Functional Analysis of TiO2 Nanoparticle Toxicity in Three Plant Species

Titanium dioxide nanoparticles (nano-TiO₂) are manufactured and used worldwide in large quantities. However, phytotoxicity research on nano-TiO₂ has yielded confusing results, ranging from strong toxicity to positive effects. Therefore, in this research, the effects of nano-TiO₂ on the germination and root elongation of seed and seedlings were studied. Additionally, the uptake and physiological responses of mature plants were investigated. Physical chemistry data were analyzed to assess the availability of nano-TiO₂. Finally, a hydroponic system designed to overcome nano-TiO₂ precipitation was used to reproduce the environmental conditions of actual fields. Nano-TiO₂ did not have any effect on seed germination or on most of the plant species tested. Nano-TiO₂ had positive effects on root elongation in some species. No physiological differences in enzyme activities or chlorophyll content were detected, even though the plants absorbed nano-TiO₂. Physical chemistry data showed that nano-TiO₂ agglomerated rapidly and formed particles with much bigger hydrodynamic diameters, even in distilled water and especially in a hydroponic system. Furthermore, agglomerated nano-TiO₂ formed precipitates; this would be more severe in an actual field. Consequently, nano-TiO₂ would not be also readily available to plants and would not cause any significant effects on plants. Our results and other reports suggest that titanium itself is not phytotoxic, even though plants absorb titanium. In conclusion, nano-TiO₂ is not toxic to the three plant species, in vitro or in situ.