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Padi & Beras

PENYELIDIKAN
PADI & BERAS

PENYELIDIKAN

  • Skop Penyelidikan

    Menghasilkan varieti padi hibrid, inbred dan spesialti yang boleh meningkatkan hasil padi dan kualiti beras
    Membangunkan sistem pengeluaran efisien yang meningkatkan hasil dan kualiti serta mengurangkan kebergantungan kepada insentif
    Membangunkan teknologi pengurusan perosak padi yang berkesan, kos efektif, mesra alam dan lestari
    Membangunkan sistem saringan, pengenalpastian penyakit dan perosak baharu
    Membangunkan teknologi pengendalian lepas tuai yang efisien dan kos efektif bagi mengurangkan kehilangan hasil dan mengekalkan kualiti hasilan beras

     

  • Bidang Kepakaran

    Pembiakbakaan 
    • Pengumpulan dan penilaian janaplasma
    • Pembiakbakaan konvensional dan molekular
    • Pembiakan benih baka
    • Padi hibrid
    • Padi inbred
    • Padi spesialti
    Agronomi dan Sistem Pengeluaran
    • Pengurusan nutrien dan pembajaan
    • Sistem pengeluaran tanaman padi
    • Sistem pengeluaran benih padi hibrid
    • Analisis tanah dan tisu tumbuhan
    Pengurusan Perosak dan Penyakit 
    • Pengurusan serangga perosak padi
    • Pengurusan penyakit padi bawaan bakteria, kulat dan virus
    • Pengurusan padi angin dan rumpai padi
    • Pengurusan siput gondang
    • Pengurusan tikus sawah
    • Penilaian keberkesanan input racun perosak padi
    Pengendalian Lepas Tuai 
    • Pengurangan kehilangan lepas tuai pada peringkat pemprosesan primer iaitu pengeringan, pengilangan dan penyimpanan
    • Penilaian ciri kualiti fizikokimia padi dan beras
    • Pemutuan padi
    • Pengawalan perosak dalam penyimpanan padi dan beras

     

