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References

Combination for Ganoderma, Pest and Disease. This SawitSecure app provides procedures to reduce the likelihood of alien pathogens and pests being established in Malaysia and minimises the impacts of pest incursion.

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Pests

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  • Angel, L P L; Sundram, S; Bonnie, T Y P; Mohd Termizi, Y and Intan Safinar, I (2018). Profiling of anti-fungal activity of Trichoderma virens 159c involved in biocontrol assay of Ganoderma boninenseOil Palm Res.30(1): 83-93.
  • Angel, L P L; Sundram, S; Bonnie, T Y P; Mohd Termizi, Y and Intan Safinar, I (2018). Profiling of Metabolites Present in Ethyl Acetate Fractionation of Trichoderma virens 7b. Oil Palm Bulletin p. 8-13.
  • Anuar, E N; Nulit, R and Idris, A S (2015). Growth Promoting Effects of Endophytic Fungus Phlebia GanoEF3 on Oil Palm (Elaeis guineensis) Seedlings. J. Agric. Biol., 17(1): 135-141.
  • Ariffin, D (2003). PCR technique for detection of GanodermaMPOB Information Series No. 202.
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  • Farhatun, N M; Mohd Zobir, H and Idris, A S (2020). An overview of the oil palm industry: challenges and some emerging opportunities for nanotechnology development. , 10 (3): 356. DOI: 10.3390/agronomy10030356.
  • Farhatun, N M; Mohd Zobir, H; Nor Azah, Y; Sharida, F; Idris, A S; Zainol Hilmi, N H and Leona Daniela, J D (2019). A potent antifungal agent for basal stem rot disease treatment in oil palms based on chitosan-dazomet nanoparticles. J. Mol. Sci., 20: 2247. DOI:10.3390/ijms20092247.
  • Farhatun, N M; Mohd Zobir, H; Nor Azah, Y; Sharida, F; Idris, A S; Zainol Hilmi, N H and Leona Daniela, J D (2019). Preparation of chitosan–hexaconazole nanoparticles as fungicide nanodelivery system for combating Ganoderma disease in oil palm. Molecules, 24: 2498. DOI:10.3390/molecules24132498.
  • Farhatun, N M; Mohd Zobir, H; Nor Azah, Y; Sharida, F; Idris, A S; Zainol Hilmi, N H and Leona Daniela, J D (2020). Chitosan-based agronanofungicides as a sustainable alternative in the basal stem rot disease management. Agric. Food Chem., DOI: 10.1021/acs.jafc.9b08060.
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  • Halimah, M; Maznah, Z; Ismail, S and Idris, A S (2010). Determination of hexaconazole in crude palm oil and crude palm kernel oil by solid phase extraction and gas chromatography electron capture detection. MPOB Information Series No. 536.
  • Halimah, M; Maznah, Z; Ismail, S and Idris, A S (2010). Determination of hexaconazole in field samples using gas chromatography – electron capture detection (GC-ECDd). MPOB Information Series No. 537.
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  • Ho, C T and Toh, P Y (1982). Some investigations into the control of Oryctes rhinoceros in coconut plantings. The Planter, 58: 492-506
  • Ho, P-Y; Parameswari, N; Sundram, S and Chai-Ling, H (2020). Expression of genes encoding manganese peroxidase and laccase of Ganoderma boninense in response to nitrogen sources, hydrogen peroxide and phytohormones. Genes, 11: 1263. DOI: 10.3390/genes11111263.
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  • Idris A S; Noor Haida, S and Nur-Rashyeda, R (2010). GanoEF1- A fungal biocontrol agent for Ganoderma in oil palm. MPOB Information Series No. 501.
  • Idris, A S (2011). Biology, Detection, Control and Management of Ganoderma in Oil Palm. Further Advances in Oil Palm Research (2000-2010). (Basri, M W; Choo, Y M and Chan, K W eds.). MPOB, Malaysia. p. 485-521.
  • Idris, A S (2012). Latest research and management of Ganoderma disease in oil palm. P of Fourth IOPRI-MPOB International Seminar: Existing and Emerging Pests and Disease of Oil Palm Advances in Research and Management. 13-14 December 2012, Grand Royal Panghegar Hotel, Bandung, Indonesia. p. 1-23.
