Agrometeorological stations and weather and climate forecasts

Arturo Corrales SuasteguiMiguel Angel Gonzalez Gonzalez

Mario P. Narváez Mendoza

December 15, 2013

• National Agrometeorological Network

• Climate Forecast

• Meteorological Forecast (WRF)

• References

Outline

• Over 1,000 Agrometeorological stations in 29 states in Mexico

• Information stored every 15 minutes of meteorological variables, such as:

Temperature Precipitation Wind speed and direction Global radiation

• Data Collected in the Laboratorio Nacional de Modelaje y Sensores Remotos (INIFAP)

National Agrometeorological Network

National Agrometeorological Network

Posting:

• Data in real time Internet Web site:http://clima.inifap.gob.mx

• Processed Data Weather and climate maps Agrometeorological applications

(units heat, cold hours, etc.)

• Leaflets

• Android and IOS apps (1st demo)

National Agrometeorological Network

• Statistical model

• Canonical correlation analysis

• Predictants (11 oceanic-

atmospheric variables)

Predictors (Monthly precipitation

and frost days)

• 640 weather stations (Monthly

historical number of days with

temperature <2 °C and Monthly

precipitation data, 1961-2008)

Climate Model:

Climate Forecast

Date of releaseMontly Outlook (anomalies)

1 2 3

September 24th, 2013

October 24th, 2013

November 24th, 2013

December 20th, 2013

Climate Outlooks (Precipitation)

Climate Forecast

Climate Model – Hindcasts:

• Point evaluation: same point

forecasted vs same point registered

• Simulation of monthly historical

forecasts (1961-2008)

• Historical and simulated montlhy data

transformed to terciles

• Tercile simulated vs Tercile registered

by contingency table ( Hanssen

Kuipers Skill Score) for each weather

station

BN=Below normalN= NormalAN= Above normal

BN-N-AN

Climate Forecast

Forecast releaseOutlook month

1 2 3

24 April 2013 0.60 0.45 0.39

24 May 2013 0.44 0.41 0.44

24 Jun 2013 0.41 0.46 0.54

24 July 2013 0.46 0.65 0.51

23 August 2013 0.58 0.57

24 September 2013 0.62

Mean 0.48 0.49 0.47

Overall Hanssen-Kuipers Skill Score 0.48

Monthly Outlook

Climate Model - Hindcast for the Rainy Season in Mexico:

Climate Forecast

WRF model (1 to 5 days forecasts):

• January 2012:

WRF was implemented in INIFAP in order to support the

information needs of forecasts for agricultural regions

• December 2012:

Experimental stage runnings and validation process

Meteorological Forecast

WRF-EMS:

• WRF Environmental Modeling System (EMS), developed by NWS Science Operations Officer (SOO) Science and Training Resource Center (STRC)

http://strc.comet.ucar.edu/index.htm

• Incorporates both dynamical cores on a single forecasting model (Rozulmalski, 2006)

• The software consists of pre-compiled programs that are easy to install and run. The WRF EMS contains the full physics options available for the ARW and NMM cores (Watson, 2007)

Meteorological Forecast

Model Configuration:Simulation Length 120 Hours

Boundry Update Freq 03 Hours

Dynamics Non-Hydrostatic

Cumulus Scheme Betts-Miller-Janjic

Microphysics Scheme Milbrandt-Yau

PBL Scheme Mellor-Yamada-Janjic

Land Surface Scheme Noah 4-Layer LSM

Surface Layer Physics Monin-Obukhov (Janjic)

Long Wave Radiation RRTM

Short Wave Radiation Dudhia Scheme

Forecast period of 120 hours (5 days)

Single domain with a horizontal spatial resolution of 13 km and a vertical structure of 35 levels

Initial conditions were obtained from the Global Forecast System (GFS)

Meteorological Forecast

Evaluation:

• Period: July 2012 through February 2013

• Evaluation points from the National Agrometeorological Network

• Selected stations within a radius of 6 km respect to its closest point of the grid.

• 386 stations selected to validate the WRF model

• It was assumed that the grid points and stations were found at the same altitude above sea level

Meteorological Forecast

Statistical results of the average of all points evaluated from July 2012 through February 2013:

Variable analyzed

Simulation day MAE (mm) ME (mm) RMSE (mm) CC

Precipitation

1 2.26 -0.17 6.25 0.35

2 2.32 -0.11 6.41 0.34

3 2.44 -0.05 6.76 0.29

4 2.47 -0.06 6.82 0.28

5 2.61 0.05 7.21 0.23

 Simulation

day MAE (°C) ME (°C) RMSE (°C) CC

Temperature

1 2.81 1.68 3.41 0.76

2 2.75 1.61 3.36 0.74

3 2.69 1.45 3.31 0.73

4 2.68 1.4 3.3 0.72

5 2.71 1.35 3.35 0.72

Meteorological Forecast

Precipitation. Day 1: ME (Mean Error):

Meteorological Forecast

Tmin. Day 1: ME:

Meteorological Forecast

http://clima.inifap.gob.mx

Thanks!

corrales.arturo@inifap.gob.mxgonzalez.miguelangel@inifap.gob.mx

References

Rozulmalski, R., 2006: WRF Environmental Modeling System User’s Guide. NOAA/NWS SOO Science and Training Resource Coordinator Forecast Decision Training Branch, 89 pp. [Available from COMET/UCAR, P.O. Box 3000, Boulder, CO, 80307-3000]

Watson, L. R. 2007. Weather Research and Forecasting Model Sensitivity Comparisons for Warm Season Convective Initiation. NASA Contractor Report, NASA/CR-2007–214734, 43 pp

Corrales-Suastegui, A., González-Jasso, L.A., Narváez-Mendoza, M.P., González-González, M.A., Osuna-Ceja, E.S., Ruíz-Álvarez, O. y Maciel-Pérez, L.H. 2013. Generación y evaluación estadística del pronóstico de lluvia a cinco días. Folleto Técnico No. 53. Instituto Nacional

de Investigaciones Forestales, Agrícolas y Pecuarias. Centro de Investigación Regional

Norte Centro, Campo Experimental Pabellón. Pabellón de Arteaga, Ags. México. 23p.

ISBN: 978-607-37-0227-0

 

Gonzalez-González, M., Ramos-Gonzalez, J.L., Baez-González, A. D. 2009. Validation of a forecasting method for monthly rainfall in Mexico. Universidad y Ciencia, 25(2):187-192