Pengaruh Konsentrasi Subletal Deltametrin terhadap Nutrisi dan Pertumbuhan Tanaman Padi

https://doi.org/10.22146/jpti.9811

Yuni Ratna(1*), Y. Andi Trisyono(2), Witjaksono Witjaksono(3), Didik Indradewa(4)

(1) Fakultas Pertanian Universitas Jambi
(2) Fakultas Pertanian Universitas Gadjah Mada
(3) Fakultas Pertanian Universitas Gadjah Mada
(4) Fakultas Pertanian Universitas Gadjah Mada
(*) Corresponding Author

Abstract


Increasing the reproductive capacity through increasing plant growth and nutrition is one plausible mechanism of resurgence. This research was intended to determine the effect of deltamethrin on plant vigor and nutrition contents. The experiment was carried out outdoor. The treatments tested were deltamethrin (50 ppm), buprofezin (100 ppm), and control (water). Insecticide applications were applied one time (at age 26 d or 50 d) and two times (at age 26 and 50 d). Deltamethrin applications as many as two times did not increase the total chlorophyll and the photosynthesis rate, nutrients (total nitrogen, total protein, total sugar, total reducing sugar at aged 26 d, and sucrose), growth (plant height and number of tillers), and yield (number of panicles). However, application of deltamethrin at aged 26 d
increased the amount of asparagine. Asparagine is known to be associated with the feeding rate of Nilaparvata lugens stimulation. Therefore, increasing level of asparagine after application of deltamethrin at sublethal concentration was considered as one of the factors that might be involved in the mechanism of N. lugens resurgence.


Salah satu mekanisme resurjensi adalah peningkatan reproduksi hama melalui peningkatan nutrisi dan pertumbuhan tanaman. Penelitian ini dimaksudkan untuk melihat pengaruh deltametrin terhadap kandungan nutrisi dan vigor tanaman. Pengujian dilakukan di lapangan. Perlakuan yang diuji adalah deltametrin 50 ppm, buprofezin 100 ppm, dan kontrol (air). Aplikasi insektisida dilakukan satu kali masing-masing pada umur tanaman 26 dan 50 hst dan dua kali pada umur 26 dan 50 hst. Aplikasi deltametrin sebanyak dua kali tidak meningkatkan total klorofil dan laju fotosintesis, nutrisi (total nitrogen, total protein, total gula, total gula reduksi pada 26 hst, dan sukrosa) kecuali asparagin, pertumbuhan (tinggi tanaman dan jumlah anakan), dan hasil (jumlah malai) tanaman. Oleh karena asparagin berperan sebagai pemacu laju makan Nilaparvata lugens, maka peningkatan kadar asparagin tanaman setelah aplikasi konsentrasi subletal deltametrin diduga sebagai salah satu faktor yang terlibat dalam mekanisme resurjensi N. lugens


Keywords


deltamethrin, plant growth, plant nutrition, sublethal concentration; konsentrasi subletal, nutrisi tanaman, pertumbuhan tanaman

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References

Abdullah, N.M.M., J. Singh, & B.S. Sohal. 2006. Behavioral Hormoligosis in Oviposition reference of Bemisia tabaci on Cotton. Pesticide Biochemistry and Physiology 84: 10−16.

Ahmed, S., S. Anjum, M. Naeem, & M.Y. Ashraf. 2003. Determination of Efficacy of Cypermethrin, Regent and Carbofuran Against Chilo partellus Swin. and Biochemical Changes Following their Application in Maize Plants. International Journal of Agriculture and Biology 5: 30−35.

Anonim. 1997. Metode Pengujian Residu Pestisida dalam Hasil Pertanian. Komisi Pestisida, Departemen Pertanian. Jakarta. 377 p.

_______. 1998.
Deltamethrin (Ref: OMS 1998) Environmental Fate-Ecotoxicology-Human Health A to Z Index-Home. PPDB. 58 p.

_______. 2000. Deltamethrin Risk Characterization Document Volume 1. Department Pesticide Regulation, California Environmental Protection Agency. 108 p.

