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Sains
Malaysiana 51(2)(2022): 359-368
http://doi.org/10.17576/jsm-2022-5102-03
Physiological
and Yield Responses of Five Rice Varieties to Nitrogen Fertilizer Under
Farmer’s Field in IADA Ketara, Terengganu, Malaysia
(Tindak Balas Fisiologi dan Hasil
Lima Varieti Beras terhadap Baja Nitrogen di Ladang Peladang, IADA Ketara,
Terengganu, Malaysia)
MUHAMAD FAIZ CHE HASHIM1,
ASNIYANI NUR HAIDAR2, KHAIRUDIN NURULHUDA1,3*, FARRAH
MELISSA MUHARAM2, ZULKARAMI BERAHIM4, ZED
ZULKAFLI5, SITI NAJJA MOHD ZAD5 & MOHD RAZI ISMAIL4
1Department
of Biological and Agricultural Engineering, Faculty of Engineering, Universiti
Putra Malaysia, 43400 Serdang, Selangor Darul Ehsan, Malaysia
2Department
of Agriculture Technology, Faculty of Agriculture, Universiti Putra Malaysia, 43400
Serdang, Selangor Darul Ehsan, Malaysia
3Smart
Farming Technology Research Centre, Universiti Putra Malaysia, 43400 Serdang,
Selangor Darul Ehsan, Malaysia
4Institute
of Tropical Agriculture and Food Security, Universiti Putra Malaysia, 43400
Serdang, Selangor, Darul Ehsan, Malaysia
5Department
of Civil Engineering, Faculty of Engineering, Universiti Putra Malaysia, 43400
Serdang, Selangor Darul Ehsan, Malaysia
Received: 24 August 2020/Accepted:
10 July 2021
ABSTRACT
Studies
have suggested that the need for site-specific fertilizer application to reduce
waste of resources as soil nutrients varies across the Malaysian rice fields.
The present study was aiming to determine the physiological and yield responses
of five rice varieties (MR269, MR297, MR220CL2, MR219, and UPUTRA) treated with
three nitrogen (N) rates under farmer’s field condition. The experiment design
was a split-plot randomized complete block design, in which N rates, i.e. low
(76 kg N ha-1), farmers’ practice (109 kg N ha-1) and
high (142 kg N ha-1), were the main plot while rice varieties were
the sub-plot. In general, harvestable panicle yield including the grain (at 14%
moisture content) of all varieties was between 5.4 and 7.4 t ha-1 under all N treatments. Among all varieties, MR220CL2 recorded significantly
higher yield, irrespective of N treatments. The physiological responses of rice
varieties to N treatments, however, were mostly non-significant except for
panicle biomass. Specifically, each variety recorded different biomass
partitioning percentages for different organs at different growth phases. In
the case of N treatments, there was no significant difference in the yield
between 30% low and 30% high N rates as compared to farmer’s practice at
harvest. Hence, it could be suggested that farmers may reduce N application of
about 30% without significant reduction in harvestable panicle yield for this
specific plot. However, the potential N uptake might also be affected by
unaccounted factors such as the availability of micronutrients and planting
density.
Keywords:
MR269; MR297; MR220CL2; MR219; nitrogen management; rice yield
ABSTRAK
Kajian
telah mencadangkan tentang keperluan aplikasi baja khusus untuk lokasi berbeza
bagi mengurangkan pembaziran sumber kerana kandungan nutrien tanah sawah di
seluruh Malaysia adalah berbeza. Kajian ini bertujuan untuk menentukan tindak
balas fisiologi dan hasil untuk lima varieti padi (MR269, MR297, MR220CL2,
MR219 dan UPUTRA) yang dirawat dengan tiga kadar nitrogen (N) dalam keadaan
ladang petani. Reka bentuk uji kaji adalah reka bentuk blok lengkap rawak
beserta plot berpecah dengan kadar N, iaitu rendah (76 kg N ha-1),
amalan petani (109 kg N ha-1) dan tinggi (142 kg N ha-1),
adalah plot utama sementara varieti padi adalah faktor subplot. Secara
keseluruhan, kesemua varieti tersebut menghasilkan antara 5.4 hingga 7.4 t ha-1 hasil panikel termasuk bijirin (pada kadar kelembapan 14%) untuk ketiga-tiga
rawatan N. Hasil panikel MR220CL2 adalah berbeza dengan ketara dan tertinggi
berbanding dengan varieti lain tanpa mengira rawatan N. Kecuali untuk biojisim
panikel, kajian mendapati tiada tindak balas N pada kebanyakan sifat fisiologi
tumbuhan. Secara khusus, setiap varieti mempunyai peratusan pembahagian
biojisim yang berbeza untuk organ dan fasa pertumbuhan yang berbeza. Untuk
rawatan N, tidak ada perbezaan yang signifikan antara kadar N rendah 30% dan
tinggi 30% berbanding dengan kadar N amalan petani pada waktu menuai. Maka,
dapatlah disarankan supaya petani mengurangkan penerapan N sekitar 30% tanpa
penurunan yang signifikan dalam hasil panikel yang dapat dituai untuk plot
khusus ini. Walau bagaimanapun, potensi pengambilan N mungkin juga dibatasi
oleh faktor yang tidak diambil kira dalam kajian seperti ketersediaan
mikronutrien dan kepadatan tumbuhan.
