Disease phenomena in insect population can be understood through epizootic modeling. In a pathosystem, disease is generated by transmission (ρ) and is decayed by death (μ). Mass incidence and decay of disease depend on the disease threshold density (St*) which inherently possesses three traits. First, if the density of susceptible insects (St) > St* then disease incidence (It) will increase ( ΔIt > 0 ). Second, if St < St*, then It will decrease ( ΔIt < 0 ). Third, if St = St* then there will be no new infection ( ΔIt = 0 ). Threshold density can be determined monocyclically through laboratory bioassays and polycyclically through field observation. The values of μ and ρ, which are the principal components of monocyclic threshold density, may indicate whether the corresponding entomopathogen is the better candidate for microbial insecticide or, otherwise, even better as the biological control agent (natural enemy). Meanwhile, the concept of polycyclic threshold density highlights the importance of incorporation of sampling of infected insects into the existing agro-ecosystem monitoring scheme.

Agrios, G.N. 1988. Plant Pathology. 3rd ed. Acad. Press., San Diego. 156 p.

Anderson, R.M. & R.M. May. 1978. Regulation and Stability of Host - Parasite Population Interactions. I. Regulatory Processes. J. Anim. Ecol. 47: 219-247.

Anderson, R.M. & R.M. May. 1979. Population Biology of Infectious Diseases. Part I. Nature 280: 361-367.

Anderson, R.M. & R.M. May. 1981. The population Dynamics of Microparasites and Their Invertebrate Hosts. J. Anim. Ecol. 291: 451-524.

Andreadis, T.G. 1987. Transmission, p. 159-176. In Fuxa, J.R and Y. Tanada (eds.), Epizootiology of Insect Diseases. John Wiley, New York. Barr, R.A. 1979. Epidemiological Concepts for Entomologists. Bull. Entomol. Soc. Amer. 25: 129-130.

Brown, G.C. 1987. Modeling, p. 48-67. In Fuxa, J.R and Y. Tanada (eds.), Epizootiology of Insect Diseases. John Wiley, New York.

Brown, G.C. & R. Hasibuan. 1995. Conidial Discharge and Transmission Efficiency of Neozygites floridana an Entomopathogenic Fungus Infecting Two Spotted Spider Mites under Laboratory Conditions. J. lnvertebr. Pathol. 65: 10-16.

Brown, G.C. and G.L. Nordin. I982. An Epizootic Model of an Insect - Fungal Pathogen System. Bull. Math. Biol. 44: 731-739.

Dewi, M., F.X. Susilo & A.M. Hariri. 1998. Daya Infeksi, Efisiensi Penularan, dan Periode Letal Penyakit Muskardin Hijau (Metarhizium anisopliae) pada Wereng Coklat (Nilaparvata lugens). Jurnal Penelitian Pertanian 9: 156-166.

Faidzal, M., F.X. Susilo & L. Wibowo. 1996. Penentuan Kepadatan Ambang Penyakit Beauveria bassiana - Leptocorisa acuta di Laboratorium. Jurnal Penelitian Pertanian 8: 31-39.

Fox, J.P., C.E. Hall & L.R. Elveback. 1970. Epidemiology, Man, and Diseases. The MacMillan, New York, p. 21-31.

Fry, W.E. 1982. Principles of Plant Disease Management. Acad. Press. New York. 43 p.

Fuxa, J.R. & Y. Tanada. 1987. Epidemiological Concepts Applied to Insect Epizootiology, p. 21-31. In Fuxa, J.R & Y. Tanada (eds.), Epizootiologv of Insect Diseases. John Wiley, New York.

Garcia, R., LE. Caltagirone & A.P. Gutierrez. 1988. Roundtable: Comments on a Redefinition of Biological Control. BioScience 38 (10): 692-694.

Harper, J .D. 1987. Applied Epizootiology: Microbial Control of Insects, p. 473-496. In Fuxa, J.R & Y. Tanada (eds.). Epizootiology of Insect Diseases. John Wiley, New York.

Hukuhara, T. 1987. Epizootiology: Prevention of Insect Diseases, p. 497-512. In Fuxa, J.R and Y. Tanada (eds.), Epizootiology of Insect Diseases. John Wiley, New York.

Ismanto, A.N., F.X . Susilo & lndriyati. 1999. Potensi Kontak Antara Inokulum dan Inang Menentukan Efisiensi Penularan Penyakit Muskardin Hijau Pada Kepik Hijau Kedelai. J. Pengb. Wil. L. Kering 24: 28-36.

Kennack, W.D. & A.G. McKendrick. 1927. A Contribution to the Mathematical Theory of Epidemics. J.R. Statist. Soc. Ser. A. 115: 700-721.

May. R.M. 1986. Ecology of Insect Pathogen Interactions and Some Possible Applications, p. 185-201. In Kogan, M. (ed.), Ecological Theory and Integrated Pest Management Practice. John Wiley. New York.

McNew, G.L. 1960. The Nature, Origin, and Evolution of Parasitism. p. 19-69. In Horsfall, J.G. & A.E. Diamond (eds.). Plant Pathology: An Advanced Treatise. Acad. Press., New York.

Prapti, M. D. A. 2000. Daya lnfeksi Cendawan Muskardin Hijau (Metarhizium anisopliae) terhadap Imago Kutu Daun Kedelai (Aphis glycines). Skripsi S1, Universitas Lampung, Bandar Lampung. 28 hlm.

Steinhaus, E.A. 1949. Principles of Insect Pathology. 1st ed. McGraw-Hill Book, New York. 757 p.

Steinhaus, E.A. I 963. Introduction, p. 1-27. In Steinhaus, E.A. (ed), Insect Pathology: An Advanced Treatise. Vol. I. Acad. Press, New York.

Susilo, F.X. 1991. Epizootiological Studies on Neozygites floridana Weiser & Muma (Entomophthorales: Neozygitaceae) Infectious to the Two Spotted Spider Mite, Tetranychus urticae Koch (Acari: Tetranychidae). Ph.D Dissertation. University of Kentucky. Lexington, Kentucky. 208 p.

Susilo, F.X., R. Hasibuan, G.L. Nordin & G.C. Brown. 1993. The Concept of Threshold Density in Insect Pathology: A Theoretical and Experimental Study on Tetranychus - Neozygites Mycosis, p. 29-36. Dalam Martono, E., E. Mahrub, N.S. Putra & Y. Trisetyawati (eds.) Prosiding Makalah Simposium Patologi Serangga I. PEI Yogyakarta, Fakultas Pertanian UGM, Pronas PHT BAPPENAS. Yogyakarta.

Tanada, Y. 1963. Epizootiology of Insect Diseases, p. 423-475. In Steinhaus, E.A. (ed), Insect Pathology: An Advanced Treatise. Vol. II. Acad. Press, New York.

Tanada, Y. & J .R. Fuxa.1987. The Pathogen Population, p. 113-157. In Fuxa, J.R & Y. Tanada (eds.), Epizootiology of Insect Diseases. John Wiley, New York.

Tanada, Y. & H.K. Kaya. 1993. Insect Pathology. Acad. Press, San Diego, p. 595-632.

Waltman, P. 1974. Deterministic Threshold Models in the Theory of Epidemics. In Levin, S. (ed.), Lecture Notes in Biomathematics. Springer-Verlag, New York.

Watanabe, H.1987. The Host Population, p. 71-112. In Fuxa, J.R. & Y. Tanada (eds.), Epizootiology of Insect Diseases. John Wiley, New York.