Senecio nutans Sch. Bip., S. viridis var. viridis Phill. and S. spegazzinii Cabrera are native species used in traditional medicine of northwestern Argentina. The total phenolics, flavonoids and caffeoylquinic acids contents, as well as radical scavenging, antioxidant, hemolytic and cytotoxic activities of aqueous extracts (infusion and decoction) of all three species were determined. S. nutans was the most active. The extracts did not show antibacterial activity. Alkaloids were not detected in any of the aqueous extracts of the three studied species.
GalloGG. (1987) Plantas toxicas para el ganado en el cono sur de America. 2nd Ed. Editorial Hemisferio Sur. Buenos Aires. Argentina. pp. 135–139;
2.
GibertiGC. (1983) Herbal folk medicine in northwestern Argentina: Compositae. Journal of Ethnopharmacology, 7, 321–341. Note: in this paper Senecio volckmannii Phil. and S. spegazzinii Cabrera are treated as different taxa, but currently they are considered to be synonymous (see Torosa RD. Bartoli A (2006). Senecio rosmarinus y S. spegazzinii: Sinónimos de S. volkmannii. Boletin de la Sociedad Argentina de Botanica, 41, 123–125;
3.
De FeoV, Urrunaga SoriaE, Urrunaga SoriaR, SenatoreF. (2003) Chemical composition and antibacterial activity of Senecio nutans essential oil. Flavour and Fragrance Journal, 18, 234–236;
4.
Juarez BelaudeA, Guerreiro SandovalJ, De MartinoL, SenatoreF, De FeoV. (2007) Chemical composition and antibacterial activity of Senecio nutans essential oil. Journal of Essential Oil Bearing Plants, 10, 332–338.
5.
SingletonVL, OrthoferR, Lamuela-RaventosRM. (1999) Analysis of total phenols and other oxidation substrates and antioxidants by means of Folin-Ciocalteau reagent. Methods in Enzymology, 299, 152–178;
6.
Arvouet-GrandA, VennatB, PourratA, LegretP., (1994) Standarisation d'un extrait de propolis et identification des principaux constituants. Journal de Pharmacie de Belgique, 49, 462–468.
7.
MartinoVS, FerraroGE, DebenedettiSL, CoussioJD. (1989) Determinación espectrofotométrica del contenido de ácidos cafeoilquínicos en especies Argentinas de compuestas usadas en medicina popular. Acta Farmacéutica Bonaerense, 8, 3–9.
8.
WeiA, ShibamotoT. (2007) Antioxidant/lipoxygenase inhibitory activities and chemical compositions of selected essential oils. Journal of Agricultural and Food Chemistry, 55, 1737–1742;
KulisicT, RadonicA, KatalinicV, MilosM., (2004) Use of different methods for testing antioxidative activity of oregano essential oil. Food Chemistry, 85, 633–640;
11.
PriettoP, PinedaM, AguilarM. (1999) Spectrophotometric quantification of antioxidant capacity through the formation of phosphomolybdenum complex: specific application to the determination of vitamin E. Analytical Biochemistry, 269, 337–341.
12.
CantilloJ, GüeteJ, BaldrisR, JaramilloB, OliveroJ., (2007) Evaluación de la toxicidad aguda (LC50) frente a Artemia franciscana y la actividad hemolítica de los extractos acuosos, en diclorometano y metanólico parcial de Justicia secunda (Vahl.). Scientia et TechnicaXIII, 257–258.
13.
McLaughlinJL, RogersLL, AndersonJE. (1998) The use of biological assays to evaluate botanicals. Drug Information Journal, 32, 513–524.
14.
SolísPN, WrightCW, AndersonMM, GuptaMP, PhillipsonJD. (1993) A microwell cytotoxicity assay using Artemia salina. Planta Medica, 59, 250–252.