2. Materials and methods2.1. Site d

2. Materials and methods
2.1. Site description
The study was conducted in Kadoma, Sanyati district in
Mashonaland West Province of Zimbabwe (18210
S; 29550
E) during
2008/9 and 2009/10 seasons. Kadoma is in Natural Region III at
an elevation of about 1156 m above sea level (masl), receiving a
unimodal annual rainfall of 650e800 mm. The wet months stretch
from November to March and the dry months are April to October.
Semi-intensive mixed farming is generally practiced (Vincent and
Thomas, 1960) where farmers grow crops and rear livestock such
as goats (Capra hircus L.) and cattle (Bos indicus L.). Maize is the
major cereal crop grown in rotation with cotton (Gossypium hirsutum
L.).
The site is a smallholder communal area with resettled farmers
as it was under commercial farming before the agrarian reform in
2000. From 2000 to 2008, these fields were conventionally tilled
using ox-drawn mouldboard ploughs. The soils are dominated by
Chromic Luvisols (FAO, 1998) derived from mafic rocks
(Nyamapfene, 1991). Before setting up the experiment in August
2008, key soil characteristics determined from initial soil samples
indicated mean soil organic carbon of 1.3%; clay content of 24.6%;
silt content of 51.3%; sand content of 24.2% and pH (CaCl2) of 4.3.
Organic carbon was thus relatively high on these soils compared to
other soils of a similar texture but the pH suggests the soils were
acidic.
2.2. Selection of host farmers
A community workshop was conducted in August 2008 to select
sites where trials were to be established. A group of 20 farmers in
the host community were asked to select fields which were known
to have the most intensive termite infestation problems in the area.
The termite infested fields were ranked from the most to the least
infested. After ranking, participants visited each of the highly
ranked infested fields for physical verification taking into consideration
uniformity, slope and visible signs of termite activity such
as termite galleries. The visit resulted in three fields being selected
to host the trials. All the selected fields had a maize crop prior to
trial establishment.
2.3. Treatments
A randomised complete block design experiment with four2.3.1. Land preparation and management
Land preparation under CA was done by digging planting basins
using hoes and applying crop residues in the field before the onset
of the season. Planting basins were prepared between September
and October and application of crop residue cover was done from
late October to early November. Feeding on the mulch by grazing
livestock was prevented from October to May since the livestock
were allowed to graze in designated grazing areas only. The common
practice in communal areas in Zimbabwe is that livestock are
kept out of cropped fields in summer but communally graze freely
on crop residues after harvesting in April or May until the time the
next cropping season starts, usually in October or November.
Planting basins were spaced at 0.90 m inter-row x 0.60 m in-row.
Each basin covered an area of 15 cm  15 cm and was 15 cm
deep. In the CMP treatment, the field was ploughed to a flat seed
bed in November after which planting furrows were opened on the
seeding day after receiving some rain.
Basal fertilizer, Compound D (7% N: 14% P2O5: 7% K) was applied
at a rate of 300 kg ha
1 at planting in furrows and in basins under
CMP and CA treatments respectively. Top dressing was applied at
200 kg ha
1 using Ammonium Nitrate (34.5% N) at four weeks after
crop emergence. Weeding in CA treatments was done manually
using hand hoes and the first weeding was done soon after crop
emergence. Since no herbicides were used in the CA treatments, the
first weeding had higher labour demand compared to CMP due to
greater weed densities. In the CMP treatment, weeding was
partially mechanized with the aid of the ox-drawn plough in between
crop rows followed by the use of hand hoes to remove any
weeds remaining along crop rows. Two to three weeding runs
cutting across all treatments were conducted until harvest time.
2.4. Data collection
Sampling for termites was carried out in February 2009 and
March 2010. A soil monolith measuring 20 cm  20 cm x 30 cm
deep was used for sampling in each plot (Anderson and Ingram,
1993). From the excavated soil samples, termites were handpicked
and stored in 70% alcohol for counting and classification in
the laboratory (Anderson and Ingram, 1993). In this study, the term
‘termite abundance’ refers to the number of termites per square
meter of soil. From the collected termites, a sample was taken and
dominant species were identified using a microscope according to
the presence of teeth, shape and presence of mandibles, and size/
colour of the head.
The number of crops lodged by termites was physically counted
in each plot at harvest. The number of lodged plants was expressedas a percentage of the total number of plants