Ice-Nucleating Microorganisms
Books
Lee, R. E., G. J. Warren and L. V. Gusta (eds.). 1995. Biological Ice Nucleation and its Applications. APS Press, St. Paul. 370 pp.
Invited Reviews & Book Chapters
(student authors in boldface)
Lee, R. E., L. A. Castrillo,
M. R. Lee, J. A. Wyman and J. P. Costanzo. 2001. Using ice-nucleating
bacteria to reduce winter survival of Colorado potato beetles: development
of a novel strategy for biological control. In: Insect Timing:
Circadian Rhythmicity and Seasonality (eds. D. L. Denlinger,
J. Giebultowicz and D. S. Saunders), pp. 213-227. Elsevier Science,
Amersterdam. |
PDF
Denlinger, D. L. and R. E. Lee. 1998. Physiology of cold sensitivity.
In: Lethal Temperatures in Integrated Pest Management (ed.
G. J. Hallman and D. L. Denlinger), pp. 55-95. Westview Press, Boulder.
|
PDF
Lee, R. E., J. P. Costanzo and M. R. Lee. 1998. Reducing the cold-hardiness
of insect pests using ice nucleating active microbes. In: Lethal
Temperatures in Integrated Pest Management (eds. G. J. Hallman
and D. L. Denlinger), pp 97-124. Westview Press, Boulder.
| PDF
Lee, R. E., M. R. Lee and J. M. Strong-Gunderson.
1995. Biological control of insect pests using ice nucleating microorganisms.
In: Biological Ice Nucleation and its Applications (eds.
R. E. Lee, G. J. Warren and L. V. Gusta), pp. 257-270. APS Press,
St. Paul. |
PDF
Lee, R. E., M. R. Lee and J. M. Strong-Gunderson.
1993. Insect cold-hardiness and ice nucleating active microorganisms
including their potential use for biological control: A review.
Journal of Insect Physiology 39:
1-12. | PDF
Refereed Articles
(student authors in boldface)
Castrillo, L. A., R. E.
Lee, J. A. Wyman, M. R. Lee and S. T. Rutherford.
2001. Field persistence of ice-nucleating bacteria in overwintering
Colorado potato beetles. Biological Control 21: 11-18.
| PDF
Castrillo, L. A., S. T. Rutherford, R. E. Lee and
M. R. Lee. 2001. Enhancement of ice-nucleating activity in Pseudomonas
fluorescens and its effect on efficacy against overwintering
Colorado potato beetles. Biological Control 21:27-34. |
PDF
Castrillo, L. A., R. E. Lee, M. R. Lee and S. T. Rutherford.
2000. Identification of ice-nucleating active Pseudomonas fluorescens
strains for biological control of overwintering Colorado potato
beetles (Coleoptera: Chrysomelidae). Journal of Economic Entomology
93: 226-233. |
PDF
Castrillo, L. A., R. E. Lee, M. R. Lee and W. A. Wyman. 2000. Long-term
retention of ice-nucleating active Pseudomonas fluorescens by
overwintering Colorado potato beetle.
CryoLetters 21: 5-12. |
PDF
Lee, R. E., J. D. Litzgus,
J. A. Mugnano, M. R. Lee, D. R. Horton and J. Dunley.
1999. Evaluation of ice-nucleating microorganisms for reducing the
supercooling capacity and cold-hardiness of Cacopsylla pyricola
(Hemiptera: Psyllidae). The Canadian Entomologist 131:
715-723. |
PDF
Lee, M. R., R. E. Lee, J. M. Strong, S. R. Minges
and J. A. Mugnano. 1998. Reduction of insect cold-hardiness
using ice-nucleating active fungi and surfactants. Entomologia
Experimentalis et Applicata 89: 103-109.
| PDF
Lee, R. E., and J. P. Costanzo. 1998. Biological ice nucleation
and ice distribution in cold-hardy ectotherm. Annual Review
of Physiology 60: 55-72. |
PDF
Armstrong, J. S., R. E. Lee and F. B. Peairs. 1998.
Application of ice nucleating active bacteria decreases the supercooling
capacity of the Russian wheat aphid (Homoptera: Aphidae). pp. 248-257.
In: Response Model for an Introduced Pest-- the Russian Wheat
Aphid (eds. S. S. Quisenberry and F. B. Peairs). Entomological
Society of America, Lanham, MD. |
PDF
Costanzo, J. P., T. L. Humphreys, R. E. Lee, J. B. Moore, M. R.
Lee, and J. A. Wyman. 1998. Long-term reduction of cold hardiness
following ingestion of ice-nucleating bacteria in the Colorado potato
beetle, Leptinotarsa decemlineata. Journal of Insect
Physiology 44:1173-1180. |
PDF
Lee, R. E., K. A. Steigerwald, J. A. Wyman, J. P. Costanzo and M.
R. Lee. 1996. Anatomic site of application of ice-nucleating active
bacteria affects supercooling in the Colorado potato beetle (Coleoptera:
Chrysomelidae). Environmental Entomology 25: 465-469. |
PDF
Steigerwald, K. A., M. R. Lee, R. E. Lee and J. C. Marshall. 1995.
Effect of biological ice nucleators on insect supercooling capacity
varies with anatomic site of application. Journal of Insect
Physiology 41: 603-608.
| PDF
Lee, M. R., R. E. Lee, J. M. Strong-Gunderson and
S. R. Minges. 1995. Isolation of ice nucleating active bacteria
from the freeze-tolerant frog, Rana sylvatica.
Cryobiology 32: 358-365. |
PDF
Strong-Gunderson,
J. M., R. E. Lee and M. R. Lee. 1994. Ice nucleating active
bacteria increase insect mortality at high subzero temperatures.
Cryo-Letters 15: 385-392. | PDF
Lee, R. E., J. P. Costanzo, P. E. Kaufman, M. R. Lee and J. A. Wyman.
1994. Ice nucleating active bacteria reduce the cold-hardiness of
the freeze-intolerant Colorado potato beetle (Coleoptera: Chrysomelidae).
Journal of Economic Entomology 87: 377-381. | PDF
Strong-Gunderson, J. M., R. E. Lee and M. R. Lee.
1992. Topical application of ice-nucleating-active bacteria decreases
insect cold tolerance. Applied and Environmental Microbiology
58: 2711-2716. | PDF
Lee, R. E., J. M. Strong-Gunderson, M. R. Lee and
E. C. Davidson. 1992. Ice nucleating bacteria decrease
the cold-hardiness of stored grain insects. Journal of Economic
Entomology 58: 371-374. | PDF
Lee, R. E., J. M. Strong-Gunderson, M. R. Lee,
K. S. Grove and T. J. Riga. 1991.
Isolation of ice nucleating active bacteria from insects. Journal
of Experimental Zoology 257: 124-127. | PDF
Strong-Gunderson, J. M., R. E. Lee, M. R. Lee, and T.
J. Riga. 1990. Ingestion of ice nucleating active bacteria
increases the supercooling point of the lady beetle Hippodamia
convergens. Journal of Insect Physiology 36: 153-157. | PDF