  • Teknologi

    PR TEKNOLOGI

  • Penerbitan

    1. Amirrudin,M. et.al. (2018). MARDI Sebernas 307: New Rice Variety. Paper presented at 4th International Plant Breeding Conference. Bangi, Selangor, Malaysia.
    2. Chong, T.V., Azimah, A.K., Azmi, M., Chew, S.E., Baharudin, A., Norhidayati, S., Aqilah, A. dan Syazwani, M.R. (2014). Penentuan Tempoh Kritikal Untuk Mengawal Rumpai dalam Kawasan Penanaman Padi Wangi MRQ 76, Q 88 dan Q 89. Jurnal Teknologi. 70(6):13-15.
    3. Dilipkumar M., Ahmad-Hamdani M.S., Rahim H., Chuah T.S. and Burgos N.R. 2021. Survey on weedy rice (Oryza sativa) management practice and adoption of Clearfield rice technology in Peninsular Malaysia. Weed Science, doi https://doi.org/10.1017/wsc.2021.16.
    4. Dilipkumar M, Badrulhadza A., Mohd Khusairy K., Mohd Shahril Firdaus A. R., Chong T.V., Chuah T. S. (2020). Manual Teknologi Kawalan Padi Angin Edisi 2020. MARDI, Serdang, Malaysia.
    5. Dilipkumar M., Chuah T. S., Goh S. S. and Ismail S. (2017). Weed management issues, challenges, and opportunities in Malaysia. Crop Protection, Doi: 10.1016/j.cropro.2017.08.027.
    6. Dilipkumar M., Song B.K., Ting X.N., Chuah T.S. and Asfaliza R. 2019. CHAPTER 14: Weedy rice (Oryza sativa L.) (English Name: Weedy rice; Malay Name: Padi angin). In: Invasive Weeds of Malaysia and Their Sustainable Management (ed. Rezaul Karim S.M., Abdul Shukor J., Rao A.N., Dilipkumar M., Laila N., Muhammad Shakirin M. and Norhafizah M.Z.), Universiti Putra Malaysia, Selangor, Malaysia. p. 202-214.
    7. Elixon S, Mohd Solihen J., Shamsul Amri S., Mohd Bahagia A.G., Amirrudin M., Rahiniza K., Asfaliza R., Kogeethavani R., Dilipkumar M., Siti Norsuha M., Mohd Fitri M., Maisarah M.S., Mohd Naim Fadzli A.R., Shajarutulwardah M.Y., Erwan Shah S., Nur Atiqah M.K., Shahida H. dan Wahid S. (2019). Varieti Padi Baharu - MARDI Sempadan 303 dan MARDI Sebernas 307. Pembentangan kertas lisan di Persidangan Pesawah Padi Kebangsaan, 6-7 Ogos 2019, Universiti Putra Malaysia, Serdang Selangor.
    8. Elixon S., Mohd Solihen J., Shamsul Amri S., Amirudin M., Rahiniza K., Asfaliza R., Shahida H., Kogeethavani R., Siti Norsuha M., Mohd Fitri M., Maisarah M.S., Muhammad Naim Fadzli A.R., Shajarutulwardah M.Y., Hanisa H., Badrulhadza A., NurulNahar E., Hairazi R., Zakiah M.Z. dan Hamidah M.S. (2021). Varieti padi baharu MARDI: MR 315. Buletin Teknologi MARDI Bil. 23 (2021)(in press).
    9. Elixon S., Mohd Solihen J., Shamsul Amri S., Mohd Bahagia A.G., Amirudin M., Rahiniza K., Asfaliza R., Kogeethavani R., Dilipkumar M., Siti Norsuha M., Mohd Fitri M., Maisarah M.S., Mohd Naim Fadzli A.R., Shajarutulwardah M.Y., Erwan Shah S., Nur Atiqah M.K. dan Wahid S. (2019). MARDI Sempadan 303 – Varieti padi baharu MARDI. Buletin Teknologi MARDI Bil. 17 (2019): 155-166.
    10. Elixon S., Mohd. Solihen J., Asfaliza R., Othman O., Habibbudin H., Siti Norsuha M., Maisarah M.S. (2014). Ciri morfologi, fisiko-kimia dan kerintangan dua titisan padi kemandulan jantan sitoplasma (CMS) baru. Jurnal Teknologi (Sciences & Engineering) 70(6): 17–23.
    11. Elixon Sunian, Mohd Solihen, J., Shamsul Amri, S., Amirrudin, M., Rahiniza, K., Asfaliza, R., Kogeethavani, R., Siti Norsuha, M., Mohd Fitri, M., Maisarah, M. S., Mohd Naim Fadzli, A. R., Shajarutulwardah, M. Y. Shahida, H., Hanisa, H. & Badrulhadza, A. (2019). Varieti padi berhasil tinggi – Elemen di dalam sistem pertanian tepat. Pembentangan poster Seminar Kebangsaan Teknologi Pertanian Tepat Padi (TEPad) 2019, 27-29 Ogos 2019, Hotel Ixora Pulau Pinang.
    12. Elixon, S., Asfaliza, R., Othman, O., Siti Norsuha, M., Maisarah, M. S.,  Allicia, J. and Shahida, H. (2017.) Evaluation on yield, yield components and physic-chemicals of advanced rice lines. J. Trop. Agric. and Fd. Sc. 45(2): 131 – 14.
    13. M.N.F. Abd Rani, N.S. Samsuri, M.A. Mhd. Bookeri, M.N. Mohd Yusof, M.S.S. Mohamad Ghazali, M.S. Abdul Rahman, B.H. Abu Bakar, S. Mohd Yusob, A.A. Muhamad Mujab, S. Hashim, A.A. Ismail, M.S. Jamal, E. Sunian Sulaiman and A. Ramli (2020). Soil nutrient and texture mapping using GIS for rice precision farming', ASM Science Journal, 13, Special Issue 4, pp. 90-95.
    14. Mohd Fitri, M., Mohammad Aufa, M. B. and Mohd Akmal, M.Y. Brown planthopper surveillance technique between light trap and manual sampling. (2019). International Journal of Agriculture, Forestry and Plantation (IJAFP) Volume 8 (June 2019) ISSN 2462-1757. pg 134-136.
    15. Mohd Solihen J. dan Elixon S. (2019). MR 12H: Varieti Padi Hibrid Malaysia Pertama, Buletin IMEJ Komunikasi MARDI, Bil.3/2019, m.s 6 -7.
    16. Mohd Solihen Jamal, Elixon Sunian, Asfaliza Ramli, Rahiniza Kamaruzaman, Shamsul Amri Saidon, Noorman Affendi Marzukhi, Amirrudin Mokhtar, Muhammad Naim Fadzli bin Abd Rani, Shahida Hashim, Siti Norsuha Misman, Kogeethavani Ramachandran, Mohd Fitri Masarudin, Maisarah Mohd Saad, Erwan Shah Shari dan Dilipkumar Masilamany. (2020). Kadaria 1 – Varieti Padi Hibrid Pertama MARDI. Buletin Teknologi MARDI Bil. 22 (2020): 1-11.
    17. Mohd Solihen, J., Elixon, S. Asfaliza, R., Thiyagu, D., Rahiniza K. dan Muhammad Naim Fadzli, A.R. (2017). Pencirian titisan baru mandul jantan sitoplasma padi hibrid (Oryza sativa L.). Prosiding Persidangan Padi Kebangsaan 2017. 26-28 September 2017, Dorsett Grand Subang, Selangor. ISBN 978-967-936-654-9. P, 149-155.
    18. Siti Norsuha, M. and Latiffah, Z. (22019). Pathotype Identification of Rice Blast Pathogen, Pyricularia oryzae Using Differential Varieties in Peninsular Malaysia. Tropical Life Sciences Research, 30(2): 181–190.
    19. Zaki Musa, Asfaliza Ramli, Hanisa Hosni, Kogeethavani Ramachandran, Siti Norsuha Misman, Mohd. Fitri Masarudin, Shamsul Amri Saidon, Rahiniza Kamaruzaman, Wahid Said dan Engku Hasmah Engku Abdullah. (2019). MARDI Warna 98 – padi warna berkhasiat (MARDI Warna 98 – healthy edoured rice).  Buletin Teknologi MARDI Bil. 15 (2019): 29-34