  • Idris, A S and Arifurrahman, R (2008). Determination of 50% effective concentration (EC50) of fungicides against pathogenic GanodermaMPOB Information Series No. 449.
  • Idris, A S and Madihah, A Z (2019). Bab 17: Penyakit Sawit dan Kawalannya. Perusahaan Sawit di Malaysia Satu Panduan. Edisi Keempat. Kushairi A; Parveez, G K A and Norman, K (eds). MPOB, Bangi. 227-278 pp.
  • Idris, A S and Maizatul-Suriza, M (2012). Prolonging the productive life of Ganoderma infected oil palm with Dazomet. MPOB Information Series No. 616.
  • Idris, A S and Maizatul-Suriza, M (2012). Stump treatment with Dazomet for controlling Ganoderma disease in oil palm. MPOB Information Series No. 615.
  • Idris, A S and Rafidah, A R (2008). Polyclonal antibody for detection of GanodermaMPOB Information Series No. 430.
  • Idris, A S and Shariffah Muzaimah, S A (2021). Nursery and Field Evaluation of Streptomyces nigrogriseolus GanoSA1 to Control Basal Stem Rot in Oil Palm Seedlings. The Planter, 97 (1141): 219-236.
  • Idris, A S, Ismail, S and Ariffin, D (2004). Prolonging the productive life of Ganoderma-infected palms with hexaconazole. MPOB Information Series No. 221.
  • Idris, A S; Abd Rahim, S; Saharul, A M; Rosman, M S; Nordiana, A Z; Hasnol, O; Mohd Faizal, S and Dominic, P (2019). Report on Workshop on Oil Palm Production Through New Technology Application and Mechanization Approaches 2018, Sibu, Sarawak, 26-27 June 2018. MPOB Report BIO (7) 2019. Organized by SOPPOA and MPOB.
  • Idris, A S; Ariffin, D and Ismail, S (2003). Interaction between Ganoderma and leguminous cover crop – Pathogenicity and field observation in oil palm plantation. of the PIPOC 2003 International Palm Oil Congress (Agriculture). MPOB, Bangi. p. 1020-1025.
  • Idris, A S; Ariffin, D; Swinburne, T R and Watt, T A (2000). The identity of Ganoderma species responsible for basal stem rot (BSR) disease of oil palm in Malaysia – Morphological characteristics. MPOB Information Series No.102.
  • Idris, A S; Ariffin, D; Swinburne, T R and Watt, T A (2000). The identity of Ganoderma species responsible for basal stem rot (BSR) disease of oil palm in Malaysia – Pathogenicity test. MPOB Information Series No.103.
  • Idris, A S; Arifurrahman, R and Kushairi, A (2010). Hexaconazole as a preventive treatment for managing Ganoderma in oil palm. MPOB Information Series No. 533.
  • Idris, A S; Azhar, T; Wahid, O; Hasnol, O and Tarmizi, A M (2009). Spatial pattern and hotspot analyses of Ganoderma disease in oil palm plantations using the geographical information system (GIS). MPOB Information Series No. 488.
  • Idris, A S; Ismail S; Ariffin, D and Ahmad, H (2002). Control of Ganoderma-infected palm – Development of pressure injection and field applications. MPOB Information Series No.148.
  • Idris, A S; Ismail, S and Ariffin, D (2004). Innovative technique of sanitation for controlling Ganoderma at replanting. MPOB Information Series No. 220.
  • Idris, A S; Ismail, S and Ariffin, D (2005). Reducing risk of Ganoderma in supply palms. MPOB Information Series No. 264.
  • Idris, A S; Kushairi, A; Ariffin, D and Basri, M W (2006). Technique for inoculation of oil palm geminated seeds with GanodermaMPOB Information Series No. 321.
  • Idris, A S; Kushairi, A; Ismail, S and Ariffin, D (2004). Selection for partial resistance in oil palm progenies to Ganoderma basal stem rot. Oil Palm Res., 16(2): 12-18.
