Water balances and evapotranspiration in water- and dry-seeded rice systems

  title={Water balances and evapotranspiration in water- and dry-seeded rice systems},
  author={Bruce A. Linquist and R. Snyder and Frank C. Anderson and Luis Espino and Guglielmo Inglese and Serena Marras and Ruben Moratiel and Randall G Mutters and Placido Nicolosi and Honza Rejmanek and Alfonso Russo and Tom Shapland and Zhenwei Song and A. A. Swelam and Gwen Tindula and Jim Hill},
  journal={Irrigation Science},
Rice is a crop that is usually grown under flooded conditions and can require large amounts of water. The objective of this 3-year study was to quantify water use in water- (WS) and dry-seeded (DS) systems. In WS systems, the field is continuously flooded, while in DS systems the field is flush irrigated for the first month and then flooded. Research was conducted on commercial rice fields where the residual of the energy balance method using a sonic anemometer and the eddy covariance method… CONTINUE READING


Publications referenced by this paper.
Showing 1-10 of 32 references

Comparisons of energy balance and evapotranspiration between flooded and aerobic rice fields in the Philippines

  • MCR Alberto, R Wassman, +5 authors M Amante
  • Agric Water Manag
  • 2011
Highly Influential
6 Excerpts

A turnkey data logger program for field-scale energy flux density measurements using eddy covariance and surface renewal

  • TM Shapland, AJ McElrone, UKT Paw, RL Snyder
  • Ital J Agrometeorol
  • 2013
Highly Influential
4 Excerpts

Surface energy partitioning and evapotranspiration over a double-cropping paddy field in Bangladesh

  • S Hossen, M Mano, A Miyata, A Baten, T Hiyama
  • Hydrol Process
  • 2012
Highly Influential
3 Excerpts

Surface renewal estimates of scalar exchange

  • UKT Paw, RL Snyder, D Spano, HB Su
  • Micrometeorology in agricultural systems. ASA…
  • 2005
Highly Influential
2 Excerpts

Energy balance and water use of rice grown in the central valley of California

  • FJ Lourence, WO Pruitt
  • Agron J
  • 1971
Highly Influential
2 Excerpts

Similar Papers

Loading similar papers…