the first and second planting dates

the first and second planting dates respectively. This was further affirmed by the result obtained in 2010 as the
biomass obtained from the third planting date was the least compared to the first and second planting dates. The
implication is that in 2010 more enabling growth condition must have been available for the first and second
planting; thus at the time of harvest, the advantage of planting one or two weeks earlier led to production of
higher biomass in the first and second planting date. Hence, the variations observed in the biomass production in
2010 can be attributed to different ages of plants at the time of incorporation. In 2010 even though the plant
biomass produced on the third planting date was low, it is comparable to the biomass obtained for the first and
second planting dates in 2009. Relatively higher biomass production by the cowpea variety Oloyin compared to
Drum could be because Oloyin matures early than Drum, thus when used as green manures it reaches its peak
biomass accumulation faster. The fact that similar biomass were harvested irrespective of the planting dates in
2009, while high variability was observed in 2010 can be attributed to the erratic pattern of rains associated with
the early part of the rainy season. Soil moisture stress has been reported to have significantly reduced the growth
of three cowpea cultivars in Nigeria (Babalola, 1980). Delayed planting date, poor stand establishment and
drought have been identified as factors that limit growth of legumes (Sullivan, 2003) .
The significant increase obtained in dry weight of plants on the third planting date at 5 WAP compared with the
dry weight of plants of same age from the first and second planting dates, suggests that a more favourable
conditions for dry matter accumulation was obtained at the third planting. The more likely improved condition
was more moisture availability as the rains become more stable. This however did not translate into higher
biomass production in 2010; this was because plants established earlier had the advantage of additional time to
grow (7-14 days) before they were uprooted for incorporation.
The successful planting of maize one week after incorporation of the green manure in contrast to two weeks
suggested in literatures, could be attributed to the prevalent of relatively high temperature in the tropics.
The significant response of maize plant height at 8 WAP to date of planting of cowpea green manure in 2010
could be attributed to higher dry matter accumulation of the green manure incorporated; the decomposition of
more biomass would have led to the release of more nutrient and better growth of maize, especially for the first
and second planting of green manure. Taller maize plant from Oloyin plot could be attributed to the maturity
date of the cowpea as it matures earlier than Drum and as such attains maximum biomass accumulation earlier
than Drum.
The significant response of leaf chlorophyll of succeeding maize to planting date of green manure can also be
attributed to the fact that early planting of green manure led to the production of more biomass hence release of
more nutrient from the incorporation of such when compared with those planted 2 weeks later. Furthermore,
more atmospheric nitrogen would have been fixed by cowpea planted earlier relative to those planted one or two
weeks later; thus making more nitrogen to be available for the uptake of the succeeding crop leading to
production of leaves with higher chlorophyll content. The amount of nitrogen available from legumes depends
amongst other factors, on the amount of the total biomass produced (Sullivan, 2003).
In the present study, although grain yield and almost all yield components of maize showed no significant
response to either date of planting or variety of preceding cowpea used as green manure, the general trend
observed in which grain yield of succeeding maize was more with early planting of green manure suggest that
early planting of the green manure crop is more advantageous than later planting and that the more moisture
availability as one advances into the rainy season could not compensate for the lost of time when planted a week
or two weeks later. This also suggests that the green manure crop (cowpea) can be planted as from the 10th or
20th of March as done in 2009 and 2010 respectively in this study.
The growth response of maize grown on green manure plots relative to those on control plots in this trial could
be attributed to increased organic matter, nitrogen and possibly other nutrient released from the incorporated
green manure. Whitbread and Lawrence (2006) reported that cowpea green manure has the potential of
contributing up to 80 Kg N ha-1 to subsequent crop. The variations observed between plant heights and canopy
widths of maize in both years could be attributed to both variations in the amount of green manure biomass
incorporated as well as the varieties of cowpea producing the green manure. The relatively better growth of
maize on plots of variety Oloyin could be attributed relatively higher biomass produced by the cowpea variety in
both years. On the other hand, taller plants and wider canopy of plants grown on pd1 and pd2 of Oloyin and pd1
of drum as compared to other treatments and the control (without green manure) could be attributed to more
biomass that were produced and incorporated in the former due to earlier planting. This is because the amount of
nitrogen available from legumes depends amongst other factors, on the amount of the total biomass produced
(Sullivan, 2003).
www.ccsenet.org/jas Journal of Agricultural Science Vol. 4, No. 7; 2012
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The significant increase in grain yield of maize in all the green manure plots relative to the control plots in this
study could be attributed to improved soil conditions in terms of increased soil organic matter, soil nitrogen and
other nutrients due to the addition of green manure. The increase in soil nutrient resulted in the better growth
observed, thus higher dry matter was accumulated during the vegetative stage which was later partitioned into
the cob during the reproductive stage. The better growth condition led to increased cob length, cob girth and
ultimately grain yield of maize in the green manure plots relative to control plots in both years. Maize grain
yields associated with the use of cowpea green manure were reported to have been doubled compared to the
unfertilized control treatments (Whitbread & Lawrence, 2006).Similarly, Gachene et al. (2000) reported that
maize grain yield from certain green manure plots were more than doubled the yield from the unfertilized control
treatments.
The results of the present study also agrees with the report of Oyango et al. (2001) that there is a great potential
in using green manure legumes to sustain maize yields for resou Figure 1. Lc