Flavonoid and leaf gas exchange responses of centella asiatica to acute gamma irradiation and carbon dioxide enrichment under controlled environment conditions.

Flavonoid and leaf gas exchange responses of centella asiatica to acute gamma irradiation and carbon dioxide enrichment under controlled environment conditions.

The study was couducted to investigate the effects of gamma irradiation and CO 2 on flavonoid content and leaf gas exchange in C.asiatica. For flavonoid determination, the design was a split split plot based on Randomized Complete Block Design (RCBD). For other parameters, the designs were split plo...

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Main Authors: Moghaddam, Sina Siavash, Jaafar, Hawa, Abdul Aziz, Maheran, Ibrahim, Rusli, Rahmat, Asmah, Philip, Elizabeth
Format: Article
Language:English
English
Published: MDPI 2011
Online Access:http://psasir.upm.edu.my/id/eprint/24603/
http://psasir.upm.edu.my/id/eprint/24603/1/Flavonoid%20and%20leaf%20gas%20exchange%20responses%20of%20centella%20asiatica%20to%20acute%20gamma%20irradiation%20and%20carbon%20dioxide%20enrichment%20under%20controlled%20environment%20conditions.pdf
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author Moghaddam, Sina Siavash
Jaafar, Hawa
Abdul Aziz, Maheran
Ibrahim, Rusli
Rahmat, Asmah
Philip, Elizabeth
author_facet Moghaddam, Sina Siavash
Jaafar, Hawa
Abdul Aziz, Maheran
Ibrahim, Rusli
Rahmat, Asmah
Philip, Elizabeth
author_sort Moghaddam, Sina Siavash
building UPM Institutional Repository
collection Online Access
description The study was couducted to investigate the effects of gamma irradiation and CO 2 on flavonoid content and leaf gas exchange in C.asiatica. For flavonoid determination, the design was a split split plot based on Randomized Complete Block Design (RCBD). For other parameters, the designs were split plots. Statistical tests revealed significant differences in flavonoid contents of Centella asiatica leaves between different growth stages and various CO 2 treatments. CO 2 400, G20 (400 = ambient CO 2; G20 = Plants exposed to 20 Gy) showed 82.90% higher total flavonoid content (TFC) in the 5th week than CO 2 400 as control at its best harvest time (4th week). Increasing the concentration of CO 2 from 400 to 800 μmol/mol had significant effects on TFC and harvesting time. In fact, 800 μmol/mol resulted in 171.1% and 66.62% increases in TFC for control and irradiated plants, respectively. Moreover, increasing CO 2 concentration reduced the harvesting time to three and four weeks for control and irradiated plants, respectively. Enhancing CO 2 to 800 μmol/mol resulted in a 193.30% (CO 2 800) increase in leaf biomass compared to 400 μmol/mol and 226.34% enhancement in irradiated plants (CO 2 800, G20) [800 = Ambient CO 2; G20 = Plants exposed to 20 Gy] than CO 2 400, G20. In addition, the CO 2 800, G20 had the highest amount of flavonoid biomass in the 4th week. The results of this study indicated that all elevated CO 2 treatments had higher PN than the ambient ones. The findings showed that when CO 2 level increased from 400 to 800 μmol/mol, stomatal conductance, leaf intercellular CO 2 and transpiration rate had the tendency to decrease. However, water use efficiency increased in response to elevated CO 2 concentration. Returning to the findings of this study, it is now possible to state that the proposed method (combined CO 2 and gamma irradiation) has the potential to increase the product value by reducing the time to harvest, increasing the yield per unit area via boosting photosynthesis capacity, as well as increasing biochemicals (flavonoids) per gram DM.
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institution Universiti Putra Malaysia
institution_category Local University
language English
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publishDate 2011
publisher MDPI