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Sains Tanah, Air & Baja

PENYELIDIKAN
SAINS TANAH, AIR & BAJA

PENYELIDIKAN

  • Skop Penyelidikan

    Memperkukuh pemuliharaan sumber air dan tanah, pengurusan agrokimia serta aktiviti penyelidikan dan pembangunan untuk kelestarian ekosistem pertanian.
    Membangun dan mengukuhkan penyelidikan dan pengurusan sumber air dan tanah serta tanaman melalui teknologi sistem maklumat pintar dan cekap.
    Membangunkan teknologi pengurusan ladang organik bersepadu yang efisien dan berdaya saing menerusi model ladang contoh dan teknik pertanian mampan.
    Menjana produk dan input pertanian organik yang mesra alam dan berkesan menerusi penyelidikan yang menyeluruh.
    Membangunkan teknologi baja yang fokus kepada peningkatan kecekapan baja melalui penggunaan sumber seperti mikrob, sisa pertanian dan industri, serta sumber mineral bagi mengoptimumkan tahap nutrien di tanah serta di medium tanpa tanah.
    Meningkatkan keberkesanan baja melalui kajian pengunaan bahan tambahan seperti asid organik, biostimulan, unsur surih dan teknik aplikasi baja yang lebih efisien.

     

  • Bidang Kepakaran

    SAINS TANAH DAN AIR

    Fokus kepada penyelidikan dan pembangunan dalam  subbidang berikut:

    • Kimia tanah
    • Kimia tanah gambut
    • Fizik tanah
    • Kesuburan tanah
    • Pemuliharaan tanah dan air
    • Kimia pestisid
    • Kimia analitikal
    • Sistem maklumat geografi-pemetaan
    • Sains sekitaran
    • Kimia persekitaran
    PERLADANGAN ORGANIK
    • Ladang contoh organik bersepadu sebagai pusat rujukan usahawan, petani, penyelidik  dalam dan luar negara
    • Pengurusan sisa sifar di ladang
    • Pengurusan nutrien bersepadu secara organik
    • Pengurusan penyakit dan perosak secara organik
    TEKNOLOGI BAJA
    Fokus kepada pembangunan teknologi berikut:
    • Baja bio
    • Baja pintar
    • Perekaan baja
    • Teknik aplikasi baja

     

  • Teknologi

    SF TEKNOLOGI

     

