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-='''Setting up the monitoring network'''= 
-Before setting up a monitoring network a decision has to be made on the type of network that is appropriate for the country or region at hand. This chapter outlines the practical steps to set up such a network given the choice made in the [[Chapter6|previous chapter]]. 
='''Introduction to a station-based network'''= ='''Introduction to a station-based network'''=

Revision as of 12:00, 16 June 2006

Setting up the monitoring network

Before setting up a monitoring network a decision has to be made on the type of network that is appropriate for the country or region at hand. This chapter outlines the practical steps to set up such a network given the choice made in the previous chapter.

Introduction to a station-based network

Most countries have an extensive network of meteorological stations. The most important types of monitoring stations are :

  • Synoptic stations. These stations provide hourly data on a real-time basis. Usually these data are fed into the global GTS system of WMO. Most of these stations provide weather data that enable users to calculate the Penman-Monteith reference evaporation (ET0). A subset of these stations do upper-air observations, which is less interesting for agrometeorological purposes.
  • Realtime Rainfall stations. These stations monitor rainfall and send in their data to the National Meteorological Office once a day.
  • Off-line rainfall stations that send in their daily data once a month or even once a year. These stations are important for climatic studies and the provision of normal data.

Which stations are to be included in the crop monitoring network?

Although the selection criteria differs from countrry to country a few guidelines are universal:

  • The station should be in an area where the monitoring crops are located.
  • A reasonably stable stream of data on de decadal basis (or daily, hourly basis) should reach the crop forecasting unit.
  • Stations should be evenly spread in crop growing areas. It does not make sense to include five stations in a 10 by 10 kilometer area (this is often the case in a capital city)
  • To monitor crops in a water balance model, the following data are needed for the selected stations:
    • Rainfall (actual and normal)
    • PET (Potential evapotranspiration)
    • Crops (which crops are planted and where they can be found)
    • Planting dates for crops (PLD)
    • Cycle length for all the crops (CYC)
    • Water Holding Capacity (WHC) of the soil.
    • Percentage Effective Rainfall (EFR)
    • Pre-season Crop coefficient (usually around 0.15)
    • Irrigation data including bund height (when applicable).

A station-based network: step by step

The following fields for every station are needed:

  1. ID (national or international number)
  2. Name (spelling is sometimes an issue)
  3. Longitude
  4. Latitude
  5. Altitude
  6. Province (optional)
  7. District (optional)

Step 1. Entering administrative areas




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