Integrated management of Colletotrichum gloesporioides in yellow passion fruit (Passiflora edulis f. flavicarpa Degener)
DOI:
https://doi.org/10.22267/rcia.193602.120Keywords:
Disease index, epidemiology, production losses, sanitation, strobilurinAbstract
Anthracnose (Colletotrichum gloeosporioides) is one of the most limiting diseases of yellow passion fruit, reducing crop production by more than 80%. This research aimed to assess anthracnose management strategies on yellow passion fruit crop sanitation and yield. We assessed the effect of alternating fungicide applications (//) every 15 days with foliar nutrients on the severity of anthracnose and crop yield in a commercial crop in San Isidro district (Montería), located at coordinates 8°44'52.7'' N, 75°52'53.2''W and 75m.a.s.l. We conducted this research in two experiments; in the first, we assessed the response of the disease index (DI) after the application of the following treatments: T1=Manazeb (Mancozeb) // Potassium phosphite (Foscrop), T2=Mancozeb // Potassium (Terramin potassium), T3=Mancozeb // Calcium (Terramin calcium), T4=Trichoderma spp. (Fitotripen) // Copper oxychloride, T5=Azoxystrobin (Amistar) // Mancozeb, and T6=Control sprayed with water. In the second experiment, we selected the best treatments, as follows: T1 = Amistar // Mancozeb; T2 = Terramin potassium // Mancozeb, and T3 = Control. We evaluated DI, percent of affected fruits, number of fruits/ha, and yield (Kg/ha). The results from the first experiment showed that T1 and T5 controlled anthracnose, reducing the levels of severity by 39.69% compared to the control (T6). In the second experiment, T1 decreased the levels of foliage severity by 29.04% and increased the number of fruits/ha and yield by 200% compared to the control. Overall, the fungicide application of Azoxistrobin alternating with Manazeb constitutes an effective alternative to control anthracnose in yellow passion fruit cultivation.
Downloads
Metrics
References
Agrios, G.N. (1997). Enfermedades de las plantas ocasionadas por hongos. 4th Ed. California: Academic Press. 635p.
Agronet - Red de información y comunicación del sector Agropecuario Colombiano. (2017). Estadísticas: Producción y agronegócios. Recovered from http://www.agronet.gov.co/estadistica/Paginas/default.aspx
Aular, J.; Ruggiero, C.; Durigan, J. (2001). Efecto de la aplicación de Thiabendazole y del tratamiento térmico sobre la post cosecha de la parchita maracuyá. Bioagro. 13(2): 79-83.
Balardin, R.; Dallagnol, L.J.; Didone, H.T.; Navarini, L. (2006). Influência do fósforo e do potássio na severidade da ferrugem da soja Phakopsora pachyrhizi. Fitopato. Bras. 31(5): 462-467. doi: http://dx.doi.org/10.1590/S0100-41582006000500005
Barbosa, J. (2008). Controle da antracnose (Colletotrichum gloeosporioides) pós-colheita do maracujá-amarelo (Passiflora edulis f. flavicarpa) por aplicações de fosfitos, água quente e 1-metilciclopropeno. Recovered from https://core.ac.uk/download/pdf/33530185.pdf
Barbosa, M.A.; Laranjeira, D.; Coelho, R.S. (2008). Physiological cost of induced resistance in cotton plants at different nitrogen levels. Summa Phytopathol. 34(4): 338-342. doi: http://dx.doi.org/10.1590/S0100-54052008000400007
Campo-Arana, R.O.; Escobar-Lopez, F.M.; Segura-Cepeda, L.E. (2015). Patogenicidad de cepas de Colletotrichum gloeosporioides aisladas en distintos órganos de la planta de maracuyá amarillo (Pasiflora edulis F. flavicara O. Deg). Fit. Col. 39(2): 41-44.
Campo, R.O. (2008). Informe proyecto final: Mejoramiento de la productividad sostenible de maracuyá Pasiflora edulis Var, flavicarpa, en la comunidad de San Isidro (Córdoba-Colombia. Montería: Universidad de Córdoba. 73p.
Castellanos, L., De Mello, R.; Silva, C. (2015). El Silicio en la resistencia de los cultivos a las plagas agrícolas. Cul. Trop. 36(E): 16-24.