  • Penerbitan

    1. Liza Nuriati Lim Kim Choo, Osumanu Haruna Ahmed, Nik Muhamad Nik Majid and Zakry Fitri Abd Aziz. (2021). Pineapple Residue Ash Reduces Carbon Dioxide and Nitrous Oxide Emissions in Pineapple Cultivation on Tropical Peat Soils at Saratok, Malaysia. Sustainability, 13, 1014.
    2. Alicia Vanessa Jeffary, Osumanu Haruna Ahmed, Roland Kueh Jui Heng,Liza Nuriati Lim Kim Choo, Latifah Omar, Adiza Alhassan Musah and Arifin Abdu. (2021). Nitrous Oxide Emissions in Pineapple Cultivation on a Tropical Peat Soil. Sustainability, 13, 4928.
    3. Wendy Luta, Osumanu Haruna Ahmed, Latifah Omar, Roland Kueh Jui Heng, Liza Nuriati Lim Kim Choo, Mohamadu Boyie Jalloh, Adiza Alhassan Musah and Arifin Abdu. (2021). Water Table Fluctuation and Methane Emission in Pineapples (Ananas comosus (L.) Merr.) Cultivated on a Tropical Peatland. Agronomy 2021, 11, 1448.
    4. N. F. A. Rahman, A.A. H. Awangku, V. C. Tai, M. Mohammad, S.H. Haron, K. Khalid, M.Z.A Rasid & S. M. Shariff. (2021). Site selection of water reservoir based on weighted overlay in ARCGIS (Case study: Bachok, Kelantan). Sci. Int.(Lahore),33(2): 135-139
    5. Norziana,ZZ., Intan Nadhirah,M, Nur Liyana,I.,Illani Zuraihah,I and Theeba,M (2021). Green manuring to improve soil quality in an organic farm. In Proceedings-Southeast Asia Vegetable Symposium 2019, Theme: Advancing Vegetable Technology for Higher Product 2021.eds Muda, Pauziah, Ramasamy, Srinivasan, Linwattana, Grisana, Gaddagimath, P.B., Boehme, Michael Henry Manickam, Theeba, Nath, Prem (Editors) (2021). p328-331.
    6. Faridah, M., Roslan, I., Arina Shairah, A.S., Razali, M. (2021). Does different nitrogen (N) input affect yield and phytochemical content of organic leafy vegetables. In Proceedings-Southeast Asia Vegetable Symposium 2019, Theme: Advancing Vegetable Technology for Higher Product 2021.eds Muda, Pauziah, Ramasamy, Srinivasan, Linwattana, Grisana, Gaddagimath, P.B., Boehme, Michael Henry Manickam, Theeba, Nath, Prem (Editors). p240-244
    7. N. Chai Keong, H. Siti Hajar and A.M. Khairatul. (2020). Suitability of PSA (Primary Secondary Amines) and Z-Sep as clean-up sorbents in AOAC official method 2007.01 for analysis of trifloxystrobin and CGA 321113 residue in dragon fruit, star fruit and watermelon. J. Trop. Agric. and Fd. Sc. 48(1): 1 – 10
    8. Wan Abdullah Wan Yusoff, Noor Haslizawati Abu Bakar dan Muhammad Syahren Adzahar. (2020). Penggunaan teknologi lisimeter dalam kajian mobiliti cecair larut lesap dalam profil tanah di MARDI. Buletin Teknologi MARDI Bil. 19: 49 – 64.
    9. Wan, A.W.Y., Noor Haslizawati A.B., Azimah A.K., Khasifah, M., Muhammad Zamir, A.R., Intan Nadhirah, M. (2020). Living mulching ‘sponge’ of the mountain agro systems. In Proceedings- Hari Inovasi MARDI 2020, Theme: safeguarding Malaysia’s Food Sovereignty and Food Security through Innovation. 2020 eds. Ali, Masdor and Mohd. Said (Editors). p431-433
    10. Intan Nadhirah Masri, Noor Haslizawati Abu Bakar dan Mohamed Hafeifi Basir. (2020). Penghasilan vermikompos diperkaya dari sumber sisa sayuran dan pemangkasan Gliricidia sepium dan Moringa oleifera dari Kompleks Ladang Organik Bersepadu MARDI Serdang. Buletin Teknologi MARDI Bil. 19: 127 – 134
    11. Ngan, C.K., Mohammad Nazrul Fahmi, A.R., Khairatul, A.M. and Mohammad Shahid, S. (2020). Maximum Residue Limit (MRL) setting of trifloxystrobin on curry leaves for application of Flint in curry leaf farms for control of Ascochyta rabiei. J. Trop. Agric. and Fd. Sc. 48(2): 59 – 69
    12. Ngan, C. K., Mohammad Shahid, S. Norhasimah, H., Haslihana, Y., Jamaliah, J., & Khairatul, A.M. (2020). Generation of residue data for CODEX maximum residue limits of pyriproxyfen on mango and papaya Generation of residue data for CODEX maximum residue limits of pyriproxyfen on mango and papaya. In Proceedings- Hari Inovasi MARDI 2020, Theme: safeguarding Malaysia’s Food Sovereignty and Food Security through Innovation. 2020 eds. Ali, Masdor and Mohd. Said (Editors). p388-390
    13. Faridah Manaf, Roslan Ismail and Arina Shairah Abdul Sukor. (2020). Effect of reduced nitrogen fertilizer rate on nitrogen uptake and yield of spinach (Amaranthus spp.). Int. J. Curr. Res. Biosci. Plant Biol. 7(10): 1-7
