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CH RACT RIZATIO OF SM -
seA CATILE FARMING IN
BOT H 0 N THABANC U
DISTRICTS OFTHE FREE STA E
ROVINCE
by
LIMAKATSO ELIZABETH MOOROSI
Dissertation submitted in partial fulfillment of the requirements for the degree
MAGISTER SCIENTlAE AGRICULTURAE
to the
F.aculty of Agriculture
Department of Animal Science
University of the Orange Free State
Bloemfontein
December 1999
Supervisor: Prof J.P.C. Greyling
Co-Supervisor: Dr L.M.J. Schwalbach
ACKNOWLEDGEMENTS
The author wishes to sincerely express her gratitude and appreciation to the
following persons:
My supervisor, Prof. J.P.C. Greyling, who consistently provided all his
assistance and advice. This would have not been possible without his
inspiration and encouragement.
Dr. L.M.J. Schwalbach, for his enthusiasm and assistance in writing
this dissertation.
Mrs. H. Linde for the competent typing of the manuscript.
To all persons who contributed at some stage during the study.
The National Research Foundation for the financial support to make
this study possible.
My family and parents for their continued support and understanding.
Above all liTHE MIGHTY GOD" who protected me through this study.
II
TABLE OF CONTENTS
Page
ACKNOWLEDGEMENTS
LIST OF TABLES iv
LIST OF FIGURES v
CHAPTER
1. GENERAL INTRODUCTION 1
2. HiSTORICAL BACKGROUND 3
3. LITERATURE REVIEW 8
3.1 POPULATION, FOOD PRODUCTION AND 8
SUSTAINABILlTY IN SUB-SAHARAN AFRICA
3.2 THE ROLE OF LIVESTOCK IN SMALL-SCALE 9
FARMING
I
3.3 LIMITATIONS TO CATTLE PRODUCTION 10
3.3.1 Nutrition 10
3.3.2 Fertility of livestock 13
3.3.3 Land Tenure 16
3.3.4 Climate and cultural environment 16
3.3.5 Animal health 17
3.3.6 Access to credit 19
3.4 CHARACTERIZATION OF SMALL-SCALE LIVESTOCK 19
FARMING IN AFRICA
3.4.1 Markets 21
4. MATERIAL AND METHODS 23
III
5. RESUL TS AND DISCUSSION 28
5.1 HERD SIZE AND STRUCTURE 28
5.2 CATTLE BREEDS IN THE THABA NCHU AND 34
BOTSHABELO AREAS
5.3 CATTLE MANAGEMENT PRACTICES AND 36
PRODUCTIVITY
5.3.1 Pasture/grazing management 36
5.3.2 Reproductive management in Thaba Nchu and 41
Botshabelo
5.3.3 Weaning 46
5.3.4 Milking and milk production 47
5.3.5 Disease control practices 49
5.4 SALES OF CATTLE AND MARKETING .51 .
6. GENERAL CONCLUSIONS AND 53
RECOMMENDATIONS
ABSTRACT 57
OPSOMMING 59
REIFERENCES 61
ANNEXURE1
iv
Table Page
5.1 Herd size per cattle farmer in Thaba Nchu and 28
Botshabelo
5.2 Total cattle herd structure in the Thaba Nchu and 30
Botshabelo areas
5.3 Percentage of farmers farming with different age 31
classes cattle in their herds, for Thaba Nchu and
Botshabelo
5.4 Cattle breed types found in the Thaba Nchu and 35
Botshabelo areas
5.5 Cattle numbers and total large stock units (LSU) in 38
the Thaba Nchu and Botshabelo districts
5.6 The estimated bull to cow ratio in the Thaba Nchu 41
and Botshabelo areas
5.7 Inter-calving periods for cows in the Thaba Nchu and 42
Botshabelo areas
5.8 The estimated calving rates and inter-calving periods 43
in the Thaba Nchu and Botshabelo areas
5.9 Problems relating to gestation, calving and the post 44
natal period
5.10 The ability of cattle farmers in Thaba Nchu and 46
Botshabelo to detect a cow on heat (in oestrus)
5.11 Percentage of farmers milking cows and the mean 47
(±SD) total daily milk production per farmer in the
Thaba Nchu and Botshabelo areas
5.12 Percentage of farmers with frequent cases of disease 49
in their herds
5.13 Application of disease control measures (vaccination 50
and dipping) by cattle farmers in the Thaba Nchu and
Botshabelo areas
5.14 Percentage of farmers selling and buying cattle in the 52
Thaba Nchu and Botshabelo areas
v
usr OF f~GURIES
lFigure Page
4.1 Example of the trusts visited in Thaba Nchu 24
4.2 Sections of the Botshabelo district used for the 26
generating of livestock (cattle) production data
4.3 Sections of the Thaba Nchu district used for the 27
generating of livestock (cattle) production data
1
CHAPTER 1
GENERAL INTRODUCTION
Small-scale cattle production is extremely important for the economies of the
developing countries in general, and to Southern African countries in.
particular. Cattle farming is an important part of the African culture and a way
of capital investment or wealth accumulation, which determines the social
status of the African man. Besides its direct benefits, cattle can sustain the
household by providing meat and milk. The value of livestock and in
particular cattle, in providing rural transportation, draught power for cultivation,
manure for crops and fuel production cannot be underestimated. The ability
of cattle in utilizing non-arable land and agricultural residues and plant by-
products, transforming non-edible plant material into human food, is an
additional advantage over other livestock species which compete with the
human for food. Livestock production also plays a critical role in maintaining
a cash flow to resource poor farmers, who grow crops essentially to provide
food for household use (Sarwatt & Lekuie, 1996).
