Hostname: page-component-586b7cd67f-t7czq Total loading time: 0 Render date: 2024-11-24T03:36:29.917Z Has data issue: false hasContentIssue false

Myrtillocactus (cactaceae): botanical, agronomic, physicochemical and chemical characteristics of fruits

Published online by Cambridge University Press:  22 October 2008

David Hernández-López
Affiliation:
Dep. Ing. Bioquím., Inst. Tecnol. Celaya, Guanajuato, Mexico
Fabrice Vaillant
Affiliation:
CIRAD, UMR Qualisud, TA B-95 / 16, 34398 Montpellier, France
Rosalia Reynoso-Camacho
Affiliation:
Univ. Autón. Querétaro (APROPAC), Cent. Univ., Querétaro, Qro., Mexico
Salvador-Horacio Guzman-Maldonado
Affiliation:
Unidade Biotecnol. Campo Exp. Bajío, INIFAP, Celaya, Gto., Mexico
Get access

Abstract

Introduction. In Mexico, the Myrtillocactus fruit production levels are substantial, yet fruits are often under-used. Although the focus of interest is on their potential as food colourings, the fruits deserve more attention for their other food properties but information on their physico-chemical composition is scarce. To offer a baseline for the development of Myrtillocactus cultivation, we reviewed the information so far available. Botanical description. Four Myrtillocactus species have been identified and reported in the literature. They differ in shape, colour and other phenotypic characteristics. In Mexico, the predominant species is M. geometrizans, but M. schenckii also grows abundantly throughout the arid and semi-arid lands of the country. Cytological analyses performed on M. geometrizans showed that the plant is diploid (2n = 22). Agronomic aspects. Myrtillocactus species belong to the Cactaceae family. Because of their Crassulacean acid metabolism, they are able to grow in the arid and semi-arid highlands of Mexico. Myrtillocactus species have been propagated asexually by explants or cloning. Under controlled conditions, in vitro micropropagation from apical and basal explants gives rise to high yields. For cultivation, attention should be paid especially to minimum winter temperatures. Description of fruits and biochemical characterisation. The edible fruit is globular, with diameters reaching 1.5 cm. The pulp is gel-like, ranging in colour from glowing red to bluish. Chemical characterisation has mainly focused on betalain compounds, the predominant ones of which are betanin and betaxanthins. Contents are reported to be about 2.3 mg betalain·100 g–1of pulp. Colour appears to be more stable than for red beets. Human consumption and commercial importance. In the production season (June to September), the fruits are found in all public markets in the states where they are grown. They are eaten either fresh or in processed forms. The commercialisation of the fruit is restricted mainly to rural production areas in certain states of Mexico. Conclusions. Our review establishes that published information on Myrtillocactus species is scarce and incomplete. The plant is under-utilised, despite its nutritional properties and commercial potential. Because they adapt easily to severely dry conditions, the Myrtillocactus species merit much more research.

