Abstract
Sugarcane yellow leaf disease (YLD) has emerged as a serious threat to sugarcane cultivation worldwide, particularly in India. The aphid, Melanaphis sacchari, has been proved to be the vector for the causative agent sugarcane yellow leaf virus (ScYLV) across the world. However, the population dynamics of the aphid are not established under field conditions. Hence, this study was conducted with the aim of studying the population dynamics of M. sacchari for four consecutive years (2015–2019) under the typical tropical conditions. The sugarcane aphid starts colonizing the crop in April, reaches its maximum in June–July, starts declining in August, and almost vanishes in September. Thus, the 5–7-month-old crop supports higher aphid population irrespective of the varieties, provided the climatic conditions are near-normal. A significant variation in the climatic conditions observed in 2016–2017 significantly altered the population dynamics of the aphid on sugarcane varieties. In 2016–2017, the aphid appeared late in May and extended till December. It was interesting to note that the aphid population was recorded to be higher in the diseased plants as compared with the healthy ones of the same variety. Further, the YLD-susceptible cvs CoC 671, Co 86032, Co 86010, CoPant 84211, and B38192 were recorded with comparatively higher numbers of aphid during the peak season in all the 4 years. The colonization of aphid was observed to be aggregate in nature and not uniform in all the plants of a variety and leaves of an infested plant. Increased levels of aphid infestation was found between + 5 and + 7 leaves in sugarcane plants, across the seasons and varieties, and rainfall was negatively associated with the build-up of aphid colonization. The study provides new findings on the dynamics of M. sacchari under tropical climate in India for the first time and contributes to the understanding of the disease epidemiology.
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The collected data pertaining to the research work have been included in the tables, figures, and supplementary data in the manuscript. No additional data are available in the repositories.
The present research did not involve human participants and/or animals. Informed consent was obtained from all individual participants included in the study.
References
Akbar W, Carlton C, Reagan TE (2009) Life cycle and larval morphology of Diomus terminatus (Coleoptera: Coccinellidae) and its potential as a biological control agent of Melanaphis sacchari (Hemiptera: Aphididae). Annals of Entomological Society of America 102:96–103
Arocha Y, Gonzalez L, Peralta EL, Jones P (1999) First report of virus and phytoplasma pathogens associated with yellow leaf syndrome of sugarcane in Cuba. Plant Disease 83:1177
Chinnaraja C, Viswanathan R (2015) Quantification of sugarcane yellow leaf virus in sugarcane following transmission through aphid vector, Melanaphis sacchari. Virus Disease 26:237–242
Chinnaraja C, Viswanathan R, Karuppaiah R, Bagyalakshmi K, Malathi P, Parameswari B (2013) Complete genome characterization of Sugarcane yellow leaf virus from India: evidence for RNA recombination. European Journal of Plant Pathology 135:335–349
Chinnaraja C, Viswanathan R, Sathyabhama M, Parameswari B, Bagyalakshmi K, Malathi P, Neelamathi D (2014) Quantification of Sugarcane yellow leaf virus in in vitro plantlets and asymptomatic plants of sugarcane by RT-qPCR. Current Science 106:729–734
Daugrois JH, Edon-Jock C, Bonoto S, Vaillant J, Rott P (2011) Spread of Sugarcane yellow leaf virus in initially disease-free sugarcane is linked to rainfall and host resistance in the humid tropical environment of Guadeloupe. European Journal of Plant Pathology 129:71–80
Delgado HE, Kaye C, Hincapie M, Boukari W, Wei C, Fernandez J, Mollo DS, Comstock J, Rott P (2015) First report of Sugarcane yellow leaf virus infecting Columbus grass (Sorghum almum) in Florida. Plant Disease 100:1027
