Informations et ressources scientifiques
sur le développement des zones arides et semi-arides

Accueil du site → Master → Kenya → Tillage practices and draft power requirements for soil moisture conservation of a hard setting soil

University of Nairobi (1995)

Tillage practices and draft power requirements for soil moisture conservation of a hard setting soil

Gitau, AN

Titre : Tillage practices and draft power requirements for soil moisture conservation of a hard setting soil

Auteur : Gitau, AN

Université de soutenance : University of Nairobi

Grade : Master of Science in Agricultural Engineering. 1995

Field experiments were conducted to study the draft power requirement of four tillage operations and their effect on moisture conservation in a Luvisol soil. The experimental sites were located in Iiuni in Machakos District (Kenya), a region with semi-arid type of climate. The experiments were conducted during the short rain season of 1993 and the long rain season of 1994 in Randomized Complete Block experimental design with three and four replications respectively. The treatments were ; deep mouldboard tillage (DTM) to 17 em, shallow mouldboard tillage (STM) to 11 em, deep cultivator tillage (DTC) to 10 em, shallow cultivator tillage (STC) to 7 em and no-till (NT). A pair of oxen provided the draft power. Soil moisture, bulk density, penetration resistance and crop height were monitored throughout the crop growing period of a Maize (Zea Mays) crop. The Maize crop was harvested at the end of the crop growing period so that grain and dry matter yield comparisons could be made. It was found that, the draft power requirement was significantly different (p = 0.05) between the shallow and deep tillage treatments in both experimental seasons. During the short rain season, DTM had the highest draft power requirements of 1.00 kW followed by DTC (0.85 kW), STC (0.78 kW) and STM (0.67 kW). In the long rain season, draft power requirements were highest for DTC (0.96 kW) followed by DTM (0.91 kW), and STC and STM (0.77 kW ) each. Higher draft power requirement for DTM was as a result of the corresponding higher depth of tillage (17 ern). High draft power requirement for DTC was due to the higher depth (10 ern) of tillage and probably higher weight of equipment (39 kg) as compared to 32 kg for the mouldboard plough. Available soil moisture was not significantly different between all treatments from the vegetative to pollination stages of the crop. Changes in bulk density and penetration resistance (before and after tillage) were significantly different (p = 0.001 and p = 0.05) between the mouldboard and cultivator tillage treatments, for the short and long rain seasons respectively. The high surface roughness for the DTM treatment probably increased surface depressional water storage and thus increased the time available for infiltration, therefore more water was stored in the profile. Low available soil moisture for the NT treatment was due to the low surface roughness which led to the development of a dense crust over the entire soil surface resulting in surface runoff water losses. Crop yields were not significantly different (P = 0.05) between all treatments during both seasons. During the short rain season DTM had the highest grain yield (1632 kg/ha) followed by STC (1398 kg/ha), STM (1328 kg/ha), DTC (1319 kg/ha) and NT (1126 kg/ha). DTM had the highest dry matter yield (4974 kg/ha) followed by STM (4435 kg/ha), DTC (4291 kg/ha), STC (4278 kg/ha) and NT (3508 kg/ha). During the long rain season, STC had the highest grain yield of 1320 kg/ha followed by DTM (1234 kg/ha), NT (1119 kg/ha), DTC (1106 kg/ha) and STM (947 kg/ha). Dry matter yield was highest for DTM (3925 kg/ha) followed by STC (3474 kg/ha), NT (2850 kg/ha), DTC (2613 kg/ha) and STM (2499 kg/ha). Overall, deep tillage with the mouldboard should be recommended for the short rain season as the results indicate a higher crop yield. This may also imply that surface roughness is the single most important condition determining moisture availability for crop growth under the conditions of the experiments. The corresponding draft requirements for DTM could probably be lowered if tillage was performed immediately after the long rain season when the soil moisture conditions are favourable. Shallow tillage with the cultivator could also be used in the long rain season without any adverse effects on soil properties and crop yields.


Version intégrale (5,23 Mb)

Page publiée le 19 décembre 2014, mise à jour le 6 mars 2018