Inorganic and natural silicon sources as soil amendment on growth of local aromatic rice variety

Shajarutulwardah Mohd Yusob and Ahmed, Osumanu Haruna and Latifah Omar and Kueh, Roland Jui Heng and Rahiniza Kamaruzaman. (2023) Inorganic and natural silicon sources as soil amendment on growth of local aromatic rice variety. Journal of Tropical Plant Physiology (JTPP) (Malaysia), 15 (1). pp. 24-36. ISSN 1985-0484

Lodging causes a yield loss of approximately 1 ton per hectare as 20% of the total rice production. Silicon (Si) fertilisers significantly improve paddy grain yield, and lodging resistance by improving leaf firmness besides promoting better plant canopy and boosting photosynthesis. The objective of this study was to determine the effects of Si derived from calcium silicate (CaSiO₃), rice husk ash, and rice straw on paddy plant growth. A pot study was conducted at MARDI Seberang Perai during the main season (2019/2020) and the off-season (2020) using the MRQ 76 rice variety to evaluate 10 Si carriers. The growth parameters of the paddy plants such as number of tillers, plant height, and chlorophyll content at different growth stages were evaluated. During season 1, treatment with 100% CaSiO₃ (T4) significantly improved the plant height. Nevertheless, the organic Si (T1, T2, and T3) and combination between organic Si with CaSiO₃ (T5, T6, T7, and T8) resulted in the tallest plants during season 2. Treatment T7 increased the tillering number per meter square during season 1 whereas in season 2 treatment T8 performed better compared to the standard fertiliser (T9) and control (T10). However, the treatments evaluated in this study did not significantly affect the chlorophyll content of the paddy plants. Applying a combination of rice straw (50%) and rice husk ash (50%) a day before transplanting, followed by CaSiO₃ (100%) as a silicate material during panicle initiation, along with additional NPK fertiliser (17:3:25:2MgO) during heading stage (T7), and without additional NPK fertiliser (17:3:25:2MgO) at the heading stage (T8) were most effective in enhancing crop growth and maintaining the paddy cultivation. Therefore, the findings in this study suggested the potential of using inorganic and organic Si to improve the growth and development of aromatic rice variety.

Full text available from: Official URL: https://www.jtpp.org.my/volume/15_1/vol15_1_articl...

Abstract

Lodging causes a yield loss of approximately 1 ton per hectare as 20% of the total rice production. Silicon (Si) fertilisers significantly improve paddy grain yield, and lodging resistance by improving leaf firmness besides promoting better plant canopy and boosting photosynthesis. The objective of this study was to determine the effects of Si derived from calcium silicate (CaSiO₃), rice husk ash, and rice straw on paddy plant growth. A pot study was conducted at MARDI Seberang Perai during the main season (2019/2020) and the off-season (2020) using the MRQ 76 rice variety to evaluate 10 Si carriers. The growth parameters of the paddy plants such as number of tillers, plant height, and chlorophyll content at different growth stages were evaluated. During season 1, treatment with 100% CaSiO₃ (T4) significantly improved the plant height. Nevertheless, the organic Si (T1, T2, and T3) and combination between organic Si with CaSiO₃ (T5, T6, T7, and T8) resulted in the tallest plants during season 2. Treatment T7 increased the tillering number per meter square during season 1 whereas in season 2 treatment T8 performed better compared to the standard fertiliser (T9) and control (T10). However, the treatments evaluated in this study did not significantly affect the chlorophyll content of the paddy plants. Applying a combination of rice straw (50%) and rice husk ash (50%) a day before transplanting, followed by CaSiO₃ (100%) as a silicate material during panicle initiation, along with additional NPK fertiliser (17:3:25:2MgO) during heading stage (T7), and without additional NPK fertiliser (17:3:25:2MgO) at the heading stage (T8) were most effective in enhancing crop growth and maintaining the paddy cultivation. Therefore, the findings in this study suggested the potential of using inorganic and organic Si to improve the growth and development of aromatic rice variety.

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Item Type:	Article
AGROVOC Term:	plant growth
AGROVOC Term:	Oryza sativa
AGROVOC Term:	varieties
AGROVOC Term:	soil amendments
AGROVOC Term:	fertilizers
AGROVOC Term:	silicon
AGROVOC Term:	rice
AGROVOC Term:	yield factors
AGROVOC Term:	research
AGROVOC Term:	chemicophysical properties
Geographical Term:	Malaysia
Uncontrolled Keywords:	Aromatic rice, lodging, silicon fertiliser, soil amendment
Depositing User:	Ms. Azariah Hashim
Date Deposited:	28 Sep 2024 07:12
Last Modified:	28 Sep 2024 07:12
URI:	http://webagris.upm.edu.my/id/eprint/1268

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