    14. Liza Nuriati Lim Kim Choo, Osumanu Haruna Ahmed, Shaidatul Azdawiyah Abdul Talib, Mohamad Zabawi Abdul Ghani and Shamsiah Sekot. (2020). Clinoptilolite Zeolite on Tropical Peat Soils Nutrient, Growth, Fruit Quality, and Yield of Carica papaya L. cv. Sekaki. Agronomy, 10, 1320, doi:10.3390/agronomy10091320
    15. Liza Nuriati Lim Kim Choo, Osumanu Haruna Ahmed, Nik Muhamad Bin Nik Majid & Zakry Fitri Bin Ab Aziz. (2020). Improving Nitrogen Availability on a Tropical Peat Soil Cultivated with Ananas comosus L. Merr. Using Pineapple Residue Ash. Journal of Soil Science and Plant Nutrition, Volume 20: 657–672
    16. Marshall, K.S. & Evers, S. L. (2020). Surface Area Correction (SAC): Approach to reduce emission from oil palm plantation on tropical peatland. In Proceedings- Hari Inovasi MARDI 2020, Theme: safeguarding Malaysia’s Food Sovereignty and Food Security through Innovation. 2020 eds. Ali, Masdor and Mohd. Said (Editors). p437-440
    17. Mohammad Shahid. S., Mohammad Hariz, A.R., Mohd Fazly, M., Nor Azhar, A., Jamaliah, J., Ngan, C.K., Nor Ashikin, B., Kogeethavani, R., Badrulhadza, A., Elixon, S., & Asfaliza, R. (2020). Potential of local agrowaste as bio-adsorbent for environmental contaminant Potential of local agrowaste as bio-adsorbent for environmental contaminant. In Proceedings- Hari Inovasi MARDI 2020, Theme: safeguarding Malaysia’s Food Sovereignty and Food Security through Innovation. eds. Ali, Masdor and Mohd. Said (Editors). p431-436
    18. Marshall, K.S. (2019). Assessing the role of artificial compaction on physicochemical properties and carbon emissions of tropical peat soils. PhD thesis, University of Nottingham.
    19. Dayang Safinah Nayan, Rozlaily Zainol, Che Fauziah Ishak, Arina Shairah Abdul Sukor & Martini Mohammad Yusoff. (2022). Selenium adsorption and desorption capacity and its influence on selenium uptake by green spinach, Journal of Plant Nutrition
    20. Najib M. Y. M., Hasnuri M. H., Izham M. N. N. M., Fadzli A. R. M. N. (2021). Effects of silicic acid rate and application method on plant growth, yield components and yield of Oryza sativa L. var. MR284. IOP Conference Series: Earth and Environmental Science 711, 012013.
    21. Mohd Zafrul Arif Radhi, Muhammad Naim Fadzli Abd Rani, Emmyrafedziawati Aida Kamal Rafedzi, Nor Syahidah Md Sam, Mohd Aziz Rashid, Ahmad Arif Ismail, Nurul Ain Ismail, Noor Shita Desa and Nor Hidayah Mohamad Dzani (2021). Bactostimulant: A plant booster for paddy. Proceedings of MARDI Science and Technology Exhibition (2021): 286 – 288
    22. Radhi M.Z.A. and Abu Bakar B. (2020). The Current Technologies That Can Be Used for Smart Agriculture. FFTC Agricultural Policy Platform (FFTC-AP). https://ap.fftc.org.tw/article/2457
    23. Dayang Safinah Nayan. (2020). Selenium biofortification of green spinach (amaranthus spp.) affected by soil types, phosphorus fertilization and selenium sources, and application timing. PhD Thesis, Universiti Putra Malaysia.
    24. Emmyrafedziawati, A.K.R., Abdul Munir, A.M. and Farah Diba, A.B. (2020). Effects of Plant Growth Promoting Rhizobacteria Consortia on Total Chlorophyll Content and Osmolytes Concentration on Rice (Oryza sativa L.) under Drought Stress Condition. Extended abstract in Transactions Of The Malaysian Society Of Plant Physiology Vol. 28: Emerging Trends of Plant Physiology  in Changing Environment, 17-18 November 2020, MSPPC 2020 Webinar. Pages 102-106.
    25. Nayan D.S., Zainol R., Abdul Sukor A.S., Mohammad Yusoff M., Ishak C.F. (2020). Selenium biofortification of green spinach with optimum phosphorus fertilization and selenium application timing. Agrosystems, Geosciences & Environment, Volume 3 (1): e20089.
    26. Dayang Safinah N., Farahzety A.M., Rozlalily Z., Arina Shairah A.S., Martini M.Y., Che Fauziah I. (2019). Selenium uptake by green spinach as affected by phosphorus fertilization. Extended abstract in Proceedings of Southeast Asia vegetable Symposium (SEAVEG 2019): Advancing vegetable technology for higher productivity and better human health, July 9-11, 2019, Hatten Hotel, Melaka, Malaysia, pages 234-239.
