Population Dynamics and Control of The Citrus Rust Mite, Phyllocoptruta olievora (Ashmead) Infesting Orange Trees in Egypt

saad, abdelfattah; tayeb, elsayed; mahrous, mohamed; attia, saeed

	Population Dynamics and Control of The Citrus Rust Mite, Phyllocoptruta olievora (Ashmead) Infesting Orange Trees in Egypt
Journal of the Advances in Agricultural Researches
Article 4, Volume 23, Issue 1 - Serial Number 86, March 2018, Page 24-43 PDF (258.16 K)
Document Type: Research papers
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Authors
abdelfattah saad; elsayed tayeb ; mohamed mahrous; saeed attia
Plant Protection Dept., Faculty of Agriculture (Saba Basha), Alex. Univ., Egypt
Abstract
The population dynamics of the citrus rust mite are affected by many factors. The population fluctuation and control of the citrus rust mite Phyllocoptruta olievora by using different pesticides were investigated on Valencia orange trees in Wadi El-Natroun, Bohaira, Egypt during two seasons of 2015 and 2016. In the first season of 2015, the first appearance of the mite individuals on orange trees (summer crop) started, noticed and recorded in April, 11^th and these individuals were vanished on October, 28^th. The mite was found to have three peaks of activity; the 1^st peak appeared in the second week of May. The 2^ndpeak was noticed by the end of June and the 3^rd peak is shown in the 2^nd week of September. During the season of 2016, the beginning of the presence of the mite individuals on the leaves was recorded on April, 30^th. The end of the presence of the mite individuals was also observed on September, 27^th. Also, it was noticed that the mite was found to have three activity peaks during the season of 2016 in the same experimental area. The 1^st higher peak was shown in mid-June, the 2^nd peak was seen in the first week of July, while the 3^rd peak occurred during the last week of August. During these peaks periods of 2105 and 2016, the temperatures were appropriate for the mite activity and they were of 30° C range or more (30-34.5). Eight pesticides (hexythiazox, fenpyroximate, chlorfenapyr, abamectin, spirodiclofen, spirotetramat, petroleum oil and sulfur) were selected to control P. olievora. The calculation of the reduction percentage of 3 inspections after the 1^st, 2^nd and 3^rd spray showed that abamectin was the most effective compound during both seasons of 2015 and 2016 giving percentage reduction means of the mite individuals of 90.0, 90.4 and 90.3% (2015) and 92.9, 95.2 and 96.3% as compared with the other tested compounds during 2106. Meanwhile, both sulfur and petroleum oil were the least effective evaluated pesticides, nevertheless, the general mean of mite individuals reduction (GRM) they caused was not less than 66.0 or 73.0% during the two seasons of study (2015 and 2016).
Keywords
Population dynamic; Citrus rust mite; Phyllocoptruta olievora; Chemical control; General reduction means (GRM)


References
Al-Azzazy, M. M. (2016). Population fluctuation and control of the citrus rust mite, Phyllocoptruta olievora (Ashmead) (Arachnida: Prostigmata: Eriophyidae). J. Agric. Vet. Sci. Qassim Univ.,9(2):175-186. Al-Azzazy, M.M., Abdallah, A. A. and El-Kawas, H.M.G. (2013). Studies on the wheat curl mite, Aceria tulipae Keifer (Eriophyidae). Egypt. Archives of Phytopathology and Plant Protection, 46(10): 1150-1158. Beattie, G. A. C. and J. G. Gellatley (2003). Mite pests of citrus. AGFACTS, NSW. ORDER no. H2.AE3.AGDEX 220/622. Pp.6. Bergh, J. C. (2000). Ecology and aerobiology of dispersing citrus rust mites (Acari:Eriophyidae) in Central Florida. Environ. Entomol., 30: 318-326. Childers, C. C., M. A. Easterbrook and M. G. Solomon (1996). Chemical control of eriophyoid mites. In: Eriophyoid Mites their Biology, Natural Enemies and Control. E. E. Lindquist, M. W. Sabelis and J. Bruin ( editors). Elsevier. Sci. Publ. Amsterdam: The Netherlands. pp. 695-726. French, J. V. and J. Villarreal (1990). Remove from marked records Agri-Mek^® (abamectin): a new miticide for control of citrus rust mite. J. Rio Grande Valley Hort. Soc., 43: 9-14. Henderson, C. F. and E. W. Tilton (1955). Tests with acaricides against the brown wheat mite. J. Econ. Entomol., 48: 157-161. Jamieson, L. E. and P.S. Stevens (2009). Miticides against citrus red mites (Panonychus citri).New Zealand Plant Protection, 62: 302-309. Kalaisekar, A., V. G. Naiduand N. V. Rao (2003). Efficacy of some pesticides against citrus rust mite, Phyllocoptruta oleivora. Indian J. Entomol., 65(3): 308-310. Knapp, J. L., H. N. Nigg and H. E. Anderson (2001). Update on petroleum spray oil for the citrus rust mite control. Proc. Florida State Hort. Soc., 11(4): 46–51. Puspitarini, R. D., A. Rauf, S. Sosromarsono, T. Santoso and S. Santoso (2012). Abundance of citrus red mite Panonychus citri (McGregor) (Acari: Tetranychidae), other mites and its natural enemies at several citrus plantation locations. J. Agric. Food Tech., 1(11):212-217. Rodríguez, I. V. (2012). Identificación de ácaros que afectan cultivos de naranja Valencia (Citrus sinensis L.) en el núcleo sur occidental de Colombia y establecimiento de dinámica de población y fenología de algunas especies de importancia económica. Doctoral thesis on Agricultural Sciences. Universidad Nacional de Colombia sede Palmira, Clombia, 198 p. Smith, D., N. J. Smith and K. M. Smith (1998). Effect of abamectin on citrus rust mite Phyllocoptruta oleivora and brown citrus rust mite Tegolohus australis and the scale natural enemies Aphytis lingnenensis and Chilocorus circumdatus on oranges. Plant Prot. Quarterly, 13:136–139. Stansly, P. A. and B. C. Kostyk (2015). Acaricidal control of citrus rust mites 2014. Arthropod Manag. Tests 40 (1): D21-DOI. Yang, Y., J. C. Allen, J. L. Knapp and P. A. Stansly (1994). Citrus rust mite (Acari: Eriophydae) damage effect on ‘Hamlin” orange fruit growth and drop. Environ. Entomol., 23: 244-247.
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