Detection of basal stem rot disease at oil palm plantations using sonic tomography

Ishaq I., . and Alias M. S., . and Kadir J., . and Kasawani I., . Detection of basal stem rot disease at oil palm plantations using sonic tomography. pp. 52-57. ISSN 1823-8556

Ganoderma boninense cause basal stem rot (BSR) disease to oil palm in Malaysia. It is the most serious disease of oil palm in Malaysia where 3.5 of plantation areas infected render lost in revenue of RM 1 billion/year. Detection of BSR is challenging because the external symptoms do not appear at early stages of infection. To date common methods used to detect BSR disease are morphological and molecular techniques. These techniques are costly and time-consuming. This study aims to identify quantify and classify BSR lession using tomography. A total of 51 palms with BSR visual symptoms and neighbouring palms were selected and scanned using PiCUS Sonic Tomograph. Samples from the trunks were digged-out using increment borer and tested on Ganoderma selective medium (GSM) for detection purposes.Tomograph result revealed that there were two trees with 0 damaged nine trees with 1-20 damaged 19 trees with 21-40 damaged 15 trees with 41-60 damaged and six trees with 61-100 damaged. In addition Ganoderma selective medium reconfirms that 49 out of 51 trees have been infected with BSR disease indicating tomogram accuracy of detecting BSR is 96. Accuracy assessment also revealed that tomography is able to determine BSR severity level at 82. Hence the application of tomography in detecting Ganoderma infection is pertinent for oil palm plantation management to treat the oil palm accurately and effectively.

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Abstract

Ganoderma boninense cause basal stem rot (BSR) disease to oil palm in Malaysia. It is the most serious disease of oil palm in Malaysia where 3.5 of plantation areas infected render lost in revenue of RM 1 billion/year. Detection of BSR is challenging because the external symptoms do not appear at early stages of infection. To date common methods used to detect BSR disease are morphological and molecular techniques. These techniques are costly and time-consuming. This study aims to identify quantify and classify BSR lession using tomography. A total of 51 palms with BSR visual symptoms and neighbouring palms were selected and scanned using PiCUS Sonic Tomograph. Samples from the trunks were digged-out using increment borer and tested on Ganoderma selective medium (GSM) for detection purposes.Tomograph result revealed that there were two trees with 0 damaged nine trees with 1-20 damaged 19 trees with 21-40 damaged 15 trees with 41-60 damaged and six trees with 61-100 damaged. In addition Ganoderma selective medium reconfirms that 49 out of 51 trees have been infected with BSR disease indicating tomogram accuracy of detecting BSR is 96. Accuracy assessment also revealed that tomography is able to determine BSR severity level at 82. Hence the application of tomography in detecting Ganoderma infection is pertinent for oil palm plantation management to treat the oil palm accurately and effectively.

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Item Type:	Article
AGROVOC Term:	Oil palms
AGROVOC Term:	Oil plants
AGROVOC Term:	Fungal diseases
AGROVOC Term:	Ganoderma
AGROVOC Term:	Trunks
AGROVOC Term:	Plant diseases
AGROVOC Term:	Pathogens
AGROVOC Term:	Pathogenic fungi
AGROVOC Term:	Techniques
AGROVOC Term:	Tomography
Geographical Term:	Malaysia
Depositing User:	Ms. Suzila Mohamad Kasim
Last Modified:	28 Apr 2025 07:17
URI:	http://webagris.upm.edu.my/id/eprint/24241

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