    27. Dayang Safinah N., Farahzety A.M., Rozlalily Z., Arina Shairah A.S., Martini M.Y., Che Fauziah I. (2018). Adsoption-desorption of selenium in soil. Extended abstract in Joint Symposium of the 8th International Agriculture Congress 2018 and 6th International Symposium for Food & Agriculture 2018: Shaping the future through agriculture innovation, 13-15 November 2018, Universiti Putra Malaysia, Selangor, Malaysia, pages 329-334.
    28. Mohd Zafrul Arif Radhi, Emmyrafedziawati Aida Kamal Rafedzi, Noor Shita Desa and Nor Hidayah Mohamad Dzani (2018). Successful Culturing Of Photosynthetic Bacteria In Seaweed Extract As A Bio Stimulant In Plants. 3rd Asean Microbial Biotechnology Conference 2018 (AMBC 2018), 24-26 April 2018, Kuching, Sarawak. P.69
    29. M.Z.A. Radhi, M.B. Adam, H.M. Saud, M.N. Hamid, P.S.H. Tony and G.H. Tan. (2018). Fermentation optimization of ER2738 - E. coli host cells for mass production of bacteriophages of agricultural importance. Proceeding of National Conference on Agricultural and Food Mechanization 2018 (NCAFM), 17-19 April 2018, Pullman Kuching, Sarawak. P.300-302
    30. Mohd Zafrul Arif Radhi. (2018). Country Paper (Malaysia) for 3rd International Conference on Biofertilizers and Biopesticides. 3rd International Conference on Biofertilizers and Biopesticides: Novel Industry Techniques, Market Trends, and International Cooperation, 7-10 August 2018, Taipei, Taiwan, Republic of China. P.1-21
    31. Tosiah, S. (2021). Kepelbagaian mikroorganisma: pembangunan teknologi berkaitan pertanian dan makanan.  Makalah Sesekala Majlis Sains MARDI. m.s. 53 - 65. Serdang: MARDI Volume: 2021 Muka Surat: 53-65
    32. Tosiah, S. (2021). Trichoderma asperellum 1614: A fungus with diverse potential.  Proceedings of MARDI Science and Technology Exhibition 2021 Bilangan: MSTE 21 pp 376-379
    33. Tosiah, S. (2020). Pencilan Trichorderma 1614, Agen Pengurusan sisa pertanian yang efektif. Buletin Teknologi MARDI Bil. 19 (2020): 35 – 47
    34. Tosiah, S. (2018). Pengurusan Mikroorganisma dalam Penyelidikan. Dalam:AGROBIODIVERSITI DI MALAYSIA III : Agrobiodiversiti untuk Pembangunan Sosioekonomi Negara. pp 33-37. MARDI 2018
    35. Theeba, M. (2021). Baja organo-mineral untuk pengeluaran tanaman lebih lestari dan kos efektif. Makalah Sekala Majlis Sains. Bil 1: 27-33
    36. Theeba, M. (2021).Brix Fixer. Terapi Tanah Bris. Makalah Sesekala Majlis Sains. Bil 1: 21-26
    37. Theeba, M. (2021). Southest Asia Vegetable Symposium (SEAVEG) Proceedings. Advancing vegetable technology for higher Productivity and Better Human Health.
    38. Theeba, M. (2020). RiceFERT: Pengurusan baja lokasi spesifik padi. Buletin Teknologi MARDI. Bil 19: 11-23
    39. Theeba, M. (2020). Teknologi perapi tanah arang bio sekam padi bagi pengurusan tanah bermasalah dan pengeluaran tanaman yang lestari. Bil 18: 111-116
    40. Theeba, M. (2017). Effect of soil amendments on growth performance and yield of field grown sweet corn (Zea mays) cultivated on BRIS soil. Proceedings of the Southeast Asia Vegetable Symposium (SEAVEG) 2016: Vegetable for Improved Nutrition and Livelihood, 6-8 September, Putrajaya, Selangor. ISBN 978-967-936-656-3
    41. Theeba, M. (2017). Kajian Keberkesanan Baja Bio Organik untuk tanaman padi di tanah berasid (Kg Golok). Buku Proceeding Persidangan Padi Kebangsaan 2017.
    42. Illani Zuraihah I. (2019). Teknologi penanaman kubis bulat di tanah rendah secara organik. Buletin Teknologi MARDI Bil. 17 (2019): 55 – 65
    43. Illani Zuraihah, I. (2018). Evaluation of two different compost material as organic fertilizer on soil fertility status. In Proceeding of the 10th International Symposium on Plant-Soil Interaction at Low pH. june 25-28, 2018. Putrajaya Malaysia. ISBN 978-976-16101.pp 210-213
    44. Illani Zuraihah, I. (2018). Rejuvenating soil health through organic farming. In Books: A Better World Volume 4. Tudor Rose UK. pp 85-89
    45. Illani Zuraihah, I. (2017). Screening and laboratory assessment of various local commercial solid biofertilizers. Proceedings of the International Conference on Sustainable Soil Management-Quality Soil Drives Productivity. 4-7 April 2017 Bintulu Sarawak, Malaysia. ISBN 978-967-9945-39-3. pp 184-188