Kata
kunci: MR269; MR297; MR220CL2; MR219; pengurusan nitrogen; hasil padi
REFERENCES
Aishah, A.W., Zauyah, S., Anuar,
A.R. & Fauziah, C.I. 2010. Spatial variability of selected chemical
characteristics of paddy soils in Sawah Sempadan, Selangor, Malaysia. Malaysian Journal of Soil Science 14:
27-39.
Atabaki, N., Nulit, R., Kalhori, N.,
Lasumin, N., Sahebi, M. & Abidiri, R. 2018. In vitro selection and development of Malaysian salt-tolerant rice
(Oryza sativa L. cv. MR263) under
salinity. Acta Scientific Agriculture 2(8): 8-17.
Atique-ur-Rehman, Farooq, M.,
Rashid, A., Nadeem, F., Stuerz, S., Asch, F., Bell, R.W. & Siddique, K.H.M.
2018. Boron nutrition of rice in different production systems. A review. Agronomy for Sustainable Development 38(25): 1-24.
Azmi, M., Azlan, S., Yim, K.M.,
George, T.V. & Chew, S.E. 2012. Control of weedy rice in direct-seeded rice
using the clearfield production system in Malaysia. In 23rd Asian-Pacific Weed Science Society Conference. Asian-Pacific
Weed Science Society. pp. 50-54.
Bernama. 2016. RM1.9b Subsidies in 2016 for 155,000 Paddy Farmers. http://www.thesundaily.my/news/2067676.
Accessed on 4 August 2020.
DOA. 2016. Laporan penyiasatan
pengeluaran padi luar musim 2015
(Paddy production survey report Malaysia off season 2015). Peninsular Malaysia:
Department of Agriculture (DOA).
DOA. 2015. Paddy statistics of
Malaysia 2014. Serdang: Department of Agriculture Malaysia (DOA).
DOA. 2008. Pakej Teknologi Padi (Paddy Technology Package). Peninsular
Malaysia: Department of Agriculture Malaysia (DOA).
Dorairaj, D., Ismail, M.R., Sinniah,
U.R. & Ban, T.K. 2017. Influence of silicon on growth, yield, and lodging
resistance of MR219, a lowland rice of Malaysia. Journal of Plant Nutrition 40(8): 1111-1124.
FAO Rice Market Monitor. 2013.
Volume XVI - Issue No. 3. Food and Agriculture Organization (FAO) of the United
Nations.
Guo, J., Yang, S., Gao, L., Lu, Z.,
Guo, J., Sun, Y., Kong, Y., Ling, N., Shen, Q. & Guo, S. 2019. Nitrogen
nutrient index and leaf function affect rice yield and nitrogen efficiency. Plant and Soil 445: 7-21.
Ismail, A. 2005. Varieti padi baru
MR220 (new paddy variety MR220). In Teknologi
Tanaman. Serdang: Malaysian Agricultural Research and Development Institute
(MARDI).
Ismail, A. 2005. Pembiakbakaan dan
Prestasi Varieti Padi MR220. Selangor: Malaysian Agricultural Research and
Development Institute (MARDI).
Ismail, A. 2001. Pembentukan dan
prestasi varieti padi baru MR219 (Development and performance of a new rice
variety MR219). Kuala Lumpur: Malaysian Agricultural Research and Development
Institute (MARDI).
Ismail, S. 2017. Dasar dan polisi
industri padi dan beras. Persidangan Padi
Kebangsaan 2017, Selangor.
Ismail, A., Haron, I.C., Mamat,
W.Z.W. & Rani, M.N.F.A. 2014. Pengaruh baja nitrogen (N) dan kalium (K)
terhadap padi varieti MR 269 dan MR 284 di Sungai Nibong (PBLS). Jurnal Teknologi 70(6): 1-4.
Kareem, I., Ismail, M.R., Puteh, A.,
Rahim, A.A. & Kausar, H. 2014. Growth and yield improvement of rice with
osmotic and hormonal priming. Journal of
Food, Agriculture & Environment 12(2): 735-740.
Liang, K., Yang, T., Zhang, S.,
Zhang, J.E., Luo, M., Fu, L. & Zhao, B. 2016. Effects of intercropping rice
and water spinach on net yields and pest control: An experiment in southern
China. International Journal of
Agricultural Sustainability 14(4): 448-465.