The multi-disciplinary nature of livestock production and the complex
interaction between the biological, technical and social components involved
in the production cycle and its efficiency requires an integrated farming
systems approach. The efficiency of these systems can be optimized
through the adoption of proven technologies that make optimal use of the
available nutritional, genetic and natural resources and ensure the long-term
sustainability of the systems. The adoption of correct management practices
such as feeding, breeding and disease control amongst others is essential to
achieve these objectives.
Although small-scale cattle production (mainly for subsistence purposes), is
practiced in most of the sub-Saharan region, its productivity is considered to
be very low and in most cases insufficient to ensure food security - and
seldom assures or generates adequate financial returns. Small-scale farming
2
cannot compete with more commercially orientated livestock production
systems (Hofmeyr, 1996).
In the past, the traditional African livestock production systems have not
received adequate attention from amongst others, policy makers regarding
land rights, agricultural extension support services, access to credit and
markets. These constraints have been recognized by the National
Department of Agriculture (1998), which has reported that poverty in the rural
areas of South Africa is associated with poor agricultural policies, which
persistently marginalize small-scale black farmers as their access to
resources such as land, credit and technical knowledge are limited.
The National Department of Agriculture (1998), has committed itself to
address the above mentioned constraints and it is presently reformulating its
policies to correct the discrepancies of the past. It is envisaged to provide full
support to these farmers and help in uplifting their productivity and the well-
being of the rural agricultural communities. Very little is known about the
characteristics of these small-scale farming systems. In order to facilitate the
policy makers to introduce appropriate policies and supporting services to
assist these farmers and to fulfill the present government objectives, research
into this field is needed. This urgent need for more research on small-scale
farming systems, was identified by the National Department of Agriculture
(1998).
The aim of this study was thus to characterize the communal farming systems
in the Thaba Nchu and Botshabelo areas, to evaluate their sustainability,
identify some constraints limiting their productivity and propose some
recommendations to improve the productivity and sustainability of these
farming systems.
3
CHAPTER 2
HISTORICAL BACKGROUND
This study was carried out in the two districts of the Free State province,
which lies in the centre of the sub-continent, stretching from the Vaal to the
Orange Rivers and from the Lesotho border to the border of the Kalahari
desert. The survey was undertaken during 1997/99, and the area covered
was the Thaba Nchu and Botshabelo districts.
The Thaba Nchu district forms part of the 70 km long Bloemfontein-
Botshabelo-Thaba Nchu region, situated in the central Free State, along the
Bloemfontein-Maseru corridor. The total area of the region is 1 274 square
km (Krige, 1998). The region receives a mean annual rainfall of 600mm, but
the variation from year to year is significant and droughts frequently occur.
Temperatures are extreme and the area experiences hot mid-summer
conditions and very cold winters. The combination of erratic rainfall and cold
winters has resulted in a grassland vegetation cover with Themeda Triandra
grass as the predominant specie. Thaba Nchu's surface water comes from
two dams namely, Groothoek and Welbedacht. Generally the clay content of
the soil is too high for acceptable agricultural cultivation (De Villiers, 1998).
In many respects, the Thaba-Nchu district is typical of the mixed arable and
pastoral areas of the southern Highveld region of South Africa. The Thaba-
Nchu district has a distinctive history. Firstly, it was the only district in the
Free State in which Africans held freehold title to land. Secondly, it contained
two of the three small African reserves in the Free State. Thirdly, reduced to
little more than one-third of its original size, it emerged in 1970 as part the of
independent Republic of Bophuthatswana. Thus it became a Tswana enclave
in the heart of a region where the language of power was Afrikaans and the
first language of most of the inhabitants was Sesotho. All these features give
the tale of Thaba-Nchu a peculiar interest and complexity (Murray, 1992).
4
In the 1870's, Thaba-Nchu was comprised of more than 1200 square miles of
valuable arable and pasture land. It adjoined the "conquered territory" taken
by the OFS Republic from the Basotho of Moshoeshoe during the second
Sotho-Boer war of 1865 to 1868. The majority of the inhabitants were
Barolong. The population was then estimated to be between 12000 and
15000, distributed between the town itself and the outlying villages. The
staple diet was sorghum porridge, but the people also cultivated 'maize,
wheat, beans, pumpkin, melons and a variety of sugar cane. Livestock,
mainly cattle, sheep and horses were usually kept in a grazing camp in one of
the outlying parts of the Barolong territory (Murray, 1992).
During the 1950's and 1960's Thaba-Nchu became subject to rigid "top down"
planning, which resulted in the establishment of 40 betterment villages
(trusts). These inhabitants had access to land on a communal basis, as well
as to residential plots through a permission to occupy (PTO) (Krige, 1998).
In 1969 the Thaba-Nchu reserve had 3 irrigation schemes, 10 dams, one co-
operative dairy and a cattle-breeding scheme. The traditional Tswana custom
was to hold land under communal tenure and for the people to live together in
a "stat" or large village. The agricultural lands and cattle posts were situated
some distance from the village. Until quite recently few productive people
were to be found in the villages, besides the very old and the very young,
during the harvesting season. Most of the inhabitants would go to the lands
and live there during the week. Nowadays few of the Thaba-Nchu Tswana
have any land to which they can go. Most had their lands dispossessed in
1965. It was told that if they wished to have land and keep cattle, they had to
move to trust villages, or otherwise go to Selosesha Township, a couple of
miles outside the town of Thaba Nchu. Very few moved into the trust villages
(Murray, 1992).
The trusts (betterment villages) consisted of a group of farmers, who shared
agricultural resources such as water, a crush pen, dipping tanks, and other
available facilities. One of the first trusts was Gladstone, which was
established in the southern part of the Thaba Nchu district in the early 1940's.