    46. Ali Hassan, N.A.A. (2020). Characterization of Peat Microbial Functional Diversity in Aerobic Rice Rhizosphere. Journal of Tropical Agricultural Science, 43(4), 677-692
    47. Ali Hassan N.A.A. (2020. Characterization of microbial functional diversity and bacterial community structure affected by fertiliser, soil and plant growth stages in aerobic rice. PhD Thesis, Universiti Putra Malaysia
    48. Ali Hassan, N.A.A, Othman, R. and Sadi, T. (2019). The response of microbial community in aerobic rice rhizosphere that affected by various plant growth stages and soil types. Malaysian Journal of Microbiology, Vol 15(4) Special Issue 2019, pp 178-189
    49.  Khairul Asfamawi, K. (2017). Beg medium sebagai asas penanaman cendawan kukur. Buletin Teknologi MARDI, Bil. 11 (2017): 19 – 26
    50. Khairul Asfamawi, K. (2017). Pengunaan batang kayu getah (log): Suatu alternatif penanaman cendawan kukur Buletin Teknologi MARDI, Bil. 11 (2017) : 57 – 65
    51. Khairul Asfamawi, K. (2020). Benih cendawan cecair: Kaedah pengkulturan baharu untuk industri cendawan tempatan. Buletin Teknologi MARDI Bil. 18 : 65 – 73
    52. Khairul Asfamawi, K. (2020). Benih cendawan pelet kayu: Kaedah alternatif penginokulasian cendawan. Buletin Teknologi MARDI 18 : 57 – 63
    53.  Khairul Asfamawi, K. (2021). Alat penyuntik benih cendawan cecair boleh laras (ALVI) mewarnai landskap industri cendawan tempatan. Buletin Teknologi MARDI Bil. 23 : 187 – 195
    54. Nur Liyana I. (2021). Teknologi pengeluaran cili secara organik. Buletin Teknologi MARDI. Bil 24 (2021): 125-135
    55. Nur Liyana, I. (2020). Manual Teknologi Pengeluaran Cili Secara Organik (2020). MARDI. ISBN 978-967-936-705-8
    56. Nur Liyana, I. (2020). TrichoSHIELD: Kawalan biologi penyakit antraknos pada cili. Buletin Teknologi MARDI. Bil. 18: 105 – 110
    57. Nur Liyana, I. (2018). Microbial population in soil amended with various green manures. Proceedings of 10th International Symposium on Plant-Soil Interaction at Low pH: Achieving Sustainable Food Production on Acid Soils. 25-28 June, Putrajaya, Selangor. ISBN 978-967-16101. pp 171-173
    58. Nur Liyana, I. (2017). Biofungisid berasaskan Trichoderma untuk mengawal penyakit hawar lewat tomato dan antraknos pada cili. Buletin Teknologi MARDI. Bil 12:  27-33
    59. Nur Liyana, I. (2017). Trichoderma as a biocontrol agent for tomato and chilli production. Proceedings of the Southeast Asia Vegetable Symposium (SEAVEG) 2016: Vegetable for Improved Nutrition and Livelihood, 6-8 September, Putrajaya, Selangor. ISBN 978-967-936-656-3. pp 444-449
    60. Munirah, T. (2021). Plant growth promoting potentials of beneficial endophytic Escherichia coli USML2 in association with rice seedlings. Tropical Life Sciences Research 32(1): 117-141.
    61. Munirah, T. (2021). Genome Analysis of Endophytic Escherichia coli USML2 and its In Planta Ascending Migration with Growth Promoting Effect. Ph.D Thesis. Universiti Sains Malaysia, Penang. (http://eprints.usm.my/id/eprint/43702).
    62. Munirah, T. (2021). Whole-genome sequence of endophytic plant growth-promoting Escherichia coli USML2. Genome Announcement. 5(19) 00305-17.
    63. Haryati M. and Theeba M. (2021). Utilization of palm oil mill waste as organic fertilizer through composting process. J. Trop. Agric. and Fd. Sc. 49(1)(2021)
    64. Haryati M. (2021). Controlled release mixed fertilisers (CRF) vs conventional compound fertiliser for maize production. Proceedings of MARDI Science and Technology Exhibition 2021 Bilangan: MSTE 21 pp 359-363.
    65. Haryati M. and Theeba M. (2021). Effect of depleted oil bleaching earth (DOBE) on soil properties and yield of Brassica Alboglabra. Proceeding SEAVEG 2019. Pg 281.
    66. Haryati M., Surya M., Yves D., Intan Nadhirah M. (2018). The influence of pH and soil biota on Cu contamination under different soil type. 10th International Symposium on Plant-Soil Interaction at Low pH, June 25-28, 2018. Putrajaya Malaysia. ISBN 978-967-16101. Pp 257-261.

