Citrus crop water requirements in northern Zimbabwe: significance of the whole season irrigation calendar
This study, carried out at Mazowe Citrus Estate, was aimed at developing drip irrigation guidelines for citrus in northern Zimbabwe in the form of irrigation calendars throughout the season. In order to achieve this, an automatic weather station was used to obtain the average ETo values for the st...
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| Main Authors: | , , , |
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| Format: | Article |
| Language: | English |
| Published: |
Midlands State University
2014
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| Subjects: | |
| Online Access: | http://hdl.handle.net/11408/461 |
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| Summary: | This study, carried out at Mazowe Citrus Estate, was aimed at developing drip irrigation guidelines
for citrus in northern Zimbabwe in the form of irrigation calendars throughout the season. In order to
achieve this, an automatic weather station was used to obtain the average ETo values for the study site
which were derived from micro climatic data. The ETo trend for the study site was established from the
FAO Penman Monteith equation using observed and historical climatic data. BUDGET (version 6.2),
a soil water balance model was used to develop irrigation calendars using a fixed irrigation interval of
one day. The irrigation calendars presents irrigation depths linked to the actual weather conditions
throughout the season. The model was also used to simulate the soil water status after using the irrigation
guidelines. The developed irrigation guidelines were compared with the grower's scheduling practise.
There is a possibility that the grower was over irrigating based on simulated soil moisture conditions
usually above the field capacity. High drainage losses of up to 1964 mm for the whole season were
simulated compared to 381 mm for the irrigation scheduling guidelines. The grower s irrigation
depths were found to be too high and therefore not compatible with a 1 day irrigation interval. Almost
a third of the current irrigation depth was required under normal weather conditions. The excessive
application of water might be associated with high drainage losses. Irrigation depth was reduced after
considering the developed irrigation calendars. Taking into account the atmosphere's evaporative
demand (the actual weather condition of the day) is an effective way of irrigation scheduling. |
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