The plant growth promotion effect of ultrasonic-treated K-carrageenan on brassica napus var. chinensis (Black Behi Pechay)

The plant growth promotion effect of ultrasonic-treated K-carrageenan on brassica napus var. chinensis (Black Behi Pechay)

Gamma or electron beam-irradiated depolymerized κ-carrageenan was demonstrated to have a significant plant growth-promotion (PGP) effect, which has been commercially applied by farmers in the Philippines. Despite its success in promoting the growth of economically important crops, the mechanism of i...

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Main Author: Rivere, Althea Marie Hugo
Format: text
Language:English
Published: Animo Repository 2024
Subjects:
Ultrasonics
Growth (Plants)
Rape (Plant)—Varieties
Hydroponics
Chemistry
Online Access:https://animorepository.dlsu.edu.ph/etdm_chem/20
https://animorepository.dlsu.edu.ph/context/etdm_chem/article/1019/viewcontent/2024_Rivere_The_Plant_Growth_Promotion_Effect_of_Ultrasonic_treated_K_Carrage_Full_text.pdf
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Institution: De La Salle University
Language: English
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spelling oai:animorepository.dlsu.edu.ph:etdm_chem-10192024-04-24T06:02:24Z The plant growth promotion effect of ultrasonic-treated K-carrageenan on brassica napus var. chinensis (Black Behi Pechay) Rivere, Althea Marie Hugo Gamma or electron beam-irradiated depolymerized κ-carrageenan was demonstrated to have a significant plant growth-promotion (PGP) effect, which has been commercially applied by farmers in the Philippines. Despite its success in promoting the growth of economically important crops, the mechanism of its plant growth action has not been fully established. Moreover, the use of an irradiation facility makes the technology very restrictive. This work explores the alternative to gamma or electron beam irradiation in depolymerizing κ-carrageenan. Sound waves have been shown to be an effective degradation method of κ-carrageenan, which is more advantageous due to its simplicity and cost efficiency. This study investigated the potential PGP effect of the ultrasonic-treated kappa-carrageenan on the Brassica napus var. chinensis in hydroponics and foliar spray applications. The degradation of κ-carrageenan under ultrasonic conditions afforded oligomers with an average MW of 1,716 Da, which is a 99.85% reduction in MW from the starting κ-carrageenan sample, affording a narrow polydispersity index of 1.007. Mineral analysis of the sonic-treated depolymerized κ carrageenan using EDS afforded relative mineral compositions of 58.84% K, 24.87% Ca, 11.31% Mg, 2.94% Zn, and 2.03% Cu. The PGP effect of the sono-depolymerized κ-carrageenan at 40 ppm concentration under hydroponics conditions showed a 24.75% increase in plant height, a 20.93% increase in leaf width, 52.73% increase in the number of leaves, and a 52.57% increase in fresh weight compared to the negative control. Using a foliar spraying system, the PGP effect at 50 ppm concentration showed a 0.48% increase in plant height, a 0.65% increase in leaf width, a 5.19% decrease in the number of leaves, and a 14.29% increase in fresh weight compared to the negative control. Although statistical comparison with the gamma or e-beam irradiated κ-carrageenan showed no significant difference, correlation studies showed a slight positive correlation between the plant growth parameters with the mineral content and the low average molecular weight. Results of the study showed that ultrasonic treatment is as effective as gamma or electron beam irradiation of κ-carrageenan making it an affordable alternative.Keywords: ultrasonication, kappa-carrageenan, plant growth promotion, Brassica napus var. chinensis, hydroponics 2024-04-01T07:00:00Z text application/pdf https://animorepository.dlsu.edu.ph/etdm_chem/20 https://animorepository.dlsu.edu.ph/context/etdm_chem/article/1019/viewcontent/2024_Rivere_The_Plant_Growth_Promotion_Effect_of_Ultrasonic_treated_K_Carrage_Full_text.pdf Chemistry Master's Theses English Animo Repository Ultrasonics Growth (Plants) Rape (Plant)—Varieties Hydroponics Chemistry
institution De La Salle University
