Abstract
Applications involving graphene-related materials (GRMs) are becoming very common, raising concerns for their environmental impact. GRMs induce various effects on plants, but those on the sexual reproduction are still largely unknown. Here, the effects of graphene oxide (GO) and GO purified from production residues (PGO) were tested in vivo on the stigma of Cucurbita pepo L. ssp. pepo ”Greyzini” (summer squash). Stigmas were exposed to GO or PGO for three hours and were then analyzed by environmental scanning electron microscopy to verify possible alterations to their surface. Stigmas were then hand-pollinated to verify the effects of the two GOs on pollen adhesion and germination on the stigma, and, subsequently, on the development of fruits and seeds. Severe damages to the stigma were not detected; nevertheless, both pollen adhesion and germination on the stigma decreased. Moreover, fruits developed defectively with signs of necrosis in the case of GO, whereas fruits did not ripen in the case of PGO and ovules did not develop seeds after both GOs treatments. These results highlight different mechanisms of interaction of the two materials with the pollen-stigma system, suggesting a possible negative impact of GO on the sexual reproduction of other seed plants.
Highlights
In 2004, the isolation of the first monolayer of graphene [1] kindled the research interest in graphene-related materials (GRMs) [2]
graphene oxide (GO) tested in this study is a commercial product available in the market with dimensions in between those of particulate matter (PM) 10 and of suspended powders with dimensions up to 30 μm but with a bi-dimensional geometry and lightweight that might lead to a longer time of permanence in the air
The effect of GO interaction with the pollen−stigma system was verified on the entire reproduction process of the model plant, C. pepo, which is an economically important vegetable
Summary
In 2004, the isolation of the first monolayer of graphene [1] kindled the research interest in graphene-related materials (GRMs) [2]. To date, GRMenriched products, such as tires, asphalts, and sports equipment, are in an advanced stage of development and have already reached markets and civil society (for a list see www.graphene$-$info.com, accessed on 1 June 2021) Despite their advantages, GRM-enabled products are subjected to degradation and breakage and will be disposed of at the end of their life cycle. GRM nanoparticles are extremely lightweight, once dispersed in the atmosphere, they can be transported for very long distances, as described for carbon black in fine and ultrafine particulate matter (PM) [12] These nanoparticles could settle on soil, water bodies, or vegetation with still unknown repercussions on organisms and functionality of ecosystems
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