5
Early in 1939 a reclamation survey was carried out by local officials to
determine the most appropriate utilization of the land. Restricted stocking
rates were perceived to be a fundamental prerequisite for the rehabilitation of
the reserves. The argument being that the reserves were grossly
overstocked. The genetic quality of stock was poor and would continue to
deteriorate without adequate control of breeding practices. As a result,
livestock became more vulnerable to diseases and unsuitable for draught
purposes (Murray, 1992).
As background, the trust villages varied in size, with 50 to 200 families, and
generally 6 hectares of arable land and sufficient grazing for 10 head of cattle
per family. The inhabitants had to build their own houses and sanitation.
Apart from the inconvenience of having to move and rebuild their houses,
people complained of being allocated less land and thus fewer cattle could be
maintained. Many also expressed the opinion that while there were
agricultural advantages, the main reason for being grouped, was that so the
people could be more easily controlled. However most people eventually'
complied to their fate and moved peacefully. The houses of those who
refused to move, were demolished (Murray, 1992).
The betterment schemes, which involve the re-planning of the reserves and
the settling of people in trust villages, was a genuine attempt to increase the
productivity of the reserves - which were overgrazed and manhandled
agriculturally. Therefore, it could be argued that the resettlement demanded
by these schemes was justified. Provided one accepts that it was just to
allocate 13.7% of the country to the African population (Murray, 1992). .
Thaba-Nchu was reincorporated into the Free State province on the 27 April
1994 (Krige, 1998). Up to 27 April, 1994 the process of land allocation was
administrated in such way that applications were submitted to the tribal
authorities. Land allocation was then transferred to Agricor, where the
Department of Land Allocation issued permission to occupy (PTO) certificates.
Land and stock rights were allocated to all existing rural villages. In the case
of each trust village, the surrounding farming winterland was scientifically
6
evaluated by Agricor to determine the total area suitable for grazing (6 ha per
large stock unit) and for arable land. Grazing land was fenced off into camps,
with boreholes to ensure proper natural resource management. Each year a
stock census was undertaken to ensure that the number of animals did not
exceed the carrying capacity of a particular area. Agricor provided agricultural
extension from the service centres in the form of advice, maintenance of the
infrastructure and the cultivating of lands at a commission of the profit
(Erasmus & Krige, 1998).
OnverwachtlBotshabelo (place of refuge) only 12 km away from Thaba Nchu,
was natural pasture in 1979. In 1986, it was the second largest rural slum in
South Africa (after Soweto). It accommodated 500 000 people in 1989,
increasing from 64 000 people at the end of 1979 (Murray, 1992). Currently it
is the third largest urban area in the province of the Free State, after
Bloemfontein and Welkom. The inhabitants are predominantly South-Sotho,
as most people who had been moved there since 1979, had come from the
northern, central and eastern districts of the Free State (Murray, 1987).
Botshabelo began as a place of refuge for nearly 40 000 "illegal squatters",
living at Kromdraai within Thaba Nchu. It was also planned as a place of
relocation of excess people from Mangaung, the black residential area of
Bloemfontein, and for most people removed from small town locations and
white farms all over the Free State (Murray, 1987). Conditions for the first to
arrive were bleak. Each family was given a 15 X 30 m plot, a tent and food
for 3 days. Onverwacht had not been all that unexpected. The farm itself
and the neighbouring farm Vaalkraal, . had been previously surveyed for
development (Robertson, 1991). This location covered an area of 11400 ha,
originally earmarked for urban development, of which 3972 ha had been
developed, and 1309 ha was still vacant in 1996. Rural Botshabelo had been
earmarked for the settlement of 133 small-scale farmers and a nature reserve
adjacent to the Rustfontein dam (Krige, 1996).
In 1986 it was estimated that 80% of the people were unemployed. One of
the biggest sustainability problems was firewood. All wood within any
7
reasonable distance had long since been utilized. People were using cow-
dung, if available, for fire purposes thus denuding the soil of nutrients, which
would otherwise be returned to it. According to an article in an academic
journal, several categories of people settled in Botshabelo - then called
Onverwacht farm. Among these categories were groups of black people
owning farms in areas designated to white people and others that were
evicted from white farms (Robertson, 1991).
8
CHAPTER 3
LITERATURE REVIEW
3.1 POPULATION, FOOD PRODUCTION AND SUST AINABILlTY IN
SUB-SAHARAN AFRICA
In Sub-Saharan Africa, approximately 70% of the population live in the rural
areas, where crop and animal production are direct sources of food and
provide an income for subsistence (FAO, 1997). Sub-Saharan Africa is
regarded as a food crisis region of the world. In this area food consumption
by an ever increasing population exceeds current food production and supply
(Hofmeyr, 1996). This statement is supported by the FAO (1997), whereby it
is documented that in 1994, 69% of the economically active population in sub-
Saharan Africa were engaged in agriculture, compared to 84% in 1961. Food
security and the sustainable production of animal protein are major problems
in the African continent. In recent years it has become more and more
apparent that, in many areas, this is only possible with hardy adapted animals
(Van Niekerk, 1996). Farm animals can make a direct or an indirect
contribution to human nutrition. Cattle are the primary source of cash income
that pastoralists use to buy grain food. Thus livestock production enhances
the economic viability and sustainability of farming systems (FAO, 1997).
Spio (1997) stated that Africa remains a continent in which per capita food
production continues to decline - yet in terms of natural resources, Africa has
enough land for nutritional self-sufficiency. It is believed that even with the
assumption of low levels of inputs, the combined potential productivity in all
African countries could feed nearly three times the people in need. This
statement is similar to that stated by Beets (1990).
