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<br />Appendix A
<br />
<br />the 21" century. The program has demonstrated that the U.S. govemment can partner effectively
<br />with states and leverage scarce funds to carry out needed research, using resources already in
<br />place for operational weather modification projects. The program can serve as a model for future
<br />governmental cooperation and national initiatives such as the one proposed in the recent NAS
<br />report (section 1).
<br />
<br />REFERENCES
<br />
<br />American Meteorological Society (AMS), 1998: Policy Statement: Planned and Inadvertent
<br />Weather Modification, Bull. Amer. Meteor. Soc., 79. 2771-2772.
<br />
<br />Boe, B.A., J.L. Stith, P.L. Smith, J.H. Hirsch, J.H. Helsdon, AG. Detwiler, H.D. Orville, B.E.
<br />Martner, RF. Reinking, RJ. Mellin, and RA. Brown, 1992: The North Dakota Thunderstorm
<br />Project: A Cooperative Study of High Plains Thunderstorms. Bull. Amer. Meteor. Soc., 73, 145-
<br />160.
<br />
<br />Bruintjes, R.T., D.W. Breed, V. Salazar, M.J. Dixon, T. Kane, G.B. Foote and B.G. Brown. 2001:
<br />Program for the Augmentation of Rainfall in Coahuila (PARC): Overview and results. Preprints,
<br />15th Conf. on Planned and Inadvertent Weather Modification, Albuquerque, NM, Amer. Meteor.
<br />Soc., Boston, MA,45-48.
<br />
<br />Cooper, William A, Lawson, R. Paul. 1984: Physical Interpretation of Results from the HIPLEX-1
<br />Experiment. J. Appl. Meteor., 23, 523--540.
<br />
<br />Cotton, W.R, G. Thompson, P.W. Mielke, Jr., 1994: Real-time mesoscale prediction on
<br />workstations. Bull. Amer. Mefeor. Soc., 75, 349-362.
<br />
<br />Koracin, D., V. lsakov, and J. Frye, 1998: A Lagrangian particle dispersion model (LAP) 'applied .
<br />to transport and dispersion of chemical tracers in complex terrain. Preprints, 1(f' Joint Conf. on
<br />Applications of Air Pollution Meteor. with the Air and Waste Management Assn. (AWMA),
<br />Phoenix, AZ., Amer. Meteor. Soc., Boston, MA
<br />
<br />Fowler, T.L., B.G. Brown, and R T. Bruinljes, 2001: Statistical evaluation of a cloud seeding
<br />experiment in Coahuila, Mexico. Preprints. 15fh Conf. on Planned and Inadvertent Weather
<br />Modification, Albuquerque, NM, Amer. Meteor. Soc., 49-53.
<br />
<br />Mather, G. K., Terblanche, D. E., Steffens, F. E., Fletcher, L. 1997: Results of the South African
<br />Cloud-Seeding Experiments Using Hygroscopic Flares. Journal of Applied Meteorology, 36,
<br />1433-1447.
<br />
<br />Medina, J.G., 2000: The feasibility of operational cloud seeding in the North Platte River basin
<br />headwaters to increase mountain snowfall. Bureau of Reclamation report; available from Bureau
<br />of Reclamation Technical Service Center, Denver, CO.
<br />
<br />Murty, AS.R., AM. Selvam, P.C.S. Devara, K. Krishna, R.N. Chatterjee, B.K. Mukherjee, L.T.
<br />Kemani, G.A. Momin, R.S. Reddy, S.K Sharma, D.B. Jadhav, R Vijayakumar, P.E. Raj, G.K
<br />Manohar, S.S. Kandalgaonkar, S.K. Paul, AG. Pillai, S.S. Parasnis, C.P. Kulkarni, AL. Londhe,
<br />C.S. Bhosale, S.B. Morwal, P.O. Safai, J.M. Pathan, K. Indira, M.S. Nalk, P.S.P. Rao, P. Slkka,
<br />K.K. Danl, M.K. Kulkarni, H.K. Trimbake, P.N. Sharma, RK. Kapoor, and M.I.R Tinmaker, 2000:
<br />11-year warm cloud seeding experiment In Maharashtra state, India. J. Weather Modif., 32: 10-
<br />20.
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