Edon-Jock C, Rott P, Vaillant J, Fernandez E, Girard J-C, Daugrois J-H (2007) Status of sugarcane yellow leaf virus in commercial fields and risk assessment in Guadeloupe. Proceedings of International Society of Sugar Cane Technologists 26:995–1004
Elliott N, Brewer M, Seiter N, Royer T, Bowling R, Backoulou G, Gordy J, Giles K, Lindenmayer J, McCornack B, Kerns D (2017) Sugarcane aphid spatial distribution in grain sorghum fields. Southwestern Entomologist 42:27–35
El-Sayed AI (2013) Maize (Zea mays L.) constitutes a novel host to Sugarcane yellow leaf virus. Canadian Journal of Plant Pathology 35:68–74
El-Sayed AI, Komor E, Boulila M, Viswanathan R, Odero DC (2015) Biology and management of sugarcane yellow leaf virus: an historical overview. Advances in Virology 160:2921–2934
Fartek B, Nibouche S, Atiama–Nurbel T, Reynaud B, Costet L (2014) Genotypic variability of sugarcane resistance to the aphid Melanaphis sacchari, vector of the Sugarcane yellow leaf virus. Plant Breeding 133: 771–776
Gray S, Gildow FE (2003) Luteovirus aphids interaction. Annual Review of Phytopathology 41:539–599
Lehrer AT, Schenck S, Yan SL, Komor E (2007) Movement of aphid-transmitted sugarcane yellow leaf virus (SCYLV) within and between sugarcane plants. Plant Pathology 56:711–717
McAllister CD, Hoy JW, ReaganTE, (2008) Temporal increase and spatial distribution of the sugar cane yellow leaf and infestations of the aphid vector, Melanaphis sacchari. Plant Disease 92:607–615
Paray NB, Khoodoo MHR, Saumtally AS, Ganeshan S (2011) Vector-virus relationship for Melanaphis sacchari (Zehnt.) (Hemiptera: Aphididae) transmitting Sugarcane yellow leaf Luteovirus in Mauritius. Sugar Tech 13:77–80
R Core Team (2020). R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. URL https://www.R-project.org/.
Rassaby L, Girard J-C, Lemaire O, Rassaby L, Girard JC, Lemaire O, Costet L, Irey MS, Kodja H, Lockhart BEL, Rott P (2004) Spread of Sugarcane yellow leaf virus in sugarcane plants and fields on the island of Reunion. Plant Pathology 53:117–125
Scagliusi SM, Lockhart BEL (2000) Transmission, characterization, and serology of a luteovirus associated with yellow leaf syndrome of sugarcane. Phytopathology 90:120–124
Schenck S, Lehrer AT (2000) Factors affecting the transmission and spread of Sugarcane yellow leaf virus. Plant Disease 84:1085–1088
Singh D, Rao GP (2011) Molecular detection of two strains of Sugarcane yellow leaf virus in India and their secondary spread in nature through aphids. Acta Phytopathologica Entomologica Hungarica 46:17–26
Singh BU, Padmaja PG, Seetharama N (2004) Biology and management of the sugarcane aphid, Melanaphis sacchari (Zehntner) (Homoptera: Aphididae), in sorghum: a review. Crop Protection 23:739–755
Uchimiyam M, Knoll JE (2019) Rapid data analytics to relate sugarcane aphid [(Melanaphissacchari (Zehntner)] population and damage on sorghum (Sorghum bicolor (L.) Moench). Scientific Reports 9:370 https://doi.org/10.1038/s41598-018-36815-0
Van Rensburg NJ, van Hamburg H (1975) Grain sorghum pests: an integrated control approach. Proceedings of the First Congress of Entomological Society of Southern Africa, pp 151–162.
Varma A, Somadder K, Kishore R (1978) Biology, bionomics and control of Melanaphis indosacchari David, a vector of sugarcane grassy shoot disease. Indian Journal of Agricultural Research 12:65–72
Viswanathan R (2002) Sugarcane yellow leaf syndrome in India: incidence and effect on yield parameters. Sugar Cane International 20:17–23
Viswanathan R (2004) Ratoon stunting disease infection favours severity of yellow leaf syndrome caused by sugarcane yellow leaf virus in sugarcane. Sugar Cane International 22(2):3–7
Viswanathan R (2012) Sugarcane diseases and their management, ICAR-Sugarcane Breeding Institute, Coimbatore, India, p140.
