3 Soil productivitySoil productivit

3 Soil productivity
Soil productivity is largely determined as the capability of the soil to produce certain crop(s) or sequence of crops give certain
Management inputs and measured inputs and measured in crop yields. It reflects the soil quality which is influenced by chemical physical and biological factors (Parr et al 1992).
One advantage of alley cropping over sole crop production is that the presence of hedgerows in alley cropping allows year-round biomass production.
This resulted in much higher in-site annual biomass production per unit land area than with soil cropping (Table 1).
During the dry season when there is no crop the hedgerows still grow significantly as can be seen from the biomass yield at the first pruning of the main cropping season (Table 1).
Gliricidia which has less new growth and more litter fall during the dry season has a lower biomass yield.
Dry-season growth constitutes 32% and 45% of the annual biomass yields of Gliricdia and Leucaena respectively.
Intercepting with Gliricdia and Leucaena increased annual organic matter production per unit area by 4.6 and 5.7 times respectively over the control plot.
This additional organic matter can help sustain crop production on the rainfed uplands.
For example to sustain maize production with no tillage an annual addition of 5.0 t ha -1 of maize stove is required.
Data from the trial reported in Table 1 show that there was insufficient maize stoves to sustain maize yield with no tillage and the addition of hedgerow pruning s was needed to sustain crop productivity.
Mulching and green manuring effects of pruning depend the quantity and quantity of the pruning s added.
Low quality pruning s have long duration mulching effects.
High quality mulches characterized by a low C/N ratio and low lining content decompose readily and have a short- term mulching effect and serve better as green manure (Tian et al 1992).
Application of pruning as mulch is known to
1.protect the surface soil from the impact of raindrops
2.lower surface soil temperature
3.increase soil moisture infiltration and retention
4.improve physical soil properties
5.increase soil microbial and fauna l activities
6.suppress weeds.

An important but little studied aspect of alley cropping/agroforestry is the effect on soil fauna.
Kang et al. (1990) reported higher casting activity by earthworms (Hyperiodrilus africanus) in alley cropped plots than in control (no hedgerowe) plots.
Although casting activities of this earthworm species vary under different woody speies they aer also higher under the hedgerows than in the alleys.
The improvement of soil physical condition with increased earthworm activities combined with the mulchinh effect of the pruning and the physical barrier effect of the hedgerows can contribute toreduce soil erodion and runoff with alley cropping on sloping land (Paningbatan 1990 Kang and Ghuman 1991)
It is well known that the organic matter content of surface soil declines rapidly following foresi clearing and cropping and attains an equilibrium level depending on the cropping system and management