According to the food security index, Mozambique is the 6th most food
insecure country in the world, while Lesotho, Malawi, Swaziland and Tanzania
rank only as medium food secure countries. Botswana, which ranks highly as
an example of economic success amongst developing countries, was the 7th
most food insecure country in 1988 (Van Rooyen, 1997).
9
Abalu as quoted by Fényes (1998), stated the importance of understanding
and tackling the problem of food insecurity in Southern Africa in a broad
context of poverty, inadequate income, lack of access to productive resources
and lack of synchronization between potential supply and effective demand.
Van Rooyen (1989) suggested that in order to solve the above mentioned
limitations, small-scale farmers needs should receive priority from an
economic and political viewpoint, to enable long term efficiency in the South
African agricultural economy.
3.2 THE ROLE OF LIVESTOCK IN SMALL-SCALE FARMING
Small holders rely on the natural resources for their daily livelihood and
because there are few alternatives for a potential source of income, small
holder farming has to be sustainable. Beets (1990) proposed that in order for
sustainability in agriculture to be achieved, production should be based on
systems where there is room for continuous change, leading to marginally
raised productivity that can be sustained indefinitely. This was seen in
Bangladesh, where Hossain et al. (1998) found that the productivity within
some farming systems increased by the adoption of innovations and livestock
productivity increased from 50 to 147%.
In most African countries, livestock production constitutes an important sub-
sector of agriculture. It accounts for about 25% of the value of agricultural
production in developing countries. In Uganda for example, it is estimated
that small holders and pastoralists own over 90% of the cattle (Kalunda,
1996). In Kenya, small holder farmers produce over 75% of the total milk
generated (Lanyasunya et al., 1998). In India 70% of all livestock is owned
by small-scale farmers. In 1990, African meat and milk consumption was
generally lower than in all other regions (Lebbie, 1996). To overcome this
problem the majority of small-scale farmers in Africa have resorted to crop-
livestock integration systems. This is seen in Kenya (Nduibuisi et al., 1998),
Bangladesh (Hossain et al., 1998) and India (Rao, 1998).
10
In India, livestock contributes 8% of GDP of the country and about 26% to the
agricultural economy (Kaushik & Garg, 1998). Livestock production is vital
for subsistence and economic development of sub-Saharan countries. It
provides a supply of essential nutrients throughout the year, is a major source
of government revenue and export earnings, sustains the employment figure
and ensures income to millions of people in the rural areas and contributes
draught power and manure for crop production. This viewpoint is supported
by Rao (1998).
The contribution of the livestock sector of Agriculture to the national
economies of different countries varies a great deal. Coastal countries in
Western and Central Africa show low inputs by livestock production.
Countries with large areas of arid land show relatively high livestock
production inputs e.g. Ethiopia (Jahnke, 1982). This contribution of livestock
to the food production chain and fertilizer (manure), has been emphasized by
several authors (Beets, 1990; FAO, 1997; Micheni, 1998; Nduibuisi ef al.,
1998). In many parts of Africa, cattle are still used for dowry (lobola)
(Madikizela, ef al., 1998). Livestock is mainly used for slaughter during
traditional occasions such as weddings and funerals and may also be seen as
a way of status recognition or as a symbol of wealth (Smalley, 1996; Duvel,
1998; Madikizela, ef al., 1998). In 1990 to 1992 livestock made out 97% of
the total meat consumed in Sub-Saharan Africa (Lebbie, 1996).
3.3 liMITATIONS TO CATTLE PRODUCTION
3.3.1 Nutrition
Environment, particularly level of nutrition, has a profound effect on the
reproduction and production performances of both sheep and cattle, with
subsequent detrimental effects on the efficiency of production (Webb ef al.,
1999). Nutrient supply to livestock is a component of any management
system that needs to be carefully evaluated, controlled and manipulated. The
energy requirements to support follicle growth, ovulation and early pregnancy
are extremely low, compared to the requirements· for maintenance and
production (O'Callaghan & Boland, 1999). Animal nutrition is, and has :
11
always been a serious restriction to the farmer. This is highlighted in smali-
scale farming, where animals are dependent on communal grazing. Beets
(1990) has shown that marginal land quality and potential is an important
constraint in animal production. Most soils are inherently mineral poor and
unstable in the tropics and soil fertility is generally lower than in the temperate
zones, constraining productivity and sustainability of livestock production.
Management of livestock and grazing practices affect subsequent pasture re-
growth. Low production of pastures is usually seen in extensive systems in
which the livestock are left to graze without proper planning (Jahnke, 1982).
The rationale of a fodder bank grazing system, is based on the assumption
that all the fodder needed to support cattle for 12 months of the year under an
extensive grazing condition, are mainly produced during 4 months of the year
(Smit, 1999). Water shortages plus a lack of soil fertility are important
constraints and better management of water utilization can improve animal
nutrition and thus production considerably (Beets, 1990). Water conservation
can be applied through catchment management programmes (Smalley, 1996;
Averbach et al., 1998). Kanaoka et al. (1998) conducted a study whereby
cattle grazed on an improved pasture, shortened the fattening period and
increased the average body weight and daily weight gain compared to
traditionally non-improved pastures.
The management of grazing is very limited in most of the countries in Africa,
and stocking rates and rotational grazing are not practiced (Madikizela et al.,
1998; DOvel, 1998). The role of body reserves during production needs to
be understood. Grazing behaviour and the intake of pasture by the grazing
cow are also critical areas influencing production. Inadequate pasture intake
is considered to be the major factor limiting animal production on pastures
(Dugmore, 1991). Under-nutrition delays puberty in both males and females
and reduces production in these animals. If severe, it even manifests in the
retardation of bone growth (Leonard & Loosli, 1965).
