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Rice farming: Saving water through Alternate Wetting Drying (AWD) method

Summary

Alternate Wetting and Drying (AWD) is a water-saving technology that lowland (paddy) rice farmers can apply to reduce their water use in irrigated fields. In AWD, irrigation water is applied to flood the field a certain number of days after the disappearance of ponded water. Hence, the field is alternately flooded and non-flooded. The number of days of non-flooded soil in AWD between irrigations can vary from 1 day to more than 10 days.

 

Description

Alternate Wetting and Drying (AWD) is a water-saving technology that lowland (paddy) rice farmers can apply to reduce their water use in irrigated fields. In AWD, irrigation water is applied to flood the field a certain number of days after the disappearance of ponded water.

Hence, the field is alternately flooded and non-flooded. The number of days of non-flooded soil in AWD between irrigations can vary from 1 day to more than 10 days depending on the soil type.

To implement alternate wetting and drying (AWD) method of rice field flooding, you will need a tube of 40cm length and a measuring tape to measure water depth. 

Making the field water tube

The field water tube can be made from a plastic pipe or bamboo.

  • Cut this material to a 30cm length with a diameter of 10-15 cm to easily see the water level inside the tube
  • Drill the bottom 15cm of the tube with holes on all sides; these holes should be about 0.5cm each and 2cm away from one another.

Placing the Tube

  • Place the tube in a readily accessible part of the field, close to the bund (not less than 1m away) for easy monitoring. The location should be representative of the average water depth in the field (i.e. it should not be in a high spot or a low spot).
  • Bury the tube up till 20cm depth so that half of its length remains on the surface
  • Remove the soil inside the tube so that the bottom of the tube can be seen. Ensure that the level of water inside the tube is the same as the level of water on the field.

Practicing Alternate Wetting and Drying (AWD)

  • To implement AWD, the best way is to monitor the depth of ponded water on the field using a ‘field water tube’
  • After flooding, the depth of pounded water will gradually decrease.
  • When the ponded water has dropped to 15 cm below the surface of the soil, irrigation should be applied to re-flood the field with 5 cm of ponded water. This practice is known as Safe AWD.    
  • AWD can be started a few days after transplanting (or with a 10-cm tall crop in direct seeding). When many weeds are present, AWD can be postponed for 2-3 weeks until weeds have been suppressed by the ponded water.
  • Local fertilizer recommendations for flooded rice can be used. Apply nitrogen fertilizer preferably on the dry soil just before flooding.
  • From one week before to one week after flowering, ponded water should always be kept at 5 cm depth above soil level to avoid water stress which could result to potentially severe yield loss.
  • After flowering, during grain filling and ripening, the water level can drop again to 15 cm below the surface before flooding (Safe AWD).
  • In Safe AWD, water savings may be up to 15-25 percent with no yield penalty. The depth of water can be allowed to drop from 15cm to 20 or even 25cm below the soil surface.

Validation of AWD

  • This technology has been field tested and validated by rice farmers in the in the Philippines, Vietnam and Bangladesh, Myanmar, Indonesia and Lao PDR. AWD is mainstreamed in extension efforts by formal extension institutes and NGOs in a number of countries in Southeast Asia. Training and extension materials on AWD are included in curricula of agricultural colleges, universities and extension certification schemes. 

Users and benefits of AWD technology

Water savings may be up to 15-25 percent with no yield penalty. AWD promotes good root anchorage, thus reduction in plant lodging problems. In pump irrigation systems, it reduces pumping costs and fuel consumption and an increased income of US$67-97 per hectare.  AWD reduces 30-70 per cent of methane emissions depending on the combination of water usage and management of rice stubble. It also promotes higher zinc availability in soil and grains by enabling periodic aeration of the soil, which releases zinc from insoluble forms and makes it available for plant uptake.

AWD technology can be used under the following conditions;

AWD is a water saving technology for lowland (paddy) rice production under irrigation.

 

To learn more about AWD see video

- See more at: http://teca.fao.org/read/7939#sthash.o6BoKc1J.XBDppZNy.dpuf

 

[Embed video here] : http://www.youtube.com/watch?v=tfKWKfagfFs 

 

Further reading

 

http://www.knowledgebank.irri.org/factsheetsPDFs/watermanagement_FSAWD3.pdf

 

Source

 

The International Rice Research Institute (IRRI)

 

The International Rice Research Institute (IRRI), based in Los Baños, Philippines, develops new rice varieties and rice crop/post-harvest management techniques that help rice farmers improve the yield, profitability, and quality of their rice in an environmentally sustainable way. The institute is helping to reduce poverty and hunger, improve the health of rice farmers and consumers through collaborative research, partnerships, and the strengthening of national agricultural research and extension systems. IRRI work with our public and private sector partners in national agricultural research and extension systems in major rice-growing countries to do research, training, and knowledge transfer. IRRI social and economic research also informs governments to help them formulate policy to improve the equitable supply of rice. 

 

Contact person: 

Corinta Q. Guerta

Contact email: 

This email address is being protected from spambots. You need JavaScript enabled to view it.

Country: 

Philippines

Web: 

http://www.irri.org

Attached files

 

AttachmentSize

 watermanagement_FSAWD3.pdf102.47 KB

- See more at: http://teca.fao.org/read/7939#sthash.o6BoKc1J.XBDppZNy.dpuf 

 

Links:

http://teca.fao.org/read/7939 

 

 

Keywords

Rice

Paddy

Water saving

Irrigation

Yields

Fertilizer application

 

Category

Climate change and disaster risk reduction

Crop production

Natural Resources Management

 

Countries

Philippines

 

Region

South Asia