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LOCUST REMOTE SENSING AND GIS<br />
185<br />
mechanisms <strong>and</strong> consequences (pp. 207–234), Proceedings of the Royal Entomological Society's<br />
20th Symposium. London: CABI Publishing.<br />
Drake, V. A., Harman, I. T., & Hunter, D. M. (1998). Monitoring locust migratory flight with radar: An<br />
Australian study. Second Urban Environment Symposium & 13th Conference on Biometeorology <strong>and</strong><br />
Aerobiology, 313–316.<br />
Dreiser, U. (1994). Mapping of desert locust habitats in Africa using L<strong>and</strong>sat Thematic Mapper data.<br />
GeoJournal, 32, 55–60.<br />
Food <strong>and</strong> Agricultural Organization. (1989 May 2–5). Desert locust research priorities. Report of the<br />
FAO Research Advisory Panel, FAO, Rome, <strong>Italy</strong>.<br />
Food <strong>and</strong> Agricultural Organization. (2001). Desert Locust Guidelines. Vol. 1. Biology <strong>and</strong> behavior.<br />
FAO, Rome, <strong>Italy</strong>.<br />
Franc, A. (2007). Impact des transformations mésologiques sur la dynamique des populations et la<br />
grégarisation du criquet nomade dans le bassin de la Sofia (Madagascar) [Impacts of the<br />
environmental alterations in the Sofia basin (Madagascar) on the population dynamics <strong>and</strong> the<br />
gregarization of the Red locust]. Unpublished doctoral dissertation, University Montpellier III – Paul<br />
Valéry, Montpellier, France.<br />
Ghaout, S. (1990). Contribution à l’étude des ressources trophiques de Schistocerca gregaria (Forsk.)<br />
(Orthoptera , Acrididae) solitaire en Mauritanie occidentale et télédetection de ses biotopes par<br />
satellite [Contribution to the study of the trophic resources of the solitarious Schistocerca gregaria<br />
(Forsk.) (Orthoptera, Acrididae) in western Mauritania <strong>and</strong> remote sensing of its habitats <strong>by</strong> satellite].<br />
Unpublished doctoral dissertation, Université Paris XI Orsay, France.<br />
Hamilton, J. G., & Bryceson, K. P. (1993). Use of enhanced GMS weather satellite data in locust<br />
forecasting. In S. A. Corey, D. J. Dall, & W. M. Milne (Eds.), Pest control <strong>and</strong> sustainable<br />
agriculture (pp. 444–448). Melbourne: CSIRO.<br />
Healey, R. G., Robertson, S. G., Magor, J. I., Pender, J., & Cressman, K. (1996). A GIS for desert locust<br />
forecasting <strong>and</strong> monitoring. International Journal of Geographic Information Systems, 10, 117–136.<br />
Hessburg, P. F., Reynolds, K. M., Keane, R. E., James, K. M., & Salter, R. B. (2007). Evaluating<br />
wildl<strong>and</strong> fire danger <strong>and</strong> prioritizing vegetation <strong>and</strong> fuel treatments. Forest Ecology <strong>and</strong><br />
Management, 247, 1–17.<br />
Hielkema, J. U. (1981). Desert locust habitat monitoring with satellite remote sensing: A new technology<br />
for an old problem. ITC Journal, 4, 387–417.<br />
Hielkema, J. U., Roffey, J., & Tucker, C. J. (1986). Assessment of ecological conditions associated with<br />
the 1980/81 desert locust plague upsurge in West Africa using environmental satellite data.<br />
International Journal of Remote Sensing, 7, 1609–1622.<br />
Hielkema, J. U., & Snijders, F. L. (1994). Operational use of environmental satellite remote sensing <strong>and</strong><br />
satellite communications technology for global food security <strong>and</strong> locust control <strong>by</strong> FAO: The<br />
ARTEMIS <strong>and</strong> DIANA systems. Acta Astronautica, 32, 603–616.<br />
Hunter, D. M., McCulloch, L., & Spurgin, P. A. (2008). Aerial detection of nymphal b<strong>and</strong>s of the<br />
Australian plague locust (Chortoicetes terminifera (Walker)) (Orthoptera: Acrididae). Crop<br />
Protection, 27, 118–123.<br />
Jensen, J. R. (2006). Introductory digital image processing. Englewood Cliffs: Prentice-Hall.<br />
Keane, R., Burgan, R., & Van Wagtendonk, J. (2001). Mapping wildl<strong>and</strong> fuels forest fire management<br />
across multiple scales: Integrating remote sensing, GIS, <strong>and</strong> biophysical modelling. International<br />
Journal of Wildl<strong>and</strong> Fire, 10, 301–319.<br />
Kemp, W. P., Kalaris, T. M., & Quim<strong>by</strong>, W. F. (1989). Rangel<strong>and</strong> grasshopper (Orthoptera: Acrididae)<br />
spatial variability: Macroscale population assessment. Journal of Economic Entomology, 82, 1270–<br />
1276.<br />
Kibasa. (2006). Use of SPOT 5 Image to identify presence of locusts. International Institute for<br />
Geoinformation Science <strong>and</strong> Earth Observation, Enschede, Netherl<strong>and</strong>s.<br />
Kumar, A., Chingkhei, R. K., & Dolendro, T. (2007). Tsunami damage assessment: A case study in Car<br />
Nicobar Isl<strong>and</strong>, India. International Journal of Remote Sensing, 28, 2937–2959.<br />
Ji, R., Xie, B. Y., Li, D. M., Li, Z., & Zhang, X. (2004). Use of MODIS data to monitor the oriental<br />
migratory locust plague. Agriculture, Ecosystems <strong>and</strong> Environment, 104, 615–620.<br />
Latchininsky, A. V., et al. (2002). саранчовые Казахстана, Средней Азии и сопредельных<br />
территорий [The Acridids of Kazakhstan, Central Asia, <strong>and</strong> Adjacent Territories]. Association for<br />
Applied Acridology International, University of Wyoming, Laramie, WY.