Alternative feeding systems and nutritional supplementation that use little or
no grains and that are environmentally friendly should be explored. In China
12
beef is produced by feeding urea-treated straw and cottonseed cake as
supplements. In Latin America and. Asia, pigs are produced on cassava
tubers, sugar cane tops and juice (Lebbie, 1996). All ruminant production,
irrespective of type, is directly dependent upon an adequate supply of green
feed, usually provided by natural grasslands or irrigated pastures. Primary
production of both is affected by aridity in the natural physical environment
(De Jager, 1996).
Matizha et al. (1995), suggested that supplying protein-rich forage for grazing
animals and fixing atmospheric nitrogen for associated grasses, adapted
tropical forage legumes could cause large increases in animal and forage
production at a cost more affordable to farmers. Natural pastures form the
mayor source of nutrients for beef cattle, but its low nutritive value and poor
carrying capacity during the dry season are major constraints to animals on
communal grazing. Mazorodze et al. (1994) pointed out the beneficial effects
of offering protein supplements to beef cows on pastures during the dry
season. In the trial, cows on range alone and range plus legumes had
significantly lower calving and weaning rates, compared to those on range
plus protein and planted grass pasture plus legume. The findings of this
study are also supported by the work done by Manyuchi et al. (1992).
Due to a lack of grazing area, overstocking and degraded grazing' areas,
considerable reduction in cattle number in small-scale section is necessary,
compared to commercial farming, especially during periods of drought. In
1983 to 1985 drought necessitated a reduction of livestock in the former
Transkei of 21%, Bophuthatswana 26%, Venda 56%, Ciskei 57% and only
1.8% in the then South Africa (Magadlela & Kadzere, 1996). The rangelands
of the Transvaal middle veld are characterized by a drastic decline in nutritive
value during the fall and winter months. This necessitates the extensive use
of protein supplements of planted pastures and fodder crops in livestock
production systems (Rethman & Lindeque, 1996). This on-going decline in
the quality of natural pasture can also be seen in studies by Kimambo et al .:
(1996), Viljoen et al. (1996) and Boyazoglu (1998). Economic efficiency of
any animal production system depends largely on feed efficiency, which is a
13
function of feed consumption and the rate of weight gain (Scholtz & Van der
Westhuizen, 1998).
3.3.2 Fertility of livestock
Throughout Asia and Africa, two systems of livestock farming are recognized
at the village level, namely traditional and improved systems. These systems
depend on climatic as well as socio-economic factors. Long calving intervals
and late age at first calving are among the major problems encountered in
animal production, but the factors responsible for the infertility of the herd
remain obscure. Previous livestock surveys of village herds have not
addressed fertility problems, resulting in many shortcomings on fertility data
(Jainudeen & Salim, 1998).
Reproductive parameters are important when evaluating livestock
management performance in animal production systems. Successful
production results from constant attention to daily events, require more
sensitive and immediate measurements of performance. In most .cases a
combination of failures in many of the independent factors creates the
problems in reproduction that are currently encountered. A large database is
necessary to define, correct and monitor reproductive management
performance. As performance is ultimately determined by the quality of the
labour force, ongoing monitoring for accountability and education is necessary
for success (Klingborg, 1987).
Reproductive performance is the most important factor influencing the
profitability of meat production. Early recalving of the lactating cow is
influenced by several environmental factors, and this should be taken into
account in management practices of the herd. The relative importance of
these factors varies from area to area and is related to climatic factors,
nutritional status of the natural pasture and the type of production system
(Lademann & Schoeman, 1994).
Generally cows do not conceive before an optimal live body weight is attained.
It is an accepted breeding practice that heifers should be bred when a specific
14
body weight is attained at a given age. During periods of nutritional stress,
food reserves in the body are utilized with a high priority to physiological
processes, and this could affect the age at which this target body weight is
reached.
The reproductive performance of the breeding female is probably the single
most important factor influencing herd productivity. This is because all forms
of output depend on the female. It is the determinant of output, which is most
susceptible to improvement, simply by using adequate management
practices, already used by some farmers in the community. The usefulness
of data on reproductive performance lies in the ability to help identify the
causes for poor reproductive performance and hence create opportunities for
improvement (ILCA, 1990).
Pryce et al. (1998) confirmed that calving interval and days to first service in
cattle after calving were longer in first lactating animals, compared to older
animals. Poor fertility is the major culling reason in first and second lactation
animals. Calving interval and days to first service may be longer in heifers
than in cows, as heifers have additional nutritional requirements for growth.
For this reason, some farmers may calf heifers earlier in the season,
lengthening the interval from calving to first service. However, this practice
requires maintenance of an optimum feeding level during the post weaning
period (Lepen et a/., 1993). This statement is supported by Spitzer (1986),
who reiterated that many first calf heifers take longer to return to oestrus
following calving, than do mature cows and fail to rebreed, or breed late
during their second breeding season.
In a small-scale farming system, breeding bulls (although occasionally grazed
separately during the daytime), are maintained with cows all the year round.
Breeding females tend to conceive when the plane of nutrition is increasing
and body condition is improving. Long inter-calving intervals suggest that the
majority of animals do not recover sufficient body condition early enough after
the previous calving, to calve annually. This is possibly in part due to animals
exhibiting lactational anoestrus. There is an apparent reduction in the levels
15
of gonadotrophic hormones and the mechanisms that enhance its sexual
activity in suckling cows. The effect is not seen in animals that are not
suckling. The period of anoestrus is also exaggerated by poor nutrition.
