posted on 2023-05-17, 23:55authored byC Li, P Wang, E Lombi, Miaomiao Cheng, Caixian TangCaixian Tang, DL Howard, NW Menzies, PM Kopittke
The present study investigated the role of trichomes in absorption of foliar-applied zinc fertilizers in soybean and tomato. Using synchrotron-based X-ray fluorescence microscopy for in situ analyses of hydrated leaves, we found that upon foliar application of ZnSO 4, Zn accumulated within 15 min in some non-glandular trichomes in soybean, but not in tomato. However, analyses of cross-sections of soybean leaves did not show any marked accumulation of Zn in tissues surrounding trichomes. Furthermore, when near-isogenic lines of soybean differing 10-fold in trichome density were used to compare Zn absorption, it was found that foliar Zn absorption was not related to trichome density. Therefore, it is suggested that trichomes are not part of the primary pathway through which foliar-applied Zn moves across the leaf surface in soybean and tomato. However, this does not preclude trichomes being important in other plant species, as they are known to be highly diverse. We also compared the absorption of Zn when supplied as either ZnSO 4, nano-ZnO, or bulk-ZnO, and found that absorption from ZnSO 4 was about 10-fold higher than from nano- and bulk-ZnO, suggesting that it was mainly absorbed as soluble Zn. This study improves our understanding of the absorption of foliar-applied nutrients.
Funding
This work was supported by Sonic Essentials, as well as by the Australian Research Council (ARC) through the Linkage Projects funding scheme (LP130100741). Support was also provided to Peter Kopittke by the ARC Future Fellowship funding scheme (FT120100277) and to Cui Li through the China Scholarship Council and The University of Queensland International Scholarship award scheme.