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    PENGARAH 
    Pusat Penyelidikan Sains Tanah, Air & Baja (SF)
    Ibu Pejabat MARDI 

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CMDV

Perkhidmatan

CENTRE FOR MARKER DISCOVERY AND VALIDATION (CMDV)

  • Skop Perkhidmatan

    CMDV merupakan makmal terakreditasi ISO 9001:2015 bagi menjalankan aktivit-aktiviti;-

      1. Pengekstrakan DNA bertruput tinggi
      2. Pemprofilan janaplasma dan analisis kepelbagaian
      3. Pencapjarian DNA bagi janaplasma, hibrid dan induk
      4. Penilaian ketulenan genetik dan ujian ketulenan varieti/klon/hibrid
      5. Penemuan dan pengesahan penanda molekul (SNP/SSR) menggunakan platfrom Agena MassARRAY/ABI 373XL
      6. Pemilihan berbantukan penanda (MAS) dan kacukbalik berbantukan penanda (MAB)
      7. Analisis bioinformatik
      8. Konsultasi penggunaan penanda molekul dalam pertanian dan konservasi

  • Kumpulan Sasaran

    1. Pembaikbaka
    2. Pengeluar benih
    3. Agensi penguatkuasaan
    4. Saintis dan penyelidik
    5. Ahli akademik

  • Alamat Lokasi

    Centre for Marker Discovery and Validation (CMDV)
    Pusat Penyelidikan Bioteknologi dan Nanoteknologi
    Blok D5, Ibu Pejabat MARDI,
    Persiaran MARDI-UPM,
    43400 Serdang, SELANGOR.

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    Dr. Khairun Hisam Bin Nasir 
    Tel. : 016-2209 001
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    E-mel :  hairin@mardi.gov.my

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