DEVELOPMENT OF PALM TRUNK INJECTOR FOR CONTROLLING RED PALM WEEVIL | ||||
Misr Journal of Agricultural Engineering | ||||
Article 27, Volume 29, Issue 1, January 2012, Page 481-500 PDF (590.33 K) | ||||
Document Type: Original Article | ||||
DOI: 10.21608/mjae.2012.102634 | ||||
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Author | ||||
A. A. Eliwa | ||||
Senior Res., Ag. Eng. Res. Inst.(AEnRI), Dokki; Giza, Egypt. | ||||
Abstract | ||||
The present research aimed essentially to optimize the performance of trunk injection device suitable for controlling red palm weevil (Rhynchophorus Ferrugineus), which represents the most economically important insect pest of date palm trees in Egypt. Field trials were conducted in Sharkia and Ismaillia Governorates to determine some operating parameters influencing the performance of developed device under different factors.The lost insecticide, device productivity torque and energy requirements, recovery percentage or controlling efficiency and operation cost were calculated. Results indicated that the lowest values of lost insecticide were (0.0, 1.10 and 1.3%) with manual injection method when using boring bar with two nozzles, while the highest value of lost insecticide (9.7%) happened when using boring bar with 5 nozzles and electric drill. The highest device productivity of 7.5 palm/h was when using electric drill at infestation palm having diameter 25cm. Meanwhile, the lowest productivity of 3.0 palm/h was by manual method using fixed boring bar at high palm diameter 40. The torque required to rotate the boring bar inside palm trunk increased with increasing date palm age or diameter and when increasing the pitch from 3 to 6 mm. Maximum value of energy 0.18, 0.22 and 0.25 kW.h /palm was recorded at manual fixed boring bar under all diameters 25, 25-40 and 40 cm respectively., Meanwhile, minimum value 0.10 kW.h /palm was found when using electric drill at 25 cm diameter. The recovery percentage increased when using movable boring bar comparing to electric method by 44.4, 37.4 and 30.1%. The controlling cost was 12.05 LE/palm , while13.75 LE/palm in manual and electric methods respectively, in addition to providing an electricity source. | ||||
Keywords | ||||
Manual and electric injection device; red palm weevil; date palm; recovery percentage | ||||
References | ||||
Abdallah, F. F. and S. A. Al Khatri (2000): The effectiveness of trunk injection and fumigation for the control of the red palm weevil in date palm. J. of Plant Prot. in the Tropies 13 (1): 17-21.
Abdallah, F. F. and S. A. Al Khatri (2005): The effect of pheromone, kairomone and food bait on attracting adults of red palm weevil in the sultanate of Oman in date palm plantations. Egypt. J. Agric. Res., 83 (1): 169-177.
Abdel-Megeed, M. I. (2007) Towards a strategy for integrated management of Red Palm Weevil. Egypt.J.Agric. Rec., (1).283-312.
Al-Hammadi, M. S. (2006): Salt tolerance and current status of the date palm in the United Arab Emirates. Ph. D. Th., Grad. college , Arizona Univ., USA.
Barrancom P.; Lapena, J. D. E. and Cabella, T (1996): Red palm weevil, new pest in Europe (Coleoptra: Curculion idea). Phytoma Espara. (Feb. 1996) 7. 36-40.
Batt, A. M. and G. N. Girgis (1996): Certain studies on borers attacking date palm trees in Egypt. Menofiya J. Agric. Res., Vol. 21, No. 4 P. 9.
EL-Rabee, R. G. M. (2004) A locally hydraulic machine for insecticide injection date palm trunk. M. Sc., Th., Fac. of Agric., Bagdad Univ., 2004.
Faghih, A. A. (1996). The biology of red palm weevil phynchophorns ferruginens oliv, in saravan region (Sistan and Balnuchistan Province, Iran). Appl. Entomol. Phytopathol. 63, (in Persian).
Eliwa, A.A.; N.S. Ahmed and M.M. Abd ELAzim (2007) Evaluation of trunk injection device performance for controlling Rhynchophorus Ferrugineus and translocation of two insecticides in date palm trees, J. Biol-Chem. Environ Sci., 3(1):665-680.
EL-Sebay, Y. (2007) Studies on the infestation of Red Palm Weevil Rhynchophorus Ferrugineus. In Egypt. Egypt.J.Agric. Rec.,(1).131-162.
Girgis, G. N.; A. M. Batt; A. M. Okil; S. M. Haggag and M. M. Abdel-Azim (2002) Evaluation of trunk injection methods for the control of red palm weevil in date palm trees in Egypt. 2nd international conf. plant protec., Res. Inst.Giza, Egypt, 21-24Dec. 2002.
Hernandez, M.D.; Folk, F.; Sanchez, A. and Fernandez-Escobar, R. (2003) Control of red palm weevil RHYNCHOPHORUS FERRUGINEUS OLV.using trunk injection and foliar sprays.Boletin-de-Sanidad-Vegetal, plagas.2003;29 (4):563-573.
Huang-Zhen, YU (2006) Techniques of chemical control of Hemiberlesia pitysophila Taagi. J. OF Nanjing F. Univ. Natural Sci.Edition. 2006; 30(5):119-122.
Imtias-Ahmed; Khan, M. F. U. and Rehana-Ahmed(2005)Injection measures with systemic insecticides on fruit trees for leaf miner and sucking pests management. J. OF Experimental Zoology, India 2005; 8(1): 221-223.
Janakiraman, S. and Rao, P.V.S. (2001) Effect of injection of insecticides against banana pseudostem borer, Enttomology, TNAU, Coimbatore, 124-126, 1 (9), 2001.
Kranz, J.; H. Schmutterer and W. Kock (1987): Diseases pests and weed in tropical crops. John Wiley and Sons, N. Y. 410-412.
Morad, M.M. and A.A. Eliwa (2007): Cost analysis and energy requirements for mechanical controlling of RPW. Egypt, J. Agric. Rec, 86 (1): 43-55.
Nair, M. R. G. K. (1986): Insects and mites of crops in India. Publication and Info. Division, Indian council of Agric. Res., New Delhi: 86-87.
Sadakathulla, S. (1991): Management of red palm weevil, Rhynchophorus ferrugineus F. in coconut plantation. The planter, Kuala Lumpur, 67; 415-419.
Saleh, M. R. A.; K. A. Gouhar; A. E. Omar; A. E. Ibrahim; S. S. M. Hassanin and Kh. M. Hussein (1996): An approach to chemical control of the red palm weevil on the date palm in Sharkia and Ismailia Governorates, Egypt. Egypt. J. Appl. Sci., 11 (4): 250-260.
Shams El-Deen, M. M. And Abd –El-Gawad , M. M. (1994): Laboratory evaluation of six Egyptian isolates of Heteroprhabclitid nematodes for control of the red palm weevil . Egypt J. Appl. Sci. 9 : 670-679.
Soroker, V.; Y. Nakache; Y. Landau; A. Mizrach; A. Hetzoni and D. Gerling (2004): Utilization of sounding methodology to detect infestation by Rhynchophorus ferrugineus on palm offshoots. Phytoparasitica, 32 (1): 6-8. | ||||
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