SciELO - Scientific Electronic Library Online

 
vol.14 número5Costo-beneficio de un sistema de cultivo protegido de tomate en San Quintín índice de autoresíndice de materiabúsqueda de artículos
Home Pagelista alfabética de revistas  

Servicios Personalizados

Revista

Articulo

Indicadores

Links relacionados

  • No hay artículos similaresSimilares en SciELO

Compartir


Revista mexicana de ciencias agrícolas

versión impresa ISSN 2007-0934

Rev. Mex. Cienc. Agríc vol.14 no.5 Texcoco jun./ago. 2023  Epub 15-Sep-2023

https://doi.org/10.29312/remexca.v14i5.3404 

Research notes

Beneficial entomofauna in the tree diversity of urban agriculture in Pinar del Río, Cuba

Lisandra Hernández-Guanche1 

Yoerlandy Santana-Baños1  § 

Yusniel Dago-Dueñas1 

Ramon Hernández-Carballo1 

Armando del Busto-Concepción1 

1Universidad de Pinar del Río. Calle Martí núm. 300, Barrio Segundo Sur, entre 27 de noviembre y González Alcorta. Pinar del Río, Cuba. CP. 20100. (lisandra.guanche@yahoo.com; yusniel.dago@upr.edu.cu; ramon.hernandez@upr.edu.cu; armando@upr.edu.cu).


Abstract

This work determines the beneficial entomofauna associated with tree species in urban agriculture scenarios of Pinar del Río, Cuba. Between September 2019 and March 2020, a floristic inventory of tree biodiversity was conducted and samples of bioregulators were collected. Twenty-three tree species were inventoried and 65% of them were represented by fruit trees. The greatest species richness was detected in the orders Diptera, Mesostigmata, Hymenoptera and Araneae. The most frequent bioregulators were Condylostylus sp., Ocyptamus costatus and Phytoseiulus sp.; while the tree species with the highest proportion of associated arthropods were Persea americana, Citrus limon, Morinda citrifolia and Psidium guajava. The results corroborate the need to promote tree strata as a reservoir of bioregulators and deepen the activity of these beneficial organisms as an alternative for pest management.

Keywords: arthropods; parasitoids; predators

Resumen

En este trabajo se determina la entomofauna benéfica asociada a especies arbóreas en escenarios de la agricultura urbana de Pinar del Río, Cuba. Entre septiembre de 2019 y marzo de 2020, se realizó un inventario florístico de la biodiversidad arbórea y se recolectaron muestras de los biorreguladores. Se inventariaron 23 especies arbóreas y 65% de ellas estuvo representado por frutales. La mayor riqueza de especies se detectó en los órdenes Diptera, Mesostigmata, Hymenoptera y Araneae. Los biorreguladores con mayor frecuencia fueron Condylostylus sp., Ocyptamus costatus y Phytoseiulus sp.; mientras que, las especies arbóreas con mayor proporción de artrópodos asociados fueron Persea americana, Citrus limon, Morinda citrifolia y Psidium guajava. Los resultados corroboran la necesidad de fomentar estratos arbóreos como reservorio de biorreguladores y profundizar en la actividad de estos organismos benéficos como alternativa para el manejo de plagas.

Palabras clave: artrópodos; depredadores; parasitoides

Today, most food is still produced in rural areas and travels long distances to urban markets, however agricultural production in and around cities is increasing (Doural et al., 2019). Maintaining adequate levels of biodiversity in cultivated urban ecosystems contributes to increasing productivity, in which insect diversity plays a fundamental role (Mendoza et al., 2021), although the presence of pests involves the application of pesticides for their control, which degrade the quality of the environment.

Therefore, the regulation of pest organisms is part of biodiversity management and is of great importance in achieving a more biological and sustainable urban agriculture (Cucchi, 2020). In this sense, the beneficial entomofauna associated with the diversity of tree species in this system of agriculture, especially in the conditions of Cuba, is little addressed and can provide elements for its use in the productive field and pest management.

Between September 2019 and March 2020, in order to determine the beneficial entomofauna associated with tree species in urban agriculture (organoponic) scenarios of Pinar del Río (Cuba), the floristic inventory was carried out up to the levels of family and species. This component of biodiversity was randomly sampled for the collection of the observed beneficial arthropods. The samples were placed in nylon bags, numbered and preserved, until their transfer to the Laboratory of Entomology of the University of Pinar del Río where the identification was made.

Specimens were processed using a Novel® stereomicroscope, tweezers and scalpels for dissections and comparisons with available keys (Alayo and Garcés, 1989; CAB International, 2007; Vásquez et al., 2008; Mani, 2022). The eulophids were separated from the rest of the insects to mount them on slides and coverslips and later identify them.