Liang, K., Zhong, X., Pan, J.,
Huang, N., Liu, Y., Peng, B., Fu, Y. & Hu, X. 2019. Reducing nitrogen
surplus and environmental losses by optimized nitrogen and water management in
double rice cropping system of South China. Agriculture,
Ecosystems and Environment 286: 1-12.
Lin, Z., Dai, Q., Ye, S., Wu, F.,
Jia, Y., Chen, J., Xu, L., Zhang, H., Huo, Z., Xu, K. & Wei, H. 2012.
Effects of nitrogen application levels on ammonia volatilization and nitrogen
utilization during rice growing season. Rice
Science 19(2): 125-134.
Malaysian Agricultural Research and
Development Institute (MARDI). 2008. Manual Teknologi Penanaman Padi Lestari.
Selangor: Malaysian Agricultural Research and Development Institute (MARDI).
Masni, Z. & Wasli, M.E. 2019.
Yield performance and nutrient uptake of red rice variety (MRM 16) at different
NPK fertilizer rates. International
Journal of Agronomy 2019: 1-6.
Miah, G., Rafii, M.Y., Ismail, M.R.,
Puteh, A.B., Rahim, H.A. & Latif, M.A. 2015. Recurrent parent genome
recovery analysis in a marker-assisted backcrossing program of rice (Oryza sativa L.). Comptes Rendus Biologies 338(2): 83-94.
Miller, G.L. & Miller, E.E.
1948. Determination of nitrogen in biological materials. Analytical
Chemistry 20(5): 481-488.
Omar, S.C., Shaharudin, A. &
Tumin, S.A. 2019. The Status of the Paddy
and Rice Industry in Malaysia. Kuala Lumpur: Khazanah Research Institute.
Radziah, C.C.M.Z., Alhasnawi, A.N.,
Khadimi, A.A., Isahak, A., Mohamad, A., Ashraf, M.F., Doni, F. & Yudoff,
W.M.W. 2017. Development of a technique for callus induction and plant
regeneration in Oryza sativa L.var.
MRQ74 and MR269. Advance Journal of Food
Science and Technology 13(3): 128-137.
Saidon, S.A., Yusob, S.M., Jack, A.,
Masarrudin, M.F., Hussain, Z.P.M.D., Haron, I.C., Omar, O. & Shamsudin, N.
2014. Penilaian prestasi hasil dan komponen hasil varieti padi terpilih di
Seberang Perai. Jurnal Teknologi 70(6):
79-83.
Singh, U., Cassman, K.G., Ladha,
J.K. & Bronson, K.F. 1995. Innovative nitrogen management strategies for
lowland rice systems. In Fragile Lives in
Fragile Ecosystems. Proceedings of the International Rice Research Conference. International
Rice Research Institute. pp. 229-254.
Tanweer, F.A., Rafii, M.Y., Sijam,
K., Rahim, H.A., Ahmed, F., Ashkani, S. & Latif, M.A. 2015. Introgression
of blast resistance genes (putative Pi-b and Pi-kh) into elite rice cultivar MR219
through marker-assisted selection. Frontiers
in Plant Science 6(1002): 1-11.
Tian, G., Gao, L., Kong, Y., Hu, X.,
Xie, K., Zhang, R., Ling, N., Shen, Q. & Guo, S. 2017. Improving rice
population productivity by reducing nitrogen rate and increasing plant density. PLoS ONE 12(8): e0182310.
Yao, T.C., Mahmood, M., Azmi, S.N.
& Chailing, H. 2018. Efficient in
vitro multiple shoots regeneration system from rice shoot apex in efficient in vitro multiple shoots regeneration
system from rice shoot apex in recalcitrant Malaysian Indica rice cultivars (Oryza sativa L.). Indian Journal of Biotechnology 17(3): 504-513.
Yusob, S.M., Haron, I.C. & Esa,
N.N. 2014. Gerak balas MR 269 dan MR 278 terhadap baja N dan K pada tanah lanar
laut. Jurnal Teknologi 70(6): 73-77.
Zhou, C.Z., Huang, Y., Jia, B.,
Wang, S., Duo, F., Samonte, S.O.P., Chen, K. & Wang, Y. 2019. Optimization
of nitrogen rate and planting density for improving the grain yield of
different rice genotypes in Northeast China. Agronomy 9(9): 1-18.
Zuraida, A.R., Naziah, B., Zamri, Z.
& Sreeramanan, S. 2011. Efficient plant regeneration of Malaysian indica
rice MR219 and 232 via somatic embryogenesis system. Acta Physiologiae Plantarum 33: 1913-1921.
*Corresponding author; email:
k_nurulhuda@upm.edu.my
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