Padi Aerob Untuk Mengatasi Masalah Kekurangan Air

Authors

  • Sariam Othman Pusat Penyelidikan Padi dan Tanaman Industri, Ibu Pejabat MARDI, Serdang Selangor, Malaysia
  • Zainudin P. M. D. Hussain Pusat Penyelidikan Padi dan Tanaman Industri, Ibu Pejabat MARDI, Serdang Selangor, Malaysia
  • Chan Chee Sheng Pusat Penyelidikan Mekanisasi dan Automasi, Ibu Pejabat MARDI, Serdang Selangor, Malaysia
  • Azmi Man Pusat Penyelidikan Padi dan Tanaman Industri, Ibu Pejabat MARDI, Serdang Selangor, Malaysia
  • Rosniyana Ahmad Pusat Penyelidikan Padi dan Tanaman Industri, Ibu Pejabat MARDI, Serdang Selangor, Malaysia
  • Badrulhadza Amzah Bahagian Perancangan Strategik & Pengurusan Inovasi, Ibu Pejabat MARDI, Serdang Selangor, Malaysia

DOI:

https://doi.org/10.11113/jt.v70.3541

Keywords:

Food security, irrigated rice, aerobic rice, water saving

Abstract

Irrigated lowland rice is the most important rice ecosystem in Malaysia. The present and future food security in rice for the country depends largely on the irrigated lowland rice production system which consumes a large amount of water. Signs of declining water availability due to increased demand of water for domestic and industrial uses besides irregularity of rainfall and climate change threatens the sustainability of irrigated rice production. This scenario may change the way rice is produced in the future. Aerobic rice is a potential water saving rice production system and will be the best option of producing rice in water scarce environment. The availability of aerobic rice varieties that can withstand aerobic condition, responds to irrigation and fertilizers, competitive against weeds and deliver a high yield is crucial to make aerobic rice cultivation successful. Since weeds are major constraints to aerobic rice, it must be effectively controlled through integrated weed management. Appropriate nutrient and other crop management practices will ensure successful aerobic rice production system.

References

Bouman, B. A. M. 2001. Water Efficient Management Strategies in Rice Production. Int. Rice Res.Notes. 16(2):17–22.

Bouman, B. A. M. and Tuong, T. P. 2001. Field Water Management to Save Water and Increase Its Productivity in Irrigated Rice. Agric. Water Management. 49(1): 11–30

McCauley, G. N. 1990. Sprinkler vs. Flood Irrigation in Traditional Rice Production Regions of South-East Texas. Agron. J. 82: 677–683.

Peng, S., Bouman, B. A. M., Visperas, R. M., Castan˜eda, A., Nie, L and Park, H. K. 2006. Comparison Between Aerobic and Flooded Rice in the Tropics: Agronomic Performance in an Eight-season Experiment. Field Crops Res. 96: 252–259.

Sariam, O. dan R. Afliza. 2005. Padi Aerob–Penanaman Padi Tanpa Air Bertakung. Buletin Teknol. Tanaman. Bil 2: 1–6.

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Published

2014-09-19

Issue

Vol. 70 No. 6: Special Issue on Transformation of Rice and Paddy Industry Through Innovation

Section

Science and Engineering

License

Copyright of articles that appear in Jurnal Teknologi belongs exclusively to Penerbit Universiti Teknologi Malaysia (Penerbit UTM Press). This copyright covers the rights to reproduce the article, including reprints, electronic reproductions, or any other reproductions of similar nature.

How to Cite

Padi Aerob Untuk Mengatasi Masalah Kekurangan Air. (2014). Jurnal Teknologi (Sciences & Engineering), 70(6). https://doi.org/10.11113/jt.v70.3541