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The influences of stomatal size and density on rice abiotic stress resilience. | LitMetric

AI Article Synopsis

  • - A warming climate and reduced water availability are negatively impacting rice yields, with high temperatures causing stomatal closure that hinders plant productivity and cooling
  • - Researchers analyzed 72 traditionally bred rice varieties to assess their stomatal characteristics (size and density) and found variation but no varieties matched the resilience of transgenic OsEPF1oe plants, which had lower stomatal density and appeared more drought-tolerant
  • - High stomatal density and small size in rice varieties led to faster stomatal closure in response to heat, but this also reduced photosynthesis and cooling, suggesting a trade-off when selecting traits to handle future environmental challenges

Article Abstract

A warming climate coupled with reductions in water availability and rising salinity are increasingly affecting rice (Oryza sativa) yields. Elevated temperatures combined with vapour pressure deficit (VPD) rises are causing stomatal closure, further reducing plant productivity and cooling. It is unclear what stomatal size (SS) and stomatal density (SD) will best suit all these environmental extremes. To understand how stomatal differences contribute to rice abiotic stress resilience, we screened the stomatal characteristics of 72 traditionally bred varieties. We found significant variation in SS, SD and calculated anatomical maximal stomatal conductance (g ) but did not identify any varieties with SD and g as low as transgenic OsEPF1oe plants. Traditionally bred varieties with high SD and small SS (resulting in higher g ) typically had lower biomasses, and these plants were more resilient to drought than low SD and large SS plants, which were physically larger. None of the varieties assessed were as resilient to drought or salinity as low SD OsEPF1oe transgenic plants. High SD and small SS rice displayed faster stomatal closure during increasing temperature and VPD, but photosynthesis and plant cooling were reduced. Compromises will be required when choosing rice SS and SD to tackle multiple future environmental stresses.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10952745PMC
http://dx.doi.org/10.1111/nph.18704DOI Listing

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