Continuous estimation of rice (Oryza sativa (L.)) canopy transpiration realized by modifying the heat balance model

Rintaro Kondo, Yu Tanaka, Hiroto Katayama, Koki Homma, Tatsuhiko Shiraiwa

研究成果: Article査読

1 被引用数 (Scopus)


An estimation of canopy photosynthetic activities is needed in order to better understand biomass production of field crops. Thermal imaging techniques and the heat balance model enable us to estimate canopy diffusive conductance (gc) and canopy transpiration rate (E) of crops under field conditions. However, because conventional methods are unstable when wind velocity is very low, it is difficult to apply this model directly to field-grown crops. In this study, we modified the conventional model by measuring aerodynamic resistance in rice (Oryza sativa (L.)) under windless conditions (ra∗). The ra∗ ranged from 9.50 to 35.40 s m−1 among the genotypes. By introducing the concept of ra∗ to the original heat balance model, the stability when wind velocity is under 3.0 m s−1 improved greatly. Using seven rice genotypes, we evaluated genotypic differences in E with higher temporal resolution. The daily cumulative transpiration ranged from 2.32 kg m−2 d−1 to 10.29 kg m−2 d−1 depending on genotype and weather conditions. High-yielding cultivars consistently showed greater transpiration rates under various weather conditions. We confirmed the relationship between estimated E and final grain yield, especially during the daytime. Our modified model is useful as a monitoring tool for rice canopy transpiration.

ジャーナルBiosystems Engineering
出版ステータスPublished - 2021 4

ASJC Scopus subject areas

  • 制御およびシステム工学
  • 食品科学
  • 動物科学および動物学
  • 農業および作物学
  • 土壌科学


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