A Review and Assessment of Microwave Energy for Soil Treatment to Control Pests

Reports of experimental work on controlling pests such as insects, nematodes, weed seeds, and fungi in soil with microwave energy are reviewed. The assessment of the practicability of microwave radiation for soil treatment to control pests involves estimation of energy costs for heating soil to lethal levels for devitalization of weed seeds and consideration of parameters affecting microwave energy attenuation in the soil, conditions for selectively heating organisms in soil, and other factors that need to be taken into account for practical use. It is concluded that little probability exists for practical application of microwave energy for field control of these pests without major new discoveries of lethal mechanisms other than heating. Reasons include the severe attenuation of microwave energy in soils, the improbability of effective, selective heating of organisms, and the extremely high costs of energy and equipment for such applications.

[1]  James C. Lin,et al.  Biological Effects and Health Implications of Radiofrequency Radiation , 1987 .

[2]  A. Guy,et al.  Nonionizing electromagnetic wave effects in biological materials and systems , 1972 .

[3]  S. Nelson Density Dependence of the Dielectric Properties of Wheat and Whole-Wheat Flour , 1984 .

[4]  Stuart O. Nelson Microwave Dielectric Properties of Grain and Seed , 1973 .

[5]  Allan J. Delaney,et al.  Dielectric properties of soils at UHF and microwave frequencies , 1974 .

[6]  M. G. Merkle,et al.  Phytotoxicity of a UHF Electromagnetic Field , 1973, Nature.

[7]  Charles Polk,et al.  CRC Handbook of Biological Effects of Electromagnetic Fields , 1986 .

[8]  H P Schwan,et al.  Microwave radiation: biophysical considerations and standards criteria. , 1972, IEEE transactions on bio-medical engineering.

[9]  A. Barker,et al.  Inhibition of Weed Seed Germination by Microwaves , 1991 .

[10]  S. O. Nelson,et al.  Reducing Hard Seed in Alfalfa by Radio-Frequency Electrical Seed Treatment , 1964 .

[11]  C. Hopkins THERMAL DEATH POINT OF CERTAIN WEED SEEDS , 1936 .

[12]  J. Binner,et al.  The Effect of Microwave Energy on the Slip Casting of Aqueous Ceramic Suspensions , 1997 .

[13]  K. Barker,et al.  Killing and preserving nematodes in soil samples with chemicals and microwave energy. , 1972, Journal of nematology.

[14]  J. H. O'bannon,et al.  Applications of microwave energy to control nematodes in soil. , 1971, Journal of nematology.

[15]  M A Stuchly,et al.  Interaction of radiofrequency and microwave radiation with living systems , 1979, Radiation and environmental biophysics.

[16]  L. Stetson,et al.  Increasing Legume Seed Germination by VHF and Microwave Dielectric Heating , 1976 .

[17]  Stuart O. Nelson,et al.  Factors Affecting the Dielectric Properties of Grain , 1982 .

[18]  Toxicity of an UHF Device to Plant Seeds in Soil , 1973 .

[19]  Allan J. Delaney,et al.  Dielectric properties of soils at UHF and microwave frequencies 36R. J. Geophys. Res. V79, N11, Apr. 1974, P1699–1708 , 1974 .

[20]  S. Nelson Use of Microwave and Lower Frequency RF Energy for Improving Alfalfa Seed Germination , 1976 .

[21]  R. S. Ferriss Effects of microwave oven treatment on microorganisms in soil , 1984 .

[22]  R. M. Menges,et al.  Uhf Electromagnetic Energy for Weed Control in Vegetables , 1974, Weed Science.

[23]  Stuart O. Nelson,et al.  Comparative Effectiveness of 39- and 2450-MHz Electric Fields for Control of Rice Weevils in Wheat , 1974 .

[24]  S. Nelson Microwave Dielectric Properties of Insects and Grain Kernels , 1976 .

[25]  T. L. Lyon,et al.  The Nature and Properties of Soils , 1930 .

[26]  Stuart O. Nelson,et al.  Microwave Dielectric Properties of Corn and Wheat Kernels and Soybeans , 1989 .

[27]  L. Stetson,et al.  Germination Response of Some Woody Plant Seeds to Electrical Treatment , 1978, Weed Science.

[28]  A. C. Metaxas,et al.  Industrial Microwave Heating , 1988 .

[29]  L. Stetson,et al.  Effects of radiofrequency electrical treatment on germination of vegetable seeds. , 1970 .

[30]  J. E. Hipp Soil electromagnetic parameters as functions of frequency, soil density, and soil moisture , 1974 .

[31]  M. A. Stuchly,et al.  Health effects of exposure to electromagnetic fields , 1995, 1995 IEEE Aerospace Applications Conference. Proceedings.

[32]  Stuart O. Nelson,et al.  A System for Measuring Dielectric Properties at Frequencies from 8.2 to 12.4 GHz , 1972 .

[33]  L. Stetson,et al.  Alfalfa Seed Germination Response to Electrical Treatments 1 , 1977 .

[34]  M. G. Merkle,et al.  Control of weeds with UHF electromagnetic fields , 1975 .

[35]  S. O. Nelson,et al.  Effectiveness of Hot-Air, 39-MHz Dielectric, and 2450-MHz Microwave Heating for Hard-Seed Reduction in Alfalfa , 1972 .

[36]  W. B. Reed,et al.  The effect of microwave energy on germination and dormancy of wild oat seeds. , 1980 .

[37]  R. L. Jesch,et al.  Dielectric measurements of five different soil textural types as functions of frequency and moisture content , 1978 .

[38]  S. O. Nelson,et al.  Frequency Dependence of Energy Absorption by Insects and Grain in Electric Fields , 1972 .

[39]  M. G. Merkle,et al.  Ultrahigh-Frequency Electromagnetic Fields for Weed Control: Phytotoxicity and Selectivity , 1971, Science.

[40]  A. Hippel,et al.  Dielectrics and Waves , 1966 .

[41]  G. H. Egley High-Temperature Effects on Germination and Survival of Weed Seeds in Soil , 1990, Weed Science.

[42]  Neale Clarke Hightower,et al.  Investigation of the use of microwave energy for weed seed and wood products insect control , 1974 .

[43]  G. Vela,et al.  EFFECT OF 2450 MHz MICROWAVE RADIATION ON SOME SOIL MICROORGANISMS IN SITU , 1976 .