There is evidence that the effect is overcome by improved management,
animal health and nutrition (Roderick et al., 1998).
In order for a cow to conceive and maintain pregnancy, it is imperative that
synchrony is achieved between a number of physiological and managerial
processes. These include a visible manifestation of oestrus (Darwash et al.,
1999). Stewart et al. (1993) quoted the calving percentage of non-dairy cattle
in South Africa to be about 50%. One of the major reasons for this low
calving rate in beef cows, is an extended post partum anoestrus period
exhibited by suckling cows.
Fertility of village herds is inadequately monitored, as organized reproductive
management programmes are lacking. Innovations of new technologies· on
the management of reproduction should be focussed on solving field-oriented
problems that benefit the small-scale farmer. Simple herd reproductive
management programmes in selected village herds may reveal factors
affecting the fertility of cattle in small village herds (Jainudeen & Salim, 1998;
. Sanjabi et al., 1998).
De Groff (1996), suggests that improvement in bull management practices in
the rural setup can substantially reduce breeding costs. It appears that in
many cases producers could easily increase the mating load by half. A bull
to cow ratio of 1:5 is practical and would be a much more efficient utilization of
bull power. According to Lindsay (1996), males in a free ranging system are
expected to mate with many more females. It is stated that attempts to
reduce this low ratio have been frustrated by the lack of fully understanding
the enormous variability in sexual capacity and libido of males of seemingly
similar size and physiological condition.
16
3.3.3 land Tenure
The tradition of communal tenure of the natural resources is almost universal
in the African continent. The limitation on the improvement possibilities
without institutional change remains. Communal land tenure adds the risk
that improvement measures simply promote the existing overgrazing
syndrome. Communal grazing land tenure also prevents an individual from
making an effort. If an individual keeps the cattle off the communal grazing to
conserve valuable species or fodder for use in the dormant season, the
pasture will be grazed by the cattle of other farmers (Jahnke, 1982). In the
African context, the communal grazing rights are based on the natural right to
free and communal grazing and water for their stock on the communal land
available to all grazing animals (Jeppe, 1980).
Demand for land has become urgent in small-scale farming in South Africa.
Arable and pastureland is threatened almost everywhere by residential·
encroachment. Based on the provincial land reform research programme,
67.7% of South Africa's black rural households desire farm land (Marcus et
al., 1996). The available estimates suggest that the developing countries
have not yet used half of their potential land resources, although in Asia the
best land has long been occupied (Beets, 1990). It is therefore important that
land be allocated and utilized to its potential before it is totally occupied by
non-agricultural activities.
3.3.4 Climatic and cultural environment
The seasonal climatic effect on reproductive performance influence herd
management efficiency and management programmes and are becoming
more and more important as tropical, sub-tropical and arid areas of the world
take on an even greater role in feeding the nations.
Thermal stress reduces the grazing time of animals in tropical and sub-tropical
areas (Swanepoel & Hoogenboezem, 1994), as well as the duration of oestrus
and a lower intensity of oestrous behaviour in cows (Thatcher & Collier, 1986) ..
17
Tropical degeneration syndrome in Bos taurus cattle has been first reported
by Bonsma (1980).
Production of beef cattle in the tropics is characteristically low. The problem
is largely environmental, mainly as a result of low quality nutrition during the
dry winter months (Hetzei et al., 1989; James et al., 1992; Webb, et al.,
1999). Knowledge of the vast differences in South African people of various
cultural backgrounds and socio-economic ethnic groups, is necessary when
evaluating farming systems and developing new agricultural technologies.
So for example, apart from being deprived of land and agricultural credit
facilities, black South African farmers were confined to the reserves which
have led to fragmented and unproductive barren lands (Butler et al., 1977).
3.3.5 Animal health
Iambi et al. (1999) stated that most governments no longer have enough
funds, while the availability and quality of veterinary services is rapidly
declining. The private sector in the delivery of animal health services is
gaining increasing recognition, as an alternative to State provision. The
training of small-scale cattle farmers in animal health care is extremely
essential as the Indigenous stock can carry 'a heavy worm burden and look
apparently healthy as a result of host-parasite balance. In fact the disease
charged environment in the rural areas can be held responsible for the low
productivity of local stock to an extent of approximately 50% (Rao, 1998).
Diseased livestock are less productive than healthy animals and lower
production results in a lowered income and thus less animal protein
production (Bruckner, 1995).
The use of home remedies when the cattle are sick has been reported in the
southern part of the Free State Province (Dreyer et al., 1998). The
application of used engine oil as an acaricite and the use of chickens as
predators of cattle ticks are examples of these home remedies. Rocha et al.
(1991) reported that in the southern part of Mozarnblque small-scale cattle
farmers practice tick control by dipping and vaccinating against the common
diseases. These programmes are done free of charge and are supported by
18
local Government. However, the control of internal parasites is not usually
practiced, as it is not financed by Government.
Sieff (1999) reported that in Tanzania, wealthy households are defined by the
number of livestock they own. Therefore farmers from this group spend a
greater portion of their income on animal health practices, as there are more
cattle to care for. These practices include buying dip and worm remedies as
well as vaccines against common diseases.
Environmental issues, many of which ultimately involve animals, are important
in the spectrum of animal health. Soil erosion due to overgrazing and
changes in soil structure and its ability to harbour disease-causing agents
(pathogens) is an issue of concern (Soulsby, 1998).
One of the most important ways in which socio-economic factors influence
disease occurrence, is through national disease control policies and practices.