_______. 2006. Effects of the Active Ingredient Imidacloprid on Plant Growth. Bayer CropScience, Germany. 4 p.

_______. 2009. Bertanam Padi Hibrida Intani-2. PT. BISI International Tbk. 32 p.

Apriyantono, A., D. Fardiaz, N.L. Puspitasari, Sedarnawati, & S. Budiyanto. 1989. Petunjuk Laboratorium Analisis Pangan. PAU Pangan dan Gizi IPB. Bogor. 229 p.

Buenaflor, H.G., R.C. Saxena, & E.A. Heinrichs. 1981. Biochemical Basis of Insecticide-Induced Brown Planthopper Resurgence. International Rice Research Newsletter 6: 13−14.

Chelliah, S. & E.A. Heinrichs. 1984. Factors Contributing to Brown Planthopper Resurgence. p. 107−115. In M.S. Swaminathan (ed.), Judicious and Efficient Use of Insecticides on Rice. IRRI, Philippines.

Chen, Y.H. 2009. Variation in Planthopper-Rice Interactions: Possible Interactions among Three Species. p. 315−326. In K.L. Heong & B. Hardy (eds.), Planthoppers: New Threats to the Sustainability of Intensive Rice Production Systems in Asia. IRRI, Philippines.

El-Daly, F.A. 2006. Role of Fenvalerate (Pyrethroid) and Cyanox (Organophosphorus) Insecticides on Growth and Some Metabolic Activities During Seedling Growth of Raphanus sativus L. Pakistan Journal of Biological Sciences 9: 2313−2317.

El-Daly, F.A. 2008. Biochemical Influence of Cyanophos Insecticide on Radish Plant II. Effect on Some Metabolic Aspects During the Growth Period. Research Journal of Agriculture and Biological Sciences 4: 210−218.

Fidalgo, F., I. Santos, & R. Salema. 1993. Effects of Deltamethrin on Field Grown Potato Plants: Biochemical and Ultrastructural Aspects. Annals Botany 72: 263−267.

Fukumorita, T. & M. Chino. 1982. Sugar, Amino Acid and Inorganic Contents in Rice Phloem Sap. Plant and Cell Physiology 23: 273−283.

Hu, J.H., J.C. Wu, J.L. Yin, & H.N. Gu. 2010. Physiology of Insecticide-Induced Stimulation of Reproduction in the Rice Brown Planthopper (Nilaparvata lugen (Stal)): Dynamics of Protein in Fat Body and Ovary. International Journal of Pest Management 56: 23−30.

Kern, D.L. & M.J. Gaylor. 1993. Induction of Cotton Aphid Outbreaks by Insecticides in Cotton. Crop Protection 12: 387−393.

Khan, S. & J. Singh. 1996. Effect of Some Phenolic Compounds and Pesticides on the Growth and Nutrient Concentration of Gram (Cicer arietinum), Lentil (Lens esculenta) and Linseed (Linum usitatissimum) Plants. Indian Journal of Environmental Health 38: 153−159.

Kvesitadze, G., G. Khatisashvili, T. Sadunishvili, & J.J. Ramsden. 2006. Biochemical Mechanisms of Detoxification in Higher Plants. Springer, Germany. 262 p.

Leather, S.R. 1995. Factors Affecting Fecundity, Fertility, Oviposition, and Larviposition in Insects, p. 143−174. In S.R. Leather & J. Hardie (eds.), Insect Reproduction. CRC Press. New York.

Leigh, T.F. & P.F. Wynholds. 1980. Insecticides Enhance Spider Mite Reproduction. California Agriculture 34: 14−15.