  • Idris, A S; Mazliham, M S; Loonis, P and Basri, M W (2010). Ganosken for early detection of Ganoderma infection in oil palm. MPOB Information Series No. 449.
  • Idris, A S; Mior, M H A Z; Maizatul-Suriza M and Kushairi, A (2011). Survey on status of Ganoderma diseases of oil palm in Malaysia 2009-2010. of the PIPOC 2011 International Palm Oil Congress (Agriculture, Biotechnology and Sustainability). MPOB, Bangi. p. 235-238.
  • Idris, A S; Mior, M H A Z; Maizatul-Suriza M and Kushairi, A (2011). Survey on adoption of technology on controlling and managing of Ganoderma disease of oil palm in Malaysia 2009-2010. of the Third International Seminar Integrated Oil Palm Pests and Management. MPOB, Bangi. p. 116-123.
  • Idris, A S; Mior, M H A Z; Wahid, O and Kushairi, A (2010). Geostatistics for monitoring Ganoderma outbreak in oil palm plantations. MPOB Information Series No. 532. MPOB, Bangi.
  • Idris, A S; Mohd Shukri, I; Norman, K; A Kushairi; Choo, Y M; Hanafi, M M; Razali T and Md Yid M S (2014). GanoCare™- Reducing Risk of Ganoderma Infection in oil palm. MPOB Information Series No. 653.
  • Idris, A S; Mohd Shukri, I; Norman, K; Choo, Y M; Kushairi, A; Hanafi, M M; Mohd Nawawi, W and Zaafar M D (2015). Chemical fertilizer GanoCare™ as preventive treatment in controlling Ganoderma disease of oil palm. MPOB Information Series No. 693.
  • Idris, A S; Mohd Shukri, I; Norman, K; Choo, Y M; Kushairi, A; Hanafi, M M; Mohd Nawawi, W and Zaafar, M D (2015). Chemical fertilizer GanoCare™ as preventive treatment in controlling Ganoderma disease of oil palm. MPOB TT No. 564.
  • Idris, A S; Nasyaruddin, M N M; Maizatul-Suriza, M and Zaiton, S (2010). GanoEB1- A bacterial biocontrol agent for Ganoderma in oil palm. MPOB Information Series No. 500.
  • Idris, A S; Noorhaida, S and Sundram, S (2008). In vitro methods for evaluation of antagonistic fungi against pathogenic MPOB Information Series No. 450.
  • Idris, A S; Nur-Rashyeda, R and Yuvarani, N (2018). Green Technology Approaches for the Management of Ganoderma Disease in Oil Palm. In Feature Article Annual Research Review 2017. MPOB, Bangi.
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  • Idris, A S; Nur-Rashyeda, R; Rusli, M H; Sundram, S and Norman, K (2016). Standard operating procedures (SOP) guidelines for managing Ganoderma disease in oil palm. MPOB, Bangi. 41pp.
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  • Idris, A S; Shariffah-Muzaimah, S A; Madihah, A Z; Norman, K; Kushairi, A; Choo, Y M; Hamirin, K and Wan Ismail, W H (2014). EmbioTM actinoPLUS for biological control of Ganoderma MPOB information series No. 652.
  • Idris, A S; Zaiton, S and Noorhaida, S (2008). In vitro methods for evaluation of antagonistic bacteria and actinomycetes against pathogenic MPOB Information Series No. 451.
  • Illi Nadrah, N; Nulit, R; Nur-Rashyeda, R and Idris, A S (2015). Effect of formulated bioorganic containing Burkholderia GanoEB2 in suppressing Ganoderma disease in oil palm seedlings. Plant Protec. Sci., 51: 80-87.
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  • Izzuddin, M A; Idris, A S; Nisfariza, M N; Nordiana, A A; Mohd Shafri, H Z and Ezzati, B (2017). The development of spectral indices for early detection of Ganoderma disease in oil palm seedlings. J. Remote Sens., 38(23): 6505-6527. https://doi.org/10.1080/01431161.2017.1335908.
  • Izzuddin, M A; Idris, A S; Nishfariza, M N; Wahid, O and Shafri, H Z M (2013). Field spectroscopy for detection of Ganoderma disease in oil palm. MPOB Information Series No. 630.
