L. O. Gumbe scite author profile

Modeling stream flow forms a basis upon which policy makers, watershed planners and managers make ap- propriate decisions consistent with sustainable management of land and water resources in the watershed. The aim of this research is to provide a preliminary assessment of the performance of a complex watershed model in predicting stream flow on the Naro Moru river catchment in Ewaso Ng’iro river basin, Kenya. The research involved model input data preparation, model set up and test running, sensitivity analysis and cali- bration of the Soil Water Assessment Tool (SWAT) model. Preliminary evaluation of the model performance involved the use of known quantitative evaluation statistics that included correlation coefficient, Nash Sut- cliffe efficiency (NSE), Deviation Volume (Dv) and a graphical technique for comparing observed and simu- lated flows. Initial model runs yielded poor daily flow simulations compared to monthly simulations. Poor daily simulation was attributed to differences in the timing of observed and simulated hydrographs. The model was calibrated for a three year period followed by a three year validation period based on monthly flows. Calibration results indicated an acceptable, but modest, agreement between observed and simulated monthly stream flows with a correlation coefficient (r) of about 0.7, NSE = 5%, and Dv= 61.7%. After vali- dation, the model performance was satisfactory with the coefficient of determination (R2 ≈ 0.6), Nash-Sut- cliffe efficiency (NSE) of 0.51 and a deviation volume (Dv) value of 24.7%. The modest model performance was associated with input data deficiencies and model limitations. Even then, the results indicate that the model can possibly be adapted to the local conditions in the catchment for which it is being applied but with improvements involving better parameter calibration techniques, and collection of better quality data. Such a study may be used to predict the effect of climate change on river flows as well as the effect of land use changes on the hydrologic response of a catchment

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Agricultural Mechanisation for Modernisation of African Agriculture

Gumbe¹

2020

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An investigation into low‐temperature nitrogen plasma environment effect on the content of polyphenols during withering in madeKenyan tea

Kuloba

Gumbe

Okoth

et al. 2013

Int J of Food Sci Tech

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Summary Low‐temperature nitrogen plasma (LTNP) was used to wither green tea leaf to study its effect on the polyphenol content. Using a dielectric barrier discharge chamber to provide the LTNP environment, green tea leaf was withered at various withering times. Made tea samples indicated that LTNP had an effect on polyphenol content. The highest polyphenol content of 78.56 mg g−1 in made tea was attained in 1 h after which it showed a decreasing trend with increasing retention time. For comparison purposes, green tea leaf was also withered in nonplasma environments. Highest polyphenol content of 133.4 mg g−1 in made tea was attained in a sample withered anaerobically in nitrogen gas at room temperature and atmospheric pressure for 18 h. In another sample, green tea leaf was directly macerated and dried without withering and fermenting and had polyphenol content of 101.91 mg g−1 in made tea. These contents were compared with green tea 4, purple tea and oolong tea that are currently manufactured in Kenya.

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L. O. Gumbe

Influence of soil water on stress–strain behaviour of a compacting soil in semi-arid Kenya

Estimating water infiltration and retention characteristics using a computer program in R

Modelling of Streamflow of a Catchment in Kenya

<i>Agricultural Mechanisation for Modernisation of African Agriculture</i>

An investigation into low‐temperature nitrogen plasma environment effect on the content of polyphenols during withering in madeKenyan tea

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L. O. Gumbe

Influence of soil water on stress–strain behaviour of a compacting soil in semi-arid Kenya

Estimating water infiltration and retention characteristics using a computer program in R

Modelling of Streamflow of a Catchment in Kenya

&lt;i&gt;Agricultural Mechanisation for Modernisation of African Agriculture&lt;/i&gt;

An investigation into low‐temperature nitrogen plasma environment effect on the content of polyphenols during withering in madeKenyan tea

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Resources

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<i>Agricultural Mechanisation for Modernisation of African Agriculture</i>