate changes with the changing temperature dependence of carboxylation and regeneration of RuBP. Key words : temperature dependence/soybean/modeling photosynthesis/preferred growth temperature.https://journal.biotrop.org/index.php/biotropia/article/view/176 |
spellingShingle | TANIA JUNE ANALYSIS OF THE TEMPERATURE DEPENDENCE OF CO2 ASSIMILATION RATE (STUDY CASE: GLYCINE MAXL. MERR) Biotropia: The Southeast Asian Journal of Tropical Biology |
title | ANALYSIS OF THE TEMPERATURE DEPENDENCE OF CO2 ASSIMILATION RATE (STUDY CASE: GLYCINE MAXL. MERR) |
title_full | ANALYSIS OF THE TEMPERATURE DEPENDENCE OF CO2 ASSIMILATION RATE (STUDY CASE: GLYCINE MAXL. MERR) |
title_fullStr | ANALYSIS OF THE TEMPERATURE DEPENDENCE OF CO2 ASSIMILATION RATE (STUDY CASE: GLYCINE MAXL. MERR) |
title_full_unstemmed | ANALYSIS OF THE TEMPERATURE DEPENDENCE OF CO2 ASSIMILATION RATE (STUDY CASE: GLYCINE MAXL. MERR) |
title_short | ANALYSIS OF THE TEMPERATURE DEPENDENCE OF CO2 ASSIMILATION RATE (STUDY CASE: GLYCINE MAXL. MERR) |
title_sort | analysis of the temperature dependence of co2 assimilation rate study case glycine maxl merr |
url | https://journal.biotrop.org/index.php/biotropia/article/view/176 |
work_keys_str_mv | AT taniajune analysisofthetemperaturedependenceofco2assimilationratestudycaseglycinemaxlmerr |