Enhancing growth, soil chemistry, and nutrient uptake in Sonneratia caseolaris seedlings under salinity stress through biochar application


Citation

Nur Sa`adah A. H., . and Jeyanny V., . and Rosazlin A., . and Jamilah Syafawati Y., . and Mohamad Fakhri I., . and Tiun X. C., . and Nureen Irdina Z., . (2024) Enhancing growth, soil chemistry, and nutrient uptake in Sonneratia caseolaris seedlings under salinity stress through biochar application. Journal of Tropical Forest Science (JTFS) (Malaysia), 36 (4). pp. 444-460. ISSN 0128-1283

Abstract

Mangrove forests are well-known for their capability to withstand strong tides and play a crucial role in the aquatic ecosystem. However, anthropogenic factors combined with natural stressors have high chances of affecting the nutrient content, increased salinity and anoxic environment of mangroves, which influences their growth performances. Sonneratia caseolaris is a mangrove plant that resides in areas with fresh water due to its weak resistance against high saline waters. A six-months study was conducted to evaluate if biochar application alleviated salinity stress via modifying sediment properties and nutrient uptake of Sonneratia caseolaris seedlings. Five treatments were evaluated in this study: control; mangrove soil without biochar application (T1), 10% of B. parviflora biochar (T2), 20% of B. parviflora biochar (T3), 10% of G. levis biochar (T4), and 20% of G. levis biochar (T5). From the study, treatment 3 (20% B. parviflora biochar) proved the best improved growth performance which gave the highest plant height, stem diameter, biomass dry weight, root fresh weight, length of entire plant, length of primary root, and signifies a good impact for the growth of seedlings. In addition, application of biochar generally increase the exchangeable cations: K, Mg and Ca in sediment and the total P, K and Mg content in plant compared to control. This demonstrated the potential of the treatment as a soil amendment to not only improved soil properties, but also enhancing Sonneratia caseolaris plants’ tolerance towards salinity stress. Hence, B. parviflora biochar proved as the best quality of biochar and can improve the growth of mangrove plant seedlings including root growth and development as well sediment chemical properties and nutrient uptake.


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Abstract

Mangrove forests are well-known for their capability to withstand strong tides and play a crucial role in the aquatic ecosystem. However, anthropogenic factors combined with natural stressors have high chances of affecting the nutrient content, increased salinity and anoxic environment of mangroves, which influences their growth performances. Sonneratia caseolaris is a mangrove plant that resides in areas with fresh water due to its weak resistance against high saline waters. A six-months study was conducted to evaluate if biochar application alleviated salinity stress via modifying sediment properties and nutrient uptake of Sonneratia caseolaris seedlings. Five treatments were evaluated in this study: control; mangrove soil without biochar application (T1), 10% of B. parviflora biochar (T2), 20% of B. parviflora biochar (T3), 10% of G. levis biochar (T4), and 20% of G. levis biochar (T5). From the study, treatment 3 (20% B. parviflora biochar) proved the best improved growth performance which gave the highest plant height, stem diameter, biomass dry weight, root fresh weight, length of entire plant, length of primary root, and signifies a good impact for the growth of seedlings. In addition, application of biochar generally increase the exchangeable cations: K, Mg and Ca in sediment and the total P, K and Mg content in plant compared to control. This demonstrated the potential of the treatment as a soil amendment to not only improved soil properties, but also enhancing Sonneratia caseolaris plants’ tolerance towards salinity stress. Hence, B. parviflora biochar proved as the best quality of biochar and can improve the growth of mangrove plant seedlings including root growth and development as well sediment chemical properties and nutrient uptake.

Additional Metadata

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Item Type: Article
AGROVOC Term: seedlings
AGROVOC Term: biochar
AGROVOC Term: soil
AGROVOC Term: cations
AGROVOC Term: application
AGROVOC Term: growth
AGROVOC Term: nutrient uptake
AGROVOC Term: plant growth
AGROVOC Term: soil chemistry
AGROVOC Term: biomass
Geographical Term: Malaysia
Uncontrolled Keywords: Biochar, soil amendments, growth performance, nutrient uptake, salinity stress
Depositing User: Ms. Azariah Hashim
Date Deposited: 16 Jun 2026 01:38
Last Modified: 16 Jun 2026 01:38
URI: http://webagris.upm.edu.my/id/eprint/3755

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