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http://dx.doi.org/10.5423/PPJ.2005.21.2.111

Simulation of Grape Downy Mildew Development Across Geographic Areas Based on Mesoscale Weather Data Using Supercomputer  

Kim, Kyu-Rang (Department of Plant Pathology, Cornell University, NYSAES)
Seem, Robert C. (Department of Plant Pathology, Cornell University, NYSAES)
Park, Eun-Woo (School of Agricultural Biotechnology, Seoul National University)
Zack, John W. (MESO Inc.)
Magarey, Roger D. (USDA/APHIS/CPHST)
Publication Information
The Plant Pathology Journal / v.21, no.2, 2005 , pp. 111-118 More about this Journal
Abstract
Weather data for disease forecasts are usually derived from automated weather stations (AWS) that may be dispersed across a region in an irregular pattern. We have developed an alternative method to simulate local scale, high-resolution weather and plant disease in a grid pattern. The system incorporates a simplified mesoscale boundary layer model, LAWSS, for estimating local conditions such as air temperature and relative humidity. It also integrates special models for estimating of surface wetness duration and disease forecasts, such as the grapevine downy mildew forecast model, DMCast. The system can recreate weather forecasts utilizing the NCEP/NCAR reanalysis database, which contains over 57 years of archived and corrected global upper air conditions. The highest horizontal resolution of 0.150 km was achieved by running 5-step nested child grids inside coarse mother grids. Over the Finger Lakes and Chautauqua Lake regions of New York State, the system simulated three growing seasons for estimating the risk of grape downy mildew with 1 km resolution. Outputs were represented as regional maps or as site-specific graphs. The highest resolutions were achieved over North America, but the system is functional for any global location. The system is expected to be a powerful tool for site selection and reanalysis of historical plant disease epidemics.
Keywords
disease model; farecast; high-resolution; mesoscale; simulation; supercomputer; weather;
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  • Reference
1 Anonymous. 1989. User Guide for Digital Elevation Data. United States Geological Survey, Washington D. C
2 Johnson, L. F., Roczen, D. E., Youkhana, S. K., Nemani, R. R. and Bosch, D. F. 2003. Mapping vineyard leaf area with multispectral satellite imagery. Computers and Electronics in Agriculture, 38:33-44   DOI   ScienceOn
3 Kaplan, M. L., Zack, J. W, Wong, V. C. and Tuccillo, J. J. 1982. Initial results from a mesoscale atmospheric simulation system and comparisons with an AVE-SESAME I data set. Mon. Wea. Rev. 110: 1564-1590   DOI
4 Mass, C. F. and Dempsey, D. P. 1985. A one-level, mesoscale model for diagnosing surface winds in mountainous and coastal regions. Mon. Wea. Rev. 113: 1211-1227   DOI
5 MESO. 1995. MASS version 5.6 Reference Manual. 118pp. [Available from MESO, Inc., 185 Jordan Road, Troy, NY 12180]
6 MESO. 1999. LAWSS Users Guide. 37pp. [Available from MESO, Inc., 185 Jordan Road, Troy, NY 12180]
7 Kim, K. R. and Park, E. W. 2000. Plant disease tracking system for rice - Internet user interface. Kor. J. Agric. For. Meteorol. 2:68-73   과학기술학회마을   ScienceOn
8 Manobianco, J., Zack, J. W. and Taylor, G. E. 1996. Workstationbased real-time mesoscale modeling designed for weather support to operations at the Kennedy Space Center and Cape Canaveral Air Station. Bull. Amer. Meteor. Soc. 77:653-672   DOI
9 Park, E. W, Seem, R. C. Gadoury, D. M. and Pearson, R. C. 1997. DMCAST: a prediction model for grape downy mildew development. Vitic. Enol. Sci. 52:182-189
10 Magarey, R. D., Russo, J. M., Seem, R. C. and Gadoury, D. M. 2005. Surface wetness duration under controlled environmental conditions. Agric. For. Metrol. 128:111-122   DOI   ScienceOn
11 Magarey, R. D., Seem, R. C. and Zack, J. W. 2000. A Local-area Agricultural Weather Simulation System (LAWSS), for environmental risk assessment. GIS/EM 4:47
12 Kim, K. R. and Park, E. W 1998. Rice Disease Forecasting and Information System. http://epilab.snu.ac.kr/rice
13 Oke, T. R. 1987. Boundary layer climates. Routledge, London. 435 pp
14 Magarey, R. D., 1999. A theoretical standard for the estimation of surface wetness duration in grape. Ph.D. thesis, Cornell University, Ithaca, NY
15 Anonymous. 1991. Land-Use and Land-Cover Digital Data from 1 :250,000- and 1: 100,000-Scale Maps Factsheet. Data Users Guide 4. 33pp. United States Geological Survey, Reston, VA
16 Magarey, R. D., Seem, R. C., Russo, J. M., Zack, J. W., Waight, K. T., Travis, J. W. and Oudemans, P. V. 2001. Site-specific weather information without on-site sensors. Plant Dis. 85:1216-1226   DOI   ScienceOn