In much of Africa the public sector has played a dominant role in disease
control, but in many countries of the region, a dramatic decline in government
budgetary allocations of veterinary services has been experienced in recent
years - resulting in deteriorating veterinary infrastructures and the decreasing
ability to effectively deliver disease control programmes (Perry & Mukhebi,
1995).
Krecek et al. (1995) found the distribution of vectors causing diseases in cattle
from commercial farming areas and those in resource poor farming
communities to differ considerably. The commercial beef production sector
has relatively low cattle stocking densities and high standards of pasture
management. On the other hand, the informal sector has a high stocking
density and poor pasture management, with sparse tree cover. The tick can
therefore not survive and is absent from most of the communal lands of the
highveld.
19
3.3.6 Access to credit
Access to credit still remains a major problem to small-scale farmers.
Financial institution's demand for financial security from insecure, resource
poor farmers, remain an obstacle. Most farmers still do not have lease of the
land they occupy and for the financial institution to assist farmers, a lease is
needed. Marcus et al. (1996) stated that the banking sector in South Africa
has little experience in assessing development risk and lack staff to deal with
rural financing at the community level. Spio and Groenewald (1997) stated
that an efficient system of financial intermediaries is essential and sufficient
environment for the growth of the economy and social production is a
necessity. The establishment of rural and community banks may be
supportive to the rural cattle farmers. The access to formal private financial
services available in rural areas of Kwazulu Natal Province, is constrained by
high transaction costs and inadequate collateral and poor debt servicing
capacities (Fenwick & Lyne, 1998).
Spio (1997) stated that access to credit by small-scale farmers has been
constrained by the reluctance of commercial banks to lend to farmers under
customary tenure, where ownership titles cannot be given as collateral for
loans. Coetzee (1998) reported that small-scale farmers made use of
savings rather than credit. It was found that these farmers accessed loans
from the development corporations and the informal markets. Credit
corporate ventures such as village banks, that are organised and owned by
farm members, are seen in the North West Province.
The Government has taken a number of measures to restructure the rural
financial market, with the objective of building a system of financial services
that provides much broader access for all (National Department of Agriculture,
1998).
3.4 CHARACTERIZATION OF SMALL-SCALE LIVESTOCK FARMING
IN AFRICA
Within most of the African region, small-scale farming systems vary little
regarding herd size or herd composition and the economic role of the system
20
in contributing to the country's economy. According to Rocha et al. (1991),
the Mozambican traditional small holder sector makes up 87% of the national
cattle herd. In Uganda it is estimated that the small holders own over 90% of
the cattle (Kalunda, 1996), while in Kenya, small holder farmers contribute to
over 75% of the total milk produced. In India 70% of all livestock is owned by
small-scale farmers. In Ethiopia small-scale farmers produce 90% of the
agricultural outputs (Smalley, 1996). In South Africa the setup is different and
Marcus et al. (1996) stated that the agricultural economy is in the hands of the
commercial farmers. Within the commercial sector, the productive output is
concentrated. 25% of commercial farmers produce more than 80% of the
livestock output. Self-sufficiency indices show that national food self-
sufficiency has been achieved, where livestock production has an index of 98.
Yet household food security levels are shockingly low. An estimated 60% of
the rural population live below the subsistence level (Marcus et al., 1996).
According to Spio (1997), small holdings play a very important role in African
agriculture, both in terms of the number of people involved and the size of the
farms. For example, in Mali, 75% of farms are under 5 'hectare, while in
Kenya 770 000 small holdings ranging in size from about 0.5 hectare to 10
hectare were recorded in 1990. The number of large holdings (>10 hectares)
was only 3175. In 1971,90% of the total population of Kenya lived in rural
areas, of whom 70% lived on small holdings.
Van Rooyen (1989) found that white commercial farmers produced an output
of R1298 per person (R119/ha cultivated), compared to R65 per person
(R34/ha cultivated) for black small-scale farmers. The commercialized white
farming sector generally operates under farm business principles,
encouraging commercial production and is supported by specialized
institutions and organizations such as the Land Bank and Research Institutes.
Small-scale black farmers on the other hand, operate largely outside this
institutional support structure, with restricted access and opportunities.
In South Africa, small-scale is often equated with a backward, non productive,
non-commercial, subsistence agriculture and it is usually associated with the
21
black farmer (Kirsten & Van Zyl, 1998). This is in contrast with the situation in
other parts of the world, especially Africa, where as already mentioned above,
small-scale farming plays an important role towards food security and the
country's economics. Magadlela and Katzare (1996) stated that the
communal areas in South Africa support about 20% of the total cattle
population in the country, while Machethe (1990) suggests that production in
these areas is less than 10% of the total agricultural production in South
Africa. However, evidence illustrates that small-scale farmers in developing
countries are considered to be more efficient, given a level playing field, than
large scale farmers. This has been established empirically in Asia, Latin
America and Africa (Kirsten & Van Zyl, 1998).
Small-scale farming in South Africa can only gain its rightful place in the
country's economy, provided efforts are made to enhance the application of
present policy initiatives such as land reform, strengthening agricultural
research, extension, provision of finances and the management of risk.
Marketing and stimulating international trade, put in place, can eliminate
limitations encountered in small-scale farming systems (National Department
of Agriculture, 1998).
3.4.1 Markets
Bad roads, distance from markets, transport logistics and the high cost of
moving livestock discourage many small-scale farmers from trying to market
products. Instead they tend to produce only what can be consumed and sell
locally (Mwakubo & Maritim, 1998). Productivity of small-scale farming can
only be improved if the systems are partly commercialized. It is thus
necessary to improve the economic environment in which the farmers operate
(Beets, 1990).