Viswanathan R (2016) Varietal degeneration in sugarcane and its management in India. Sugar Tech 18:1–7
Viswanathan R (2021) Impact of yellow leaf disease in sugarcane and its successful disease management to sustain crop production. Indian Phytopathology 74:573–586. https://doi.org/10.1007/s42360-021-00391-7
Viswanathan R, Rao GP (2011) Disease scenario and management of major sugarcane diseases in India. Sugar Tech 13:336–353
Viswanathan R, Balamuralikrishnan M, Karuppaiah R (2008) Identification of three genotypes of sugarcane yellow leaf virus causing yellow leaf disease from India and their molecular characterization. Virus Genes 37:368–379
Viswanathan R, Chinnaraja C, Malathi P, Gomathi R, Rakkiyappan P, Neelamathi D, Ravichandran V (2014) Impact of Sugarcane yellow leaf virus (ScYLV) infection on physiological efficiency and growth parameters of sugarcane under tropical climatic conditions in India. Acta Physiologica Plantarum 36:1805–1822
Viswanathan R, Chinnaraja C, Parameswari B, Chhabra ML (2016) Status of yellow leaf resistance in sugarcane germplasm and parental clones at Sugarcane Breeding Institute, India. International Sugar Journal 118:60–71
Viswanathan R, Karuppaiah R, Malathi P, Kumar VG, Chinnaraja C (2009) Diagnosis of Sugarcane yellow leaf virus in asymptomatic sugarcane by RT-PCR. Sugar Tech 11:368–372
Viswanathan R, Karuppaiah R, Kowsalya V, Chinnaraja C, Malathi P (2012) Yellow leaf disease of sugarcane: symptom, etiology, epidemiology, impact on sugarcane, diagnosis and management. In: Rao GP, Baranwal VK, Mandal B, Rishi N (eds) Recent trends in plant virology. Studium Press LLC, Houston, USA, pp 389–411
Viswanathan R, Malathi P, Neelamathi D (2018a) Enhancing sugarcane yield per hectare through improved virus-free seed nursery programme. ICAR NEWS 24(4):4–5
Viswanathan R, Parameswari B, Nithya K (2018b) Molecular characterization of sugarcane viruses and their diagnostics. In: Prasad R, Gill SS, Tuteja N (eds) Crop improvement through microbial biotechnology. Elsevier, Amsterdam, pp 175–193
Yang CR (1986) Transmission of sugarcane mosaic virus by three kinds of aphids. Chinese Journal of Entomology 6:43–49
Zhou G, Li J, Xu D, Shen W, Deng H (2006) Occurrence of Sugarcane yellow leaf virus in South China and its transmission by the sugarcane-colonizing aphid, Ceratovacuna lanigera. Scientia Agricultura Sinica 39:2023–2027
Zhu YJ, Lim STS, Schenck S, Arcinas A, Komor E (2010) RT-PCR and quantitative real-time RT-PCR detection of sugarcane yellow leaf virus (SCYLV) in symptomatic and asymptomatic plants of Hawaiian sugarcane cultivars and the relation of SCYLV to yield. European Journal of Plant Pathology 127:263–273
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R. Viswanathan conceived the research work and wrote the paper; T. Ramasubramanian collected data and wrote the paper; R. Selvakumar and T. Lakshmi Pathy analysed the data; C. Chinnaraja, K. Manivannan, and R. Nithyanantham collected and compiled the data during different years.
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Viswanathan, R., Ramasubramanian, T., Chinnaraja, C. et al. Population dynamics of Melanaphis sacchari (Zehntner), the aphid vector of sugarcane yellow leaf virus under tropical conditions in India. Trop. plant pathol. 47, 260–277 (2022). https://doi.org/10.1007/s40858-021-00483-9
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DOI: https://doi.org/10.1007/s40858-021-00483-9