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spelling upm-246032015-10-16T06:20:25Z http://psasir.upm.edu.my/id/eprint/24603/ Flavonoid and leaf gas exchange responses of centella asiatica to acute gamma irradiation and carbon dioxide enrichment under controlled environment conditions. Moghaddam, Sina Siavash Jaafar, Hawa Abdul Aziz, Maheran Ibrahim, Rusli Rahmat, Asmah Philip, Elizabeth The study was couducted to investigate the effects of gamma irradiation and CO 2 on flavonoid content and leaf gas exchange in C.asiatica. For flavonoid determination, the design was a split split plot based on Randomized Complete Block Design (RCBD). For other parameters, the designs were split plots. Statistical tests revealed significant differences in flavonoid contents of Centella asiatica leaves between different growth stages and various CO 2 treatments. CO 2 400, G20 (400 = ambient CO 2; G20 = Plants exposed to 20 Gy) showed 82.90% higher total flavonoid content (TFC) in the 5th week than CO 2 400 as control at its best harvest time (4th week). Increasing the concentration of CO 2 from 400 to 800 μmol/mol had significant effects on TFC and harvesting time. In fact, 800 μmol/mol resulted in 171.1% and 66.62% increases in TFC for control and irradiated plants, respectively. Moreover, increasing CO 2 concentration reduced the harvesting time to three and four weeks for control and irradiated plants, respectively. Enhancing CO 2 to 800 μmol/mol resulted in a 193.30% (CO 2 800) increase in leaf biomass compared to 400 μmol/mol and 226.34% enhancement in irradiated plants (CO 2 800, G20) [800 = Ambient CO 2; G20 = Plants exposed to 20 Gy] than CO 2 400, G20. In addition, the CO 2 800, G20 had the highest amount of flavonoid biomass in the 4th week. The results of this study indicated that all elevated CO 2 treatments had higher PN than the ambient ones. The findings showed that when CO 2 level increased from 400 to 800 μmol/mol, stomatal conductance, leaf intercellular CO 2 and transpiration rate had the tendency to decrease. However, water use efficiency increased in response to elevated CO 2 concentration. Returning to the findings of this study, it is now possible to state that the proposed method (combined CO 2 and gamma irradiation) has the potential to increase the product value by reducing the time to harvest, increasing the yield per unit area via boosting photosynthesis capacity, as well as increasing biochemicals (flavonoids) per gram DM. MDPI 2011-11 Article PeerReviewed application/pdf en http://psasir.upm.edu.my/id/eprint/24603/1/Flavonoid%20and%20leaf%20gas%20exchange%20responses%20of%20centella%20asiatica%20to%20acute%20gamma%20irradiation%20and%20carbon%20dioxide%20enrichment%20under%20controlled%20environment%20conditions.pdf Moghaddam, Sina Siavash and Jaafar, Hawa and Abdul Aziz, Maheran and Ibrahim, Rusli and Rahmat, Asmah and Philip, Elizabeth (2011) Flavonoid and leaf gas exchange responses of centella asiatica to acute gamma irradiation and carbon dioxide enrichment under controlled environment conditions. Molecules, 16 (11). pp. 8930-8944. ISSN 1420-3049; ESSN:1420-3049 http://www.mdpi.com/ 10.3390/molecules16118930 English
spellingShingle Moghaddam, Sina Siavash
Jaafar, Hawa
Abdul Aziz, Maheran
Ibrahim, Rusli
Rahmat, Asmah
Philip, Elizabeth
Flavonoid and leaf gas exchange responses of centella asiatica to acute gamma irradiation and carbon dioxide enrichment under controlled environment conditions.
title Flavonoid and leaf gas exchange responses of centella asiatica to acute gamma irradiation and carbon dioxide enrichment under controlled environment conditions.
title_full Flavonoid and leaf gas exchange responses of centella asiatica to acute gamma irradiation and carbon dioxide enrichment under controlled environment conditions.
title_fullStr Flavonoid and leaf gas exchange responses of centella asiatica to acute gamma irradiation and carbon dioxide enrichment under controlled environment conditions.
title_full_unstemmed Flavonoid and leaf gas exchange responses of centella asiatica to acute gamma irradiation and carbon dioxide enrichment under controlled environment conditions.
title_short Flavonoid and leaf gas exchange responses of centella asiatica to acute gamma irradiation and carbon dioxide enrichment under controlled environment conditions.
title_sort flavonoid and leaf gas exchange responses of centella asiatica to acute gamma irradiation and carbon dioxide enrichment under controlled environment conditions.
url http://psasir.upm.edu.my/id/eprint/24603/
http://psasir.upm.edu.my/id/eprint/24603/
http://psasir.upm.edu.my/id/eprint/24603/
http://psasir.upm.edu.my/id/eprint/24603/1/Flavonoid%20and%20leaf%20gas%20exchange%20responses%20of%20centella%20asiatica%20to%20acute%20gamma%20irradiation%20and%20carbon%20dioxide%20enrichment%20under%20controlled%20environment%20conditions.pdf

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