  • Izzuddin, M A; Nisfariza, M N; Idris, A S; Steven, M D and Boyd, D (2018). Analysis of airborne hyperspectral image using vegetation indices, red edge position and continuum removal for detection of Ganoderma Disease in Oil Palm. Oil Palm Res., 30: 416-428. https://doi.org/10.21894/jopr.2018.0037.
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  • Kushairi, A; Meilina, O A; Nambiappan, B; Elina, H; Mohd Noor Izuddin, Z B; Razmah, G; Subramaniam, V; Sundram, S and Parveez, G K A (2019). Oil Palm Economic Performance in Malaysia and R&D Progress in 2018. Oil Palm Res., 31: 165-194. DOI: https://doi.org/10.21894/jopr.2019.0026.
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  • Liyana, M Z (2019). Transcriptomic analysis of Ganoderma-infected oil palms via RNA-SEQ technology and real-time PCR. MSc thesis, Universiti Putra Malaysia. (Supervisor: Dr. Idris Abu Seman).
  • Madihah, A Z; Idris, A S and Rafidah, A R (2014). Polyclonal antibodies of Ganoderma isolate from Malaysian oil palm plantations for detection of basal stem rot disease. African JBiotechno(13)34: 3455-3463.
  • Madihah, A Z; Maizatul-Suriza, M; Idris, A S; Bakar, M F A; Kamaruddin, S; Bharudin, I; Abu Bakar, F D and Murad, A M A (2018). Comparison of DNA extraction and detection of Ganoderma, causal of basal stem rot disease in oil palm using loop-mediated isothermal amplification. Applied Biol., 47(5): 119-127.
  • Maizatul-Suriza, M and Idris, A S (2008). Glyphosate monoammonium for controlling volunteer oil palm seedlings. MPOB Information Series No 431.
  • Maizatul-Suriza, M and Idris, A S (2019). Bab 15: Pengurusan Rumpai. Perusahaan Sawit di Malaysia Satu Panduan. Edisi Keempat. Kushairi A; Parveez, G K A and Norman, K (eds). MPOB, Bangi. 191-212 pp.
  • Maizatul-Suriza, M; Idris, A S; Madihah, A Z; Nasyaruddin, M N M and Kushairi, A (2012). Burkholderia GanoEB2 powder as biological control of Ganoderma in oil palm. MPOB Information Series No. 594.
  • Maizatul-Suriza, M; Suhanah, J; Madihah, A Z; Idris, A S and Mohidin, H (2021). Phylogenetic and pathogenicity evaluation of the marasmioid fungus Marasmius palmivorus causing fruit bunch rot disease of oil palm. Pathol.51. DOI: 10.1111/efp.12660.
  • Maluin, F N ; Hussein, M Z; Yusof, N A; Idris, A S; Daim, L D J; Sarian, M N; Rajab, N F; Ee Ling, S; Rashid, N and Fakurazi, S (2020). Cytoprotection, genoprotection, and dermal exposure assessment of chitosan-based agronanofungicides. Pharmaceutics, 12, 497. DOI: 10.3390/pharmaceutics12060497.
  • Maluin, F N; Hussein, M Z; Yusof, N A; Fakurazi, S; Idris, A S; Zainol Hilmi, N H and Daim, L D J (2020). Phytotoxicity of chitosan-based agronanofungicides in the vegetative growth of oil palm seedling. PLoS ONE15 (4): e0231315. DOI: 10.1371/journal.pone.0231315.
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  • Maznah, Z; Halimah, M; Ismail, A and Idris, A S (2015). Dissipation of the fungicide hexaconazole in oil palm plantation. Sci. Pollut. Res., 22(24): 19648-19657. http://dx.doi.org/10.1007/s11356-015-5178-z.
  • Mohamed-Azni, I N A; Sundram, S; Paudzai, F A; Ho, C L; Roslan, N D; Salwa, A S; Angel, L P L and Idris, A S (2019). Trichoderma tracking in plants using green fluorescent labelling. MPOB TS No. 181. 4pp.
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Oil palm is the major commodity crop for Malaysia. It is important to ensure its sustainability by improving yield as well as protecting the crop from pest and diseases.

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