Enhancing Farmers'Agricultural Productivity Through Improved Field Management Practices in the Central Highlands of Kenya
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Date
2013-03-21
Authors
Ngetich, Kipchirchir Felix
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Abstract
Farmers in central highlands of Kenya have been experiencing declining crop yields
in the recent past. Low water availability caused by low and unreliable rainfall, and
poor water harvesting techniques coupled with low soil fertility are key constraints to
crop production in these regions. To increase crop yields, and reduce production risks,
better use of available rainfall is required. The broad objective of the research was to
enhance farmers' agricultural productivity through improved field management
practices in the central Highlands of Kenya. The research was carried out in Maara,
Meru South both in Tharaka Nithi County and Mbeere South district in Embu County.
The study used both sociological and experimentation approaches. Long term rainfall
and other meteorological data were utilized in the modeling exercise. A socioeconomic
survey was conducted to explore how farmers make crop production
decisions and 'ad~pt their field practices in response to seasonal rainfall distribution
patterns. Tillage and surface management, timing of split nitrogen application and
temporal staggered planting trials were conducted to assess their effect on maize
yields and also to collect data for AquaCrop model parameterization, calibration and
validation. T he field trials were complemented with a runoff study. The rainfall
analysis study established the most probable onset, cessation and the length of
growing season. Rainfall analysis resulted in establishment of spatial rainfall onset
and cessation dates of the study area. Based on farmer's survey, key findings were on
how the farmers adapted and also cope with not only rainfall variability but also
climate variability. From the staggered planting trial results, dry planting led to 28%,
and 37 % higher grain yields in Kiamaogo and Machang'a, respectively, compared to
normal (wet) planting. Hence, it was observed that decision on the planting date,
roughly going along with the start of the rains, is of utmost importance especially in
low potential regions like Mbeere. Tillage methods and surface management study
highlighted the impact of integrated approach in in-situ water conservation. For
instance, even though therewas significant (p=0.05) influence of minimum tillage on
soil water conservation with ift;1e,surface management strategies were more apparent
within a short time and their influence on maize yields was significant. Split
application of 70N proved to be the best application method leading to 18% grain
yield increase compared to single application. The findings also underscored the
potential use of calibrated AquaCrop model with a high degree of reliability; R2= 0.87
to 0.96 for combined observed and estimated grain and stover yields in Machang'a
and Kiamaogo.AquaCrop model was recommended for use in practical management,
strategic planning, and estimation of yield production under varying climatic and
agro-ecological conditions. The runoff study clearly showed that under water limiting
conditions, tied ridging was a very efficient technique in reducing sediment yield by
94% followed by mulching (73.5) compared to conventional practise (Bare surface).
It was observed that conventional tillage accelerates soil loss as signified by high
sediment yields irrespective of the rainfall pattern. The output of this study would be
invaluable to extension service providers, governments, bureaucrats and people in
regional natural resource management groups in planning, designing and evaluating
effective and efficient soil and water conservation strategies at local, regional and
national scales. This would in turn result in positive spin-offs in farmers' adoption of
soil and water conservation practices.