Type
Research Article
Copyright
© CIRAD, EDP Sciences, 2008

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Console M., Myrtillocactus, Nuevo genere di Caccataceae, Boll. R. Orto Bot. Giard. Colon. Palermo, 1897, 1.
Britton, N.L., Rose, J.L., Myrtillocactus eichlamii sp., The Cactaceae 2 (1920) 180181.
Britton, N.L., Rose, J.L., Myrtillocactus eichlamii sp., U. S. Herb. 12 (1909) 427.
Rivera-Aguilar, V., Godinez-Alvarez, H., Manuell-Cacheux, I., Rodriguez-Zaragoza, S., Physical effects of biological soil crusts on seed germination of two desert plants under laboratory conditions, J. Arid Environ. 63 (2005) 344352. CrossRef
Perez-Gonzáles S., Estudio etnobotánico, ecológico y de usos potenciales del garambullo (Myrtillocactus geometrizans) como base para su domesticación y cultivo, Cuad. Trab. Sist. Investig. Miguel Hidalgo, Queretaro, Mexico, 1999, 35 p.
Céspedes, C.L., Salazar, J.R., Martínez, M., Aranda, E., Insect growth regulatory effects of some extracts and sterols from Myrtillocactus geometrizans (Cactaceae) against Spedoptera frugiperda and Tenebrio monitor, Phytochem. 66 (2005) 24812493. CrossRef
Cid, R., Palomino, G., Cytotypes and meiotic behavior in Mexican population of Myrtillocactus geometrizans var. geometrizans, Cytolog. 61 (1996) 343348. CrossRef
Arias S., Gamma S., Guzman L., Flora del Valle de Tehuacán-Cuicatlán, Inst. Biol., Fasc. 14, UNAM, D.F., México, 1997, 23 p.
Flores, F.J.L., Yeaton, R.I., The replacement of arborescent cactus species along a climatic gradient in the southern Chihuahuan Desert: competitive hierarchies and response to freezing temperatures, J. Arid Environ. 55 (2003) 583594. CrossRef
El-Obeidy, A.A., Introducing and growing some fruiting columnar cacti in a new arid environment, J. Fruit Ornam. Plant Res. 12 (2004) 127136
Malda G., Jimenez J., Commercial production of endangered cacti in arid zones, Gen. Tech. Rep. Rocky Mt. For. Range Exp. Stn., USDA For. Serv., Fort Collins, CO, USA, 1987, 78–81.
Reyes Santiago, J., Castro Gonzales, R., Mera Banda, S., Brachet Ize, C., A note on the establishment of a rural nursery for cacti and succulent production in the Valley del Mezquital, Hidalgo, Cact. Suc. Mex. 48 (2003) 118126.
Maiti, R.K., Díaz Silva, A., Peyron Gabriela, P., García Guzman, J., Cuervo Parra, J.A., Sanchez Arreola, E., Wesche Ebeling, P., Miranda Pacheco, P.G., Variability in seed viability of seven species of Cactaceae reserve biosphere of Tehuacan Cuitlan, Mexico, Crop Res. Hisar 23 (2002) 546548.
Gonzales Juarez, J.L., Morales, J.E., Lechuga Corchado, J.A., Cruz Sosa, F., In vitro reproduction of Myrtillocactus geometrizans (Martius) Console, Cact. Suc. Mex. 51 (2006) 3645.
Medina-Torres, L., Brito-De La Fuente, E., Torrestiana-Sanchez, B., Katthain, R., Rheological properties of the mucilage gum (Opuntia ficus indica), Food Hydrocoll. 14 (2000) 417424. CrossRef
Esquivel, P., The fruits of the Cactaceae and potential as new materials, Agron. Mesoam. 15 (2004) 215219. CrossRef
Reynoso, R., Garcia, F.A., Morales, D., Gonzalez de Mejia, E., Stability of betalain pigments from a cactacea fruit, J. Agric. Food Chem. 45 (1997) 28842889. CrossRef
Tesoriere, L., Butera, D., Pintaudi, A.M., Allegra, M., Livera, M.A., Supplementation with cactus pear (Opuntia ficus-indica) fruit decreases oxidative stress in healthy humans: a comparative study with vitamin C, Am. J. Clin. Nutr. 80 (2004) 391395.
Butera, D., Tesoriere, L., Di Gaudio, F., Bongiorno, A., Allegra, M., Pintaudi, A.M., Kohen, R., Livera, M.A., Antioxidant activities of Sicilian prickly pear (Opuntia ficus indica) fruit extracts and reducing properties of its betalains: betanin and indicaxanthin, J. Agric. Food Chem. 50 (2002) 68956901. CrossRef
Vaillant, F., Perez, A., Davila, I., Dornier, R.M., Colorant and antioxidant properties of red Pitahaya, Fruits 60 (1) (2005) 17. CrossRef
Kanner, J., Harel, S., Graint, R., Betalains - A new class of dietary cationized antioxidants, J. Agric. Food Chem. 49 (2001) 51785185. CrossRef
Piatelli, M., Minale, L., Pigments of centrospermae II. Distribution of betacyanins, Phytochem. 3 (1964) 547557. CrossRef
Garcia Barrera, F.A., Reynoso, C.R., Gonzales de Mejia, E.G., Stability of betalains extracted from garambullo (Myrtillocactus geometrizans), Food Sci. Technol. Int. 4 (1998) 115120. CrossRef
Granados Sanchez, D., Hernandez, H.J., The gathering system in a community of the valley of the Mezquital, Hidaldo, Rev. Chapingo Ser. Cienc. For. Ambiente 1 (1995) 109115.
Reynoso, C.R., Giner, T.V., Gonzalez de Mejía, E., Safety of a filtrate of fermented garambullo fruit: biotransformation and toxicity studies, Food Chem. Toxicol. 37 (1999) 825830. CrossRef