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2012 | 52 | 3 |

Tytuł artykułu

Evaluation of effects of two spring applications of micronutrients on the population density of common pistachio psylla (Agonoscena pistaciae) in pistachio orchards

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Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
The common pistachio psylla, Agonoscena pistaciae Burckhardt and Lauterer (Hemiptera: Aphalaridae) is one of the most detrimental pests to pistachio trees. This pest is distributed throughout all the pistachio producing regions of Iran. Nowadays various pesticides are used to control the common pistachio psylla, but extensive pesticide spraying against this pest over a period of several years has overpowered its natural enemies. Moreover, the overlapping of generations has resulted in an abundant presence of the pest. Many herbivorous insects can make qualitative distinctions between host plants, they can feed and oviposit preferentially on higher quality plants. Cultural methods such as crop fertilization can affect the susceptibility of plants to insect pests by altering a plant tissue's nutrient level. This study tested nitrogen (N), calcium (Ca) and zinc (Zn) fertilizers on A. pistaciae in pistachio orchards. The experiment was based on complete randomized blocks with three replications and nine treatments including once-applied Zn, Ca, N, NCa, ZnCa, ZnN, ZnCaN, pesticide (amitraz) and a control (distilled water), on common pistachio psylla fed on 20-year-old pistachio trees of Ahmadaghaei rootstock. The results demonstrated that the effect of nutritional solutions on nymph and egg populations showed a significant difference at a 5% level. The highest measure of control on eggs was related to amitraz, ZnCa and Zn while the least was related to NZn. The results also showed that the highest measure of pest control was related to Ca while the least was related to N and Zn. The results indicated that combinations of the elements mentioned had a stronger reducing effect on the concentration of pistachio psylla nymphs than the effect pesticide had.

Słowa kluczowe

Wydawca

-

Rocznik

Tom

52

Numer

3

Opis fizyczny

p.314-318,fig.,ref.

Twórcy

autor
  • Department of Plant Protection, Faculty of Agriculture Vali-e-Asr University, Kerman, Rafsanjan, P.O. Box 518, Iran
autor

