4.7 Article

Leaf surface characteristics affect the deposition and distribution of droplets in rice (Oryza sativa L.)

Journal

SCIENTIFIC REPORTS
Volume 11, Issue 1, Pages -

Publisher

NATURE PORTFOLIO
DOI: 10.1038/s41598-021-97061-5

Keywords

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Funding

  1. National Natural Science Foundation [31471416]
  2. Agricultural Scientific and Technological Innovation project of Chinese Academy of Agricultural Sciences [206030204YF0520]
  3. Special Funds for the Construction of Modern Agricultural Research System [CARS-01-22]
  4. Basic Research Foundation of National Commonweal Research Institute [2017RG004-4]
  5. Key Research and Development Plan of Zhejiang Province [2019C02017]

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The study showed that the leaf surface characteristics of hairy-leaved rice and glabrous rice significantly impacted the behavior of canopy droplets. Hairy-leaved rice retained more large-sized droplets, while glabrous rice retained more small-sized droplets.
We studied the effects of leaf surface characteristics on canopy droplet behaviour using two rice cultivars with similar leaf shapes but significantly different leaf surface characteristics: Jia58 (glabrous rice; smooth leaf surface and no burrs) and Yongyou12 (hairy-leaved rice; rough leaf surface covered with burrs). The plants were subjected to spray tests with different spray pressures and nozzle apertures. The results showed that the deposition amount per unit leaf area was significantly higher in the Yongyou12 canopy than in the Jia58 canopy. The diameter, volume median diameter, number median diameter, and coverage of droplets were significantly higher in Yongyou12 than in Jia58, while the coverage density of droplets was significantly lower. The proportion of small droplets of Jia58 is higher than that of Yongyou12. Thus, a larger amount of large-sized droplets could retain on the leaf surface of hairy-leaved rice, and a larger number of small-sized droplets were retained on the leaf surface of glabrous rice. Smaller pressure and larger flow nozzle were conducive to the retention of the Jia58, while Yongyou12 required larger pressure and larger flow nozzles. Ultrastructural analyses revealed that the leaf surface of glabrous rice had no trichomes and more wax than hairy-leaved rice, and the critical surface tension was lower, resulting in the retention of mainly small droplets on its leaf surface and a lower deposition amount. Therefore, in order to increase the deposition of pesticide droplets on the leaf surface in production, glabrous rice should choose nozzles with smaller spray pressure and large flow rate.

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