The composition of tree species was integrated by 110 individuals belonging to 21 species distributed in 18 botanical families. These results differ from those obtained in suburban ecosystems of Santiago de Cuba (Cuba), where 39 269 individuals corresponding to 45 families were inventoried (Vargas et al., 2017). It was noted that some tree species are used as a subsistence alternative; while others are promoted as plants with pesticide properties, with the purpose of harvesting their organs and making botanical preparations for use in pest management. The largest proportion of these were fruit trees (65%), in accordance with studies in suburban production farms in Havana, Cuba (Hernandez et al., 2019).

The results showed that the presence of strata with tree species, less intervened by man, favor the stability of biodiversity since they function as a reservoir for 18 species of beneficial arthropods (Table 1), which were distributed in two classes (Insecta and Arachnida), seven orders and 14 families. The orders with the greatest species richness were: Diptera, Hymenoptera, Mesostigmata and Araneae.

Table 1 List of beneficial arthropods associated with tree species in urban agricultural (organoponic) systems of Pinar del Río, Cuba. 

Order Family Species Common Name
Coleoptera Coccinellidae Cycloneda sanguinea limbifer Linneus Lady beetle* Ladybird*
Cryptolaemus montrouzieri Mulsant
Syrphidae Ocyptamus costatus Macquart Hoverfly*
Diptera Muscidae Coenosia attenuata Stein Tiger fly*
Dolichopodidae Condylostylus sp. Scarlet fly*
Hemiptera Miridae Nesidiocoris tenuis Reuter Mirid*
Reduviidae Zelus longipes (Linnaeus) Assassin bug*
Hymenoptera Vespidae Polistes cubensis Lepeletier Wasp*
Encyrtidae Ageniaspis citricola Logvinovskaya Parasitoid of the citrus leafminer°
Eulophidae Tamarixia radiata Waterston Parasitoid of the Asian psyllid°
Neuroptera Chrysopidae Chrysopa sp. Leach in Brewster Aphid lion*
Phytoseiidae Phytoseiulus sp. Phytoseiids*
Mesostigmata Phytoseiidae Amblyseius sp. Phytoseiids*
Phytoseiidae Euseius sp. Phytoseiids*
Araneae Thomisidae Misumenoides sp. Crab spider*
Salticidae Thiodina sp. Jumping spider*
Araneidae Araneus sp. Cross spider*
Araneidae Neoscona sp. Elegant spider*

°= parasitoids; *= predators.

Recent studies report that predators are more prevalent at any time of the year (Vargas et al., 2017), which could justify that 88% of the identified species presented predatory function. In addition, predators can change prey when it becomes scarce and are not usually specific like parasitoids. It is also suggested that coccinellids are predators with a wide distribution in agricultural systems of Cuba (Duarte and López, 2020). On the other hand, predatory mites in general, and phytoseiids in particular, could become an alternative for the management of phytophagous mite and insect populations (Rodríguez et al., 2020).

It was verified that P. americana and C. limon presented greater concurrence of bioregulatory arthropods (60%), followed by P. guajava and M. citrifolia (40%). It should be noted that other studies inventoried chrysopids, coccinellids and phytoseiid mites associated with citrus plants (López and Segade, 2017) whereas it is common to find Euseius sp. in avocado crops (Chávez et al., 2017). Likewise, evaluations carried out in noni and guava plantations showed a richness of 13 and 10 species of associated beneficial insects, among which the following were detected: coleopterans, hymenopterans, dipterans, hemipterans and neuropterans (Matienzo et al., 2015).

The bioregulators with the highest frequency (100%) at the sampling points were Condylostylus sp., O. costatus and Phytoseiulus sp., which showed high predatory activity. A. citricola, Z. longipes, Araneus sp. and Neoscona sp. also reached values above 60% (Figure 1).

Figure 1 Absolute frequency of bioregulatory arthropods at sampling points. 

These results indicate that predatory species presented greater richness and frequency in the scenarios where prospecting was carried out, although abundance values and other diversity indices should be estimated at different times of the year to establish relationships with the stages of greater bioregulatory activity and its use in the agroecological management of pests.

Conclusions

The results constitute the first approach in Pinar del Río (Cuba) to the study of the beneficial entomofauna associated with tree vegetation in urban agroecosystems. The need to promote this component of biodiversity as a reservoir of bioregulators to favor its activity and conservation is corroborated. The bioregulatory activity of the beneficial arthropods identified on pests of vegetables and other short-cycle crops established in these agricultural production scenarios should also be deepened.