Lu, Z. & K.L. Heong. 2009. Effects of Nitrogen Enriched Rice Plants on Ecological Fitness of Planthoppers. p. 247−256. In K.L. Heong & B. Hardy (eds.), Planthoppers: New Threats to the Sustainability of Intensive Rice Production Systems in Asia. IRRI, Philippines.

Lu, Z.X., K.L. Heong, X.P. Yu, & C. Hu. 2005. Effects of Nitrogen on the Tolerance of Brown Planthopper, Nilaparvata lugens, to Adverse Environmental Factors. Insect Science 12: 121−128.

Maggi, V.L. & T.F. Leigh. 1983. Fecundity Response of the Two Spotted Spider Mite to Cotton Treated with Methyl Parathion or Phosphoric Acid. Journal of Economic Entomology 76: 20−25.

Osman, G.A., A.I. Mustafa, & A.O. Abdelbagi. 2006. Effect of Metasystox Application on Cotton seeds Quality. Pakistan Journal of Nutrition 5: 467−470.

Qiu, H.M., J.C. Wu, G.Q. Yang, B. Dong, & D.H. Li. 2004. Changes in the Uptake Function of the Rice Root to Nitrogen, Phosphorus and Potassium under Brown Planthopper, Nilaparvata lugens (Stal) (Homoptera:Delphacidae) and Pesticide Stresses, and Effect of Pesticides on Rice-Grain Filling in Field. Crop Protection 23: 1041−1048.

Sakai, T. & K. Sogawa. 1976. Effects of Nutrient Compounds on Sucking Response of the Brown Planthopper, Nilaparvata lugens (Homoptera: Delphacidae). Applied Entomology and Zoology 11: 82−88.

Sharma, S.P., M.L. Saini, & S.C. Goel. 1991. Synthetic Pyrethroids-Phytotonic Effects and Cost Benefit Ratio on Gram. Indian Journal of Plant Protection 19: 65−67.

Shigematsu, Y., N. Murofushi, K. Ito, C. Kaneda, S. Kawabe, & N. Takahashi. 1982. Sterols and Asparagine in the Rice Plant, Endogenous Factors Related to Resistance against the Brown Plant hopper (Nilaparvata lugens). Agricultural and Biological Chemistry 46: 2877−2879.

Slosser, J.E., M.N. Parajulee, D.L. Hendrix, T.J. Henneberry, & W.E. Pinchak. 2004. Cotton Aphid (Homoptera: Aphididae) Abundance in Relation to Cotton Leaf Sugars. Environmental Entomology. 33: 690−699.

Sudarmadji, S., B. Haryono, & Suhardi. 1997. Prosedur Analisa untuk Bahan Makanan dan Pertanian. Liberty. Yogyakarta. 160 p.

Suri, K.S. & G. Singh. 2011. Insecticide-Induced Resurgence of the Whitebacked Planthopper Sogatella furcifera (Horvath) (Hemiptera: Delphacidae) on Rice Varieties with Different Levels of Resistance. Crop Protection 30: 118−124.

Tamilselvan, C., R. Sundararaju, K. Regu, & D.V. David. 1990. Influence of Deltamethrin on the Biochemical Parameters of Cotton and Biology of the Whitefly Bemisia tabaci (Genn.). Pestology 14: 17−19.

Thayumanavan, B., R. Velusamy, S. Sadasivam, & R.C. Saxena. 1990. Phenolic Compounds, Reducing Sugar, and Free Amino Acids in Rice Leaves of Varieties Resistant to Rice Thrips. International Rice Research Newsletter 15: 14−15.


Venugopal, M.S. & J.A. Litsinger. 1980. Carbofuran-a Direct Growth Stimulant of Rice. IRRI, Philippines. 19 p.

Wu, J.C., J.F. Xu, X.M. Feng, J.L. Liu, H.M. Qiu, & S.S. Luo. 2003. Impacts of Pesticides on Physiology and Biochemistry of Rice. Scientia Agricultural Sinica 35: 536−541.



DOI: https://doi.org/10.22146/jpti.9811

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