Chávez, M. A.; Duarte, L. C. S. (2018). Efecto de fungicidas sobre la antracnosis (Colletotrichum fragariae Brooks) en plantines de frutilla [Fragaria× ananassa (Duchesne ex Weston) Duchesne ex Rozier]. Investigación Agraria. 20(1): 38-50. doi: http://dx.doi.org/10.18004/investig.agrar.2018.junio.38-50
Costa, A.S.; Fraga-Júnior, C.G. (1937). Superbrotamento ou ramulose do algodoeiro. Campinas SP: Instituto Agronômico. 23p
Degras, L.; Arnolin, L.; Suard, C.; Pointout, R. (1984). Selection of Dioscorea alata cultivars of low susceptibility to anthracnose Colletotrichum gloeosporioides. Recovered from http://www.istrc.org/images/Documents/Symposiums/Sixth/6th_symposium_proceedings_0113_section_6_627.pdf
Ferreira, J.B.; De Abreu, M.S.; Pereira, I.S.; Fernandes, K.D.; Pereira, R.B. (2009). Sensibilidade de Colletotrichum gloeosporioides (mancha manteigosa do cafeeiro) a diferentes concentrações de fungicidas. Ciência e Agrotecnologia, Lavras. 33: 2052-2058.
Fischer, I. H.; Da Silva, B.L.; Soares, A.R.; De Arruda, M.C.; Parisi, M.C.M.; Amorim, L. (2012). Efeito de fungicidas e produtos alternativos no controle da antracnose e da pinta preta da goiaba. Semina: Ciências Agrárias. 33(1): 2753-2766. doi: 10.5433/1679-0359.2012v33Supl1p2753
Hameed, F. (2011). Biocontrol of damping off and induce resistance of eggplant cultivars by Trichoderma harzianum. K. J. Agr. Sci. 3(1): 355-360.
Kumar, S.; Sugha, S.K. (2003). Comparison of Gompertz and Logistic models for the analysis of progress of Phomopsis leaf blight of brinjal. Plant. Dis. Res. 18(2): 187-189.
McKinney, H.H. (1923). Influence of soil temperature and moisture on infection of wheat seedlings by Helminthosporium sativum. J. of Agr Res. 26(5): 195-218.
Mogollón, A.; Castaño, J. (2011). Efecto de inductores de resistencia en plántulas de plátano dominico hartón (Musa balbisiana AAB) contra Mycosphaerella spp. Rev. A. Col. Cien. Ex. Fis. Nat. 35(137): 463-471.
Páez, A. (1995). Comportamiento de variedades de mango a la antracnosis. Fit. Col. 19(1): 25-30.
Pérez, D.; Lannacone, J. (2006). Control químico de la antracnosis causado por Colletotrichum gloeosporioides en el cultivo del camu camu (Myrciaria dubia Myrtaceae) en Ucayali, Perú. Fitopatol. Bras. 31(5): 6003.
Rodríguez, M.; Niño, N. (2009). Archivos de diagnóstico en laboratorio 2000-2009. Bogotá: Universidad Nacional de Colombia - Universidad Jorge Tadeo Lozano.
Salazar, H. (1998). Evaluación de fungicidas contra antracnosis (Colletotrichum gloeosporioides) en maracuyá y diagnóstico de sus enfermedades fungosas en Olancho, Honduras. Honduras: Universidad Zamorano. 66p.
Santamaría, F.; Díaz, R.; Gutiérrez, O.; Santamaría, J.; Larqué, A. (2011). Control de dos especies de Colletotrichum causantes de antracnosis en frutos de papaya maradol. Rev. Mex. C. Agr. 2(5): 631-643.
Silva, E.; Pinto, F.; Valentim, M. (2016). Alternativas a fungicidas sintéticos no controle da antracnose da banana. Summa Phytopathol. 42(4): 340-350. doi: http://dx.doi.org/10.1590/0100-5405/2000
SIPSA - Sistema de Información de Precios y Abastecimientos del Sector Agropecuario. (2014). Antracnosis, importancia y manejo integrado en el cultivo de tomate de árbol (Cyphomandra betaceae). Recovered from https://www.dane.gov.co/files/investigaciones/agropecuario/sipsa/insumos_factores_de_produccion_ene_2014.pdf
Sousa, M.A.; Pires, M.C.; Peixoto, J.R.; Faleiro, F.G.; Blum, L.E. (2014). Reação de progênies de maracujazeiro azedo à antracnose. Biosci. J. 30(2): 563-570.
Zainuri, J.D.; Wearing, A.H.; Coates, L.; Terry, L. (2001). Effects of phosphonate and salicylic acid treatments on anthracnose disease development and ripening of 'Kensigtown Pride' mango fruit. Aust. J. Exp. Agric. 41: 805-813. doi: https://doi.org/10.1071/EA99104