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Abstract

Phytotoxicity of Clematis vitalba L. (Ranunculaceae) Aqueous Extract and Nanostructured Mixture †

by
Nicoleta Anca Şuțan
1,
Codruța Mihaela Dobrescu
1,
Oana Alexandra Drăghiceanu
1,*,
Irina Fierăscu
2,
Radu Claudiu Fierăscu
2,
Claudiu Şuțan
1 and
Liliana Cristina Soare
1
1
Department of Natural Sciences, University of Pitesti, 1 Targul din Vale Street, 110040 Pitesti, Romania
2
Development ICECHIM Bucharest, National Institute for Research, 202 Splaiul Independenței, 060021 Bucharest, Romania
*
Author to whom correspondence should be addressed.
Presented at the 17th International Symposium “Priorities of Chemistry for a Sustainable Development” PRIOCHEM, Bucharest, Romania, 27–29 October 2021.
Chem. Proc. 2022, 7(1), 21; https://doi.org/10.3390/chemproc2022007021
Published: 3 March 2022
(This article belongs to the Proceedings of The 17th International Symposium “Priorities of Chemistry for a Sustainable Development” PRIOCHEM)
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Versions Notes

Known in traditional medicine as a good source for the treatment of various diseases, C. vitalba L. is also quoted in the dictionary of toxic plants. In this study, the phytotoxic activity of the aqueous extract of Clematis vitalba L. and its nanostructure mixture, were evaluated in terms of the impact on the growth of the roots and stem of dicotyledonous Pisum sativum L. The overground parts of C. vitalba were dried at room temperature and finely ground, then kept in distilled water at 100 °C in a water bath for 15 min, and then for 24 h at room temperature. AgNPs were biosynthesized as described by Sutan et al. [1]. The seeds of P. sativum were hydrated in distilled water for an hour and a half, and transferred in the C. vitalba extracts with (CAg) and without (C) AgNPs for one hour. Distilled water was used as a negative control (M). The seeds were kept in the dark and watered periodically. After 4 days, the length of the root and stem were measured with graph paper and the fresh and dry biomass were determined [2]. The growth of the root and stem of the dicotyledonate was stimulated by the Clematis extract, compared to the control, while the presence of AgNPs in the extract had an opposite effect. The growth inhibition was significant for both root and stem. The biomass was less affected by extract C. vitalba prior to and after AgNP biosynthesis. C. vitalba extracts, prior to and after AgNP synthesis, showed significant antithetical effects on the growth of P. sativum (Figure 1). AgNPs induced a significant reduction in root and stem length.

Author Contributions

N.A.Ş., C.M.D., O.A.D. and L.C.S. designed the research, performed the phytotoxic analyses and wrote the original draft manuscript; L.C.S. and O.A.D. collected and authenticated the plant material, register the specimen voucher; I.F., R.C.F. and C.Ş. analyzed data and performed the statistical analyses. All authors have read and agreed to the published version of the manuscript.

Funding

This work was supported by a grant of the Ministry of Research, Innovation and Digitization, CNCS/CCCDI–UEFISCDI, project number PN-III-P4-ID-PCE-2020-0620, within PNCDI III.

Institutional Review Board Statement

Not applicable.

Informed Consent Statement

Not applicable.

Data Availability Statement

Not applicable.

Conflicts of Interest

The authors declare no conflict of interest.

References

  1. Sutan, A.N.; Vilcoci, D.S.; Fierascu, I.; Neblea, A.M.; Sutan, C.; Ducu, C.; Soare, L.C.; Negrea, D.; Avramescu, S.M.; Fierascu, R.C. Influence of the phytosynthesis of noble metal nanoparticles on the cytotoxic and genotoxic effects of Aconitum toxicum Reichenb. leaves alcoholic extract. J. Clust. Sci. 2019, 30, 647–660. [Google Scholar] [CrossRef]
  2. Azooz, M.M.; Abou-Elhamd, M.F.; Al-Fredan, M.A. Biphasic effect of copper on growth, proline, lipid peroxidation and antioxidant enzyme activities of wheat (Triticum aestivum cv. Hasaawi) at early growing stage. Aust. J. Crop Sci. 2012, 6, 688–694. [Google Scholar]
Chemproc 07 00021 g001 550
Figure 1. The influence of extracts from aerial parts of C. vitalba, prior to and after AgNP biosynthesis on the root and stem length (left), and fresh and dry biomass (right) of P. sativum (a, b, c: interpretation of significance of the differences by means of the Duncan test, p < 0.05).
Figure 1. The influence of extracts from aerial parts of C. vitalba, prior to and after AgNP biosynthesis on the root and stem length (left), and fresh and dry biomass (right) of P. sativum (a, b, c: interpretation of significance of the differences by means of the Duncan test, p < 0.05).
Chemproc 07 00021 g001
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MDPI and ACS Style

Şuțan, N.A.; Dobrescu, C.M.; Drăghiceanu, O.A.; Fierăscu, I.; Fierăscu, R.C.; Şuțan, C.; Soare, L.C. Phytotoxicity of Clematis vitalba L. (Ranunculaceae) Aqueous Extract and Nanostructured Mixture. Chem. Proc. 2022, 7, 21. https://doi.org/10.3390/chemproc2022007021

AMA Style

Şuțan NA, Dobrescu CM, Drăghiceanu OA, Fierăscu I, Fierăscu RC, Şuțan C, Soare LC. Phytotoxicity of Clematis vitalba L. (Ranunculaceae) Aqueous Extract and Nanostructured Mixture. Chemistry Proceedings. 2022; 7(1):21. https://doi.org/10.3390/chemproc2022007021

Chicago/Turabian Style

Şuțan, Nicoleta Anca, Codruța Mihaela Dobrescu, Oana Alexandra Drăghiceanu, Irina Fierăscu, Radu Claudiu Fierăscu, Claudiu Şuțan, and Liliana Cristina Soare. 2022. "Phytotoxicity of Clematis vitalba L. (Ranunculaceae) Aqueous Extract and Nanostructured Mixture" Chemistry Proceedings 7, no. 1: 21. https://doi.org/10.3390/chemproc2022007021

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