Bibliografía

Alayo, D. P. y Garcés, G. G. 1989. Introducción al estudio del orden Diptera en Cuba. Ed. Oriente. 223 p. [ Links ]

CABI. 2007. Centre for Agricultural Bioscience International. Crop Protection Compendium SL. Wallingford, Reino Unido. [ Links ]

Chávez, E. A.; Miranda, C. I. y Rodríguez, M. H. 2017. Dinámica poblacional de ácaros fitófagos y depredadores en aguacatero (Persea americana Miller). Rev. Fitosanidad. 21(1):9-15. https://www.redalyc.org/articulo.oa?id=209155463002. [ Links ]

Cucchi, N. J. A. 2020. Agricultura sin plaguicidas sintéticos: manejo agroecológico de plagas en cultivos argentinos. INTA Ed. Estación Experimental Agropecuaria Mendoza. Buenos Aires, Argentina. 201-255 pp. https://inta.gob.ar/sites/default/files/inta-agriculura-sin-plaguicidas-sinteticos.pdf. [ Links ]

Doural, E. O. G.; Puertas, A. A. y Arias C. Q. 2019. Manejo agroecológico de plagas en sistemas de cultivos urbanos del municipio Manzanillo, provincia Granma. REDEL. Rev. Granmense de Desarrollo Local. 3(3):99-111. https://revistas.udg.co.cu/index.php/redel/article/view/882/1646. [ Links ]

Duarte, M. S. y López, A. A. 2020. Diversidad de insectos asociados a siete cultivos en el sistema de cultivo organopónico ‘1o de julio’ de La Habana. Agroecostemas. 8(2):58-65. https://aes.ucf.edu.cu/index.php/aes/article/view/401/380. [ Links ]

Hernández, T. V. R.; Roldán, P. P.; Ibargollini, C. F.; Ceballos, V. M. y Martínez, M. A. 2019. Caracterización de una finca de producción suburbana y elementos básicos a considerar para el manejo del hábitat. Rev. Protec. Veg. 34(3):1-4. http://scielo.sld.cu/pdf/rpv/v34n3/2224-4697-rpv-34-03-e04.pdf . [ Links ]

López, S. N. y Segade, S. G. 2017. Moscas blancas y enemigos naturales asociados al cultivo de naranja bajo dos tipos de manejo sanitario en San Pedro, provincia de Buenos Aires. Rev. Soc. Entomol. Argentina. 76(1-2):11-21. https://www.redalyc.org/jatsRepo/3220/322050328011/322050328011.pdf . [ Links ]

Mani, M. 2022. Trends in horticultural entomology. Ed. Springer Nature Singapore. 519-623 pp. https://doi.org/10.1007/978-981-19-0343-4. [ Links ]

Matienzo, B. Y.; Rijo, C. E.; Milán, V. O.; Torres, N. N.; Larrinaga, L. J. y Massó, V. E. 2015. Especies botánicas promisorias para el fomento de reservorios de insectos biorreguladores de plagas y polinizadores. Instituto de Investigaciones de Sanidad Vegetal. La Habana, Cuba. 1-6 pp. [ Links ]

Mendoza, B. E. O.; Vargas, B. B.; Plana, Q. A.; Ramos, G. Y. M.; Cobas, M. M. y Martínez, G. R. 2021. Diversidad de insectos en fincas de la agricultura suburbana en Santiago de Cuba, Cuba. Rev. Chilena Entomol. 47(1):121-145. https://doi.org/10.35249/rche. 47.1.21.13. [ Links ]

Rodríguez, M. H.; Hernández, A. Y.; Hernández, C. L. y Miranda, C. I. 2020. Diversidad de ácaros depredadores (Acari: Phytoseiidae) en el municipio Jaruco, Mayabeque, Cuba. Rev. Protección Vegetal. 35(3):1-16. https://revistas.censa.edu.cu/index.php/RPV/ article/view/1102. [ Links ]

Vargas, B. B.; Mendoza, V. E. O.; Escobar, P. Y.; González, P. L. y Rizo, M. M. 2017. Diversidad de insectos asociados a la flora existente en dos fincas de la agricultura suburbana de Santiago de Cuba. Agrotecnia de Cuba. 42(2):60-71. [ Links ]

Vázquez, M. L. L.; Matienzo, B. Y.; Veitía, R. M. y Alonso, S. J. 2008. Conservación y manejo de enemigos naturales de insectos fitófagos en los sistemas agrícolas de Cuba. Ed. CIDISAV. Ciudad de La Habana, Cuba. 202 p. https://www.researchgate.net/publication/268981130-Conservacion-y-manejo-de-enemigos-naturales-de-insectos-fitofagos-en-los-sistemas-agricolas-de-Cuba . [ Links ]

Received: June 01, 2023; Accepted: July 01, 2023

Creative Commons License Este es un artículo publicado en acceso abierto bajo una licencia Creative Commons