Bibliografia

  • Alasvand Zarasvand A., Allahyari H., Haghshenas A., Afioni Mobarakeh D., Sabori A., Zarghami S., Khaghani Sh. 2010. The effect of nitrogen fertilization on biology and intrinsic rate of increase of Schizaphis graminum R. (Hom.: Aphididae). Sci. J. Agric. 32 (2): 67-74.
  • Altieri M.A., Nicholls C.I. 2003. Soil fertility management and insect pests: harmonizing soil and plant health in agroeco-systems. Soil. Till. Res. 72 (2): 203-211.
  • Alizadeh A., Kharrazi Pakdel A., Talebi-Jahromi K.H., Samih, M.A. 2007. Effect of some Beauveria bassiana (Bals.) Viull. isolates on common pistachio psylla Agonoscena pistaciae Burck. and Laut. Int. J. Agric. Biol. 9 (1): 76-79.
  • Berenbaum M.R. 1995. Turnabout is fair play: secondary roles for primary compounds. J. Chem. Ecol. 21 (7): 925-940.
  • Brodbeck B., Stavisky J., Funderburk J., Andersen P., Olson S. 2001. Flower nitrogen status and populations of Frankliniella occidentalis feeding on Lycopersicon esculentum. Entomol. Exp. Appl. 99 (2): 165-172.
  • Burckardt D., Lauterer P. 1989. Systmatics and biology of the Rhinocolinae (Homoptera: Psylloidea). J. Nat. 23 (3): 643-712.
  • Chau A., Heinz K.M., Davies J.R. 2005. Influences of fertilization on Aphis gossypii and insecticide usage. J. Appl. Entomol. 129 (2): 89-97.
  • Conway G.R., Pretty J. 1991. Unwelcome Harvest: Agriculture and Pollution. Earthscan, London, 672 pp.
  • Daugherty M.P., Briggs Ch. J., Welter S.C. 2007. Bottom-up and top-down control of Pear psylla (Cacopsylla pyricola): Fertilization, plant quality, and the efficacy of the predator Anthocoris nemoralis. Biol. Control. 43 (3): 257-264.
  • Edwards P.J., Wratten S.D., Parker L. 1992. The ecological significance of rapid wound-induced changes in plants: insect grazing and plant competition. Oecologia 91 (2): 266-272.
  • Eubanks M.D., Denno R.F. 1999. The ecological consequences of variation in plants and prey for an omnivorous insect. Ecology 80 (4): 1253-1266.
  • Frangoyiannis D.A., Mckinlay R.G., Mello J.P.F.D. 2001. Interactions of aphid herbivory and nitrogen availability on the total foliar glycoalkaloid content of potato plants. J. Chem. Ecol. 27 (9): 1749-1762.
  • Hunter M.D., McNeil J.N. 1997. Host-plant quality influences diapause and voltinism in a polyphagous insect herbivore. Ecology 78 (4): 977-986.
  • Kagata H., Katayama N. 2006. Does nitrogen limitation promote intraguild predation in an aphidophagous ladybird. Entomol. Exp. Appl. 119 (3): 239-246.
  • Lauterer P., Broumas T., Drosopoulos S., Souliotis C., Tsourgianni A. 1998. Species of the genus Agonoscena targionii, pests on pistaciae and first record of A. pistaciae in Greece. Annu. Insect. Phytopathol. 18 (2): 123-128.
  • Littke K.M., Zabowski D. 2007. Influence of calcium fertilization on Douglas-fir foliar nutrition, soil nutrient availability, and sinuosity in coastal Washington. Forest. Ecol. Manag. 247 (1-3): 140-148.
  • Luna J.M. 1988. Influence of soil fertility practices on agricultural pests. p. 589-600. In: Proc. Sixth International Science Conference of International Federation of Organic Agriculture Movements on Global Perspectives on Agroecology and Sustainable Agricultural Systems. Santa Cruz, CA. 18-20 August 1988, California, USA, 918 pp.
  • Mart C., Erkilic L., Uygun N., Altin M. 1995. Species and pest control method used in pistachio orchards of Turkey. Acta. Hortic. 419: 379-386.
  • Merrill M.C. 1983. Eco-agriculture: a review of its history and philosophy. Biol. Agric. Hort. 1 (3): 181-210.
  • Moon D.C., Stiling P. 2005. Effects of nutrients and parasitism on the density of a salt marsh planthopper suppressed by withintrophic-level interactions. Ecol. Entomol. 30 (6): 642-649.
  • Morales H., Perfecto I., Ferguson B. 2001. Traditional fertilization and its effect on corn insect populations in the Guatemalan highlands. Agric. Ecosyst. Environ. 84 (2): 145-155.
  • Oelhaf R.C. 1978. Organic Farming: Economic and Ecological Comparisons with Conventional Methods. John Wiley, New York, 271 pp.
  • Ozden-Tokatli Y., Ozudogru E.A., Akcin A. 2005. In vitro response of pistachio nodal explants to silver nitrate. Sci. Hortic-Amsterdam. 106 (3): 415-426.
  • Samih M.A., Alizadeh A., Saberi Riseh R. 2005. Pistachio Pests and Diseases in Iran and their IPM. Organization of Jihad-e-University, Tehran, 301 pp.
  • Sarwar M. 2011. Effects of Zinc fertilizer application on the incidence of rice stem borers (Scirpophaga species) (Lepidoptera: Pyralidae) in rice (Oryza sativa L.) crop. J. Cereals Oilseeds 2 (5): 61-65.
  • Stamp N.E. 2001. Effects of prey quantity and quality on predatory wasps. Ecol. Entomol. 26 (3): 292-301.
  • Stout M.J., Brovont R.A., Duffey S.S. 1998. Effect of nitrogen availability on expression of constitutive and inducible chemical defenses in tomato, Lycopersicon esculentum. J. Chem. Ecol. 24 (6): 945-963.
  • Wang Y.J., Zeho D.M., Sun R.J., Cang L., Hao X.Z. 2006. Cosorption of zinc and glyphosate on two soils with different characteristics. J. Hazard Mater. 137 (1): 76-82.
  • Zhong-xian L.U., Xiao-ping Y.U., Heong K.l., Cui H. 2007. Effect of nitrogen fertilizer on herbivores and its stimulation to major insect pests in rice. Rice Sci. 14 (1): 56-66.

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