Possible use of Inula viscosa (Dittrichia viscosa L.) for biostimulation of Oscularia deltoides and Corpuscolaria lehmanii plants and protection against Aphis nerii

Authors

  • Domenico Prisa CREA Research Centre for Vegetable and Ornamental Crops, Council for Agricultural Research and Economics, Via dei Fiori 8, 51012 Pescia, PT, Italy.

DOI:

https://doi.org/10.30574/gscbps.2019.9.3.0231

Keywords:

Succulent, Stress tolerance, Plant extract, Biostimulation, Growth promoters

Abstract

In this study the possibility of using liquid Inula viscosa (Dittrichia viscosa L.) to improve the growth and quality of Oscularia deltoides and Corpuscolaria lehmanii plants and protection against Aphis nerii was evaluated. The 3 experimental groups in cultivation were: i) group without the use of Inula viscosa liquid macerate (CTRL), irrigated with water and previously fertilised substrate; ii) group treated with 1% of Inula viscosa liquid obtained from flowers (leaf spraying and soil irrigation), previously fertilized substrate (INU1); iii) group treated with 1% of Inula viscosa liquid obtained from leaves and stems (leaf spraying and soil irrigation), previously fertilized substrate (INU2). The test showed a significant increase in the agronomic parameters analyzed in plants treated with liquid Inula viscosa. In fact, all plants treated with Inula showed a significant increase in plant height, leaves number, vegetative and roots weight, branches and flowers number and flowering time in both Corpuscolaria lehmanii and Oscularia deltoides. An evaluation was also made of the number of individuals of Aphis nerii present on the plants of Corpuscolaria lehmanii and Oscularia deltoides to assess whether the macerate of Inula can be used for the control of these insects. The GC-MS analysis of active fractions strongly suggested costic acid as the compound responsible for contact toxicity against Aphis nerii. Probably in the plant treated with Inula viscosa there is an induction of the defense mechanisms that lead to greater resistance to biotic and abiotic stresses. The application of Inula macerate also improves the plant's defences against attacks by fungal pathogens and insects. Very interesting aspects, especially in view of a possible reduction of fertilizers and synthetic plant protection products.

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References

Zermane N, Vurro M, Boari A, Avolio F, Andolfi A and Evidente A. (2011). Towards broomrape and field dodder management using natural metabolites from plants. Abstract of 11th World Congress on Parasitic Plants, 82

Cum G, Spadaro A, Citraro T and Gallo R. (2001). Inula viscosa (L.) Aiton. – Part2: Extraction process and chemical characterization of the essential oil. Essenze e Derivati Agrumari.

Chiappini I, Fardella G, Menghini A and Rossi C. (1982). Flavonoids from Dittrichia viscosa. Planta Med., 44, 159-161.

Wollenweber E, Mayer K and Roitman JN. (1991). Exudates flavonoids of Inula viscosa. Phytochemistry, 30, 2445-2446.

Maoz M and Neeman I. (2000). Effect of Inula viscosa extract on chitin synthesis in dermatophytes and Candida albicans. J. Ethnopharmacol., 71, 479-482.

Schinella GR, Tournier HA, Priero JM, De Buschiazzo M and Ríos JL. (2002). Antioxidant activity of anti-inflammatory plant extracts. Life Sci., 70, 1023-1033.

Wang W, Ben-Daniel BH and Cohen Y. (2004). Control of plant diseases by extracts of Inula viscosa. Dis. Control Pest Manage, 94, 1042-1047.

Hernández V, Recio MC, Máñez, S, Giner RM and Ríos, JL. (2007). Effects of naturally occurring dihydro flavonols from Inula viscosa on inflammation and enzymes involved in the arachidonic acid metabolism. Life Sci., 81, 480-488.

Prisa D. (2016). Ritorno alle origini. Microrganismi EM, protocolli ed esperienze per un’apicoltura sostenibile. Apinsieme ottobre, 28-34.

Prisa D. (2017). Apicoltura biologica metodi innovativi naturali e difesa delle api. (parte 1) Apinsieme Aprile, 42-45.

Prisa D. (2017). Apicoltura biologica metodi innovativi naturali e difesa delle api. (parte 2) Apinsieme Maggio, 42-45.

Perez-Alonso MJ, Velasconeguerela A, Duru ME, Harmandar M and Garcia-Vallejo MC. (1996). Flavour Fragr. J, 11, 349.

De Laurentis N, Losacco V, Milillo MA and Lai O. (2002). Chemical investigations of volatile constituents of Inula viscosa (L.) Aiton (Asteraceae) from different areas of Apulia, Southern Italy. Delpinoa, 44, 115-119.

Mueller-Riebau FJ, Berger BM and Yegen O. (1995). Chemical-composition and fungitoxic prpoerties to phytopathogenic fungi of essential oil of selected aromatic plants growing wild in Turkey. J. Agr. Food Chem., 43, 2262-2266.

Rozenblat S, Grossman S, Bergman M, Gottlieb H, Cohen Y and Dovrat S. (2008). Induction of G2/M arrest and apoptosis by sesquiterpene lactones in human melanoma cell lines. Biochem. Pharmacol., 75, 369-382.

Gayla A, Dovrat S, Bessler H, Grossman S, Nir U and Bergman M. (2010). Inhibition of infiammatory cytokine secretion by plant-derived compounds inuviscolide and tomentosin: the role of NFkB and STAT1. Open Pharmacol. J., 4, 36-44.

Oksuz S. (1976). Ψ-Taraxasterol acetate from Inula viscosa. Planta Med., 29, 343-345.

Simoes F and Nascimento J. (1990). Constituents of Dittrichia viscosa subsp. Viscosa. Fitoterapia, 61, 553-554.

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Published

2019-12-30

How to Cite

Prisa, D. (2019). Possible use of Inula viscosa (Dittrichia viscosa L.) for biostimulation of Oscularia deltoides and Corpuscolaria lehmanii plants and protection against Aphis nerii. GSC Biological and Pharmaceutical Sciences, 9(3), 069–075. https://doi.org/10.30574/gscbps.2019.9.3.0231

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