building De La Salle University Library
continent Asia
country Philippines
Philippines
content_provider De La Salle University Library
collection DLSU Institutional Repository
language English
topic Ultrasonics
Growth (Plants)
Rape (Plant)—Varieties
Hydroponics
Chemistry
spellingShingle Ultrasonics
Growth (Plants)
Rape (Plant)—Varieties
Hydroponics
Chemistry
Rivere, Althea Marie Hugo
The plant growth promotion effect of ultrasonic-treated K-carrageenan on brassica napus var. chinensis (Black Behi Pechay)
description Gamma or electron beam-irradiated depolymerized κ-carrageenan was demonstrated to have a significant plant growth-promotion (PGP) effect, which has been commercially applied by farmers in the Philippines. Despite its success in promoting the growth of economically important crops, the mechanism of its plant growth action has not been fully established. Moreover, the use of an irradiation facility makes the technology very restrictive. This work explores the alternative to gamma or electron beam irradiation in depolymerizing κ-carrageenan. Sound waves have been shown to be an effective degradation method of κ-carrageenan, which is more advantageous due to its simplicity and cost efficiency. This study investigated the potential PGP effect of the ultrasonic-treated kappa-carrageenan on the Brassica napus var. chinensis in hydroponics and foliar spray applications. The degradation of κ-carrageenan under ultrasonic conditions afforded oligomers with an average MW of 1,716 Da, which is a 99.85% reduction in MW from the starting κ-carrageenan sample, affording a narrow polydispersity index of 1.007. Mineral analysis of the sonic-treated depolymerized κ carrageenan using EDS afforded relative mineral compositions of 58.84% K, 24.87% Ca, 11.31% Mg, 2.94% Zn, and 2.03% Cu. The PGP effect of the sono-depolymerized κ-carrageenan at 40 ppm concentration under hydroponics conditions showed a 24.75% increase in plant height, a 20.93% increase in leaf width, 52.73% increase in the number of leaves, and a 52.57% increase in fresh weight compared to the negative control. Using a foliar spraying system, the PGP effect at 50 ppm concentration showed a 0.48% increase in plant height, a 0.65% increase in leaf width, a 5.19% decrease in the number of leaves, and a 14.29% increase in fresh weight compared to the negative control. Although statistical comparison with the gamma or e-beam irradiated κ-carrageenan showed no significant difference, correlation studies showed a slight positive correlation between the plant growth parameters with the mineral content and the low average molecular weight. Results of the study showed that ultrasonic treatment is as effective as gamma or electron beam irradiation of κ-carrageenan making it an affordable alternative.Keywords: ultrasonication, kappa-carrageenan, plant growth promotion, Brassica napus var. chinensis, hydroponics
format text
author Rivere, Althea Marie Hugo
author_facet Rivere, Althea Marie Hugo
author_sort Rivere, Althea Marie Hugo
title The plant growth promotion effect of ultrasonic-treated K-carrageenan on brassica napus var. chinensis (Black Behi Pechay)
title_short The plant growth promotion effect of ultrasonic-treated K-carrageenan on brassica napus var. chinensis (Black Behi Pechay)
title_full The plant growth promotion effect of ultrasonic-treated K-carrageenan on brassica napus var. chinensis (Black Behi Pechay)
title_fullStr The plant growth promotion effect of ultrasonic-treated K-carrageenan on brassica napus var. chinensis (Black Behi Pechay)
title_full_unstemmed The plant growth promotion effect of ultrasonic-treated K-carrageenan on brassica napus var. chinensis (Black Behi Pechay)
title_sort plant growth promotion effect of ultrasonic-treated k-carrageenan on brassica napus var. chinensis (black behi pechay)
publisher Animo Repository
publishDate 2024
url https://animorepository.dlsu.edu.ph/etdm_chem/20
https://animorepository.dlsu.edu.ph/context/etdm_chem/article/1019/viewcontent/2024_Rivere_The_Plant_Growth_Promotion_Effect_of_Ultrasonic_treated_K_Carrage_Full_text.pdf
_version_ 1797546148298227712

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