Barnes ef al. (1996) reported that constraints concerning agricultural
marketing in Ghana, include lack of feed-back information from marketing
centres to the producer, no price information and lack of support from financial
institutions.
22
Attempts to improve the operational efficiency of livestock have been the
focus of attention of many African livestock development projects and
programmes. This is because there has been a tendency to assume that
lack of infrastructure or institutiona1 support has been the major constraint on
livestock production. Often the provision of additional facilities failed to
improve the efficiency or induce increased production and marketed offtake
(ILGA, 1990).
From this literature review, it can be emphasized that cattle production is and
has always been a very important tool towards food security. It can be seen
that livestock production in the small-scale system has been used for many
reasons in agriculture (food, work, bank and fuel). There are however,
limitations in livestock production and reproduction that are obstacles in the
way of improvement of small-scale farming efficiency. It is also interesting to
note the differences in small-scale farming in Africa, more especially, when
comparing South African small-scale farming with the other parts of Africa. It
shows that South Africa has a long way to go to learn from experiences of
their African counterparts.
23
CHAPTER 4
MATERIAL AND METHODS
This study was executed over a period of 20 months in two districts of
Bloemfontein, namely Thaba Nchu and Botshabelo. These areas although
close to one another (10 to 12 km from one another), showed considerable
differences in agricultural infra-structure.
Thaba Nchu
Thaba Nchu is divided into 40 agricultural villages known as "trusts". In this
study 21 trusts were randomly chosen. Animal health officers from Thaba
Nchu are involved and responsible for the animal health of these trusts.
These animal health officers were then also responsible for introducing the
researchers and research assistants to the herdsmen in these areas. Du'ring
this study it was important to work in close collaboration with these officers.
The herdsmen then organized his men for a traditional gathering ("pitso") in
or.der to introduce the researcher to the whole village. In this way the team
was accepted and allowed to work in the villages.
The visits to the farmers within one village/trust were done by house to house
visits, and the interviews were done on an individual basis and the data
recorded. A questionnaire was presented to each animal farmer or
household.
During the survey 255 cattle owners were visited and interviewed (Figure 4.3).
This personal interview was essential, as data had to be as reliable as
possible and come from a reliable source. The first attempt to interview
farmers in groups was not successful as everyone gave similar answers to the
same question. The numbers of cattle in the trusts visited, ranged from 250
to 300 per trust. The total number of cattle owned by farmers visited was
2694. r-
24
Number of cattle/trust
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25
Botshabelo
The other district studied,' was Botshabelo, which is situated 10 km from
Thaba Nchu. The area is divided into general blocks or sections. In this
setup the farmers elect their own leader and it is through this person that the
researcher can meet with the rest of the farmers. Ten sections were selected
at random and within these blocks 265 farmers were individually interviewed.
These farmers owned a total of 1907 cattle (Figure 4.2).
The questionnaire was designed to determine the farming systems used in
these areas - more especially relating to the animal production (cattle) and
reproduction practices. Information was accumulated of the farrninqsysterns
with the aid of field days whereby farmers were gathered together and all
aspects relating to animal production, discussed.
The questionnaire as such, had 28 questions in total (Annexure 1). The
questions mostly related to the reproductive performance of the cattle and
general animal production practices used. The aim in designing the
questionnaire, was to try and determine the number and types of cattle owned
by the farmers in these areas, and to try find a solution why the animal
systems used were or were not economically and reproductively successful.
Managerial aspects were considered when designing the questionnaire. The
fundamental objectives were to characterize the farming systems used in
these areas and also to determine which reproductive parameters can be
obtained from farmers who keep cattle on communal grazing. The aim of the
survey was also to encourage farmers to improve the production and
reproduction performance of cattle through improved management practices.
26
Figure 4.2 Sections of the Botshalbelo district used for the generating
of livestock (cattle) production data
N
'~.~-_..-_ ... -,
\ [!]
···,\._------- ...
H INFORMAL SETTlEMENTS
100 0 IOOtOO300.tOO ..
27
Figure 4.3 Sections of the Thaba Nchu district used for the generating
of livestock (cattle) production data
.~ '{{,
c.,» l:.(_
~~'(.
/ ..- I·" <,
'~'.
'./ -~ .<....:. ,~" ..
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28
CHAPTER 5
RESULTS AND DISCUSSION
5.1 HERD SiZE AND STRUCTURE
The data of the survey, regarding herd size per cattle farmer in Thaba Nchu
and Botshabelo are presented in Table 5.1. The results show the mean herd
size in Thaba Nchu to be 10.8 cattle, which is significantly higher (p<0.01)
than the mean herd size in Botshabelo of 7.2 animals per cattle farmer. The
majority of the farmers in both areas own between 5 and 10 head of cattle.
About a quarter of the farmers in Thaba Nchu and a third of those from
Botshabelo have less than 5 cattle. Very few farmers have more than 20
head of cattle (8.3% in Thaba Nchu and 1.9% in Botshabelo, respectively).
No farmer owns more than 40 head of cattle in Botsabelo, while in Thaba
Nchu, 3 farmers own 64, 92 and 107 head of cattle respectively.
Table 5.1 Herd size per cattle farmer in Thaba Nchu and Botshabelo
Thaba Nchu Botshabelo
Herd size distribution Numlber of farmers (%) Number of farmers (%)
<5 animals 67 (26.2%) 77 (29.1%)
5-10 animals 101 (39.6%) 152 (57.4%)
11-20 animals 66 (25.9%) 31 (11.6%)
21-50 animals 18(7.1%) 5 (1.9)
> 50 animals 3 (1.2 %) -
Mean herd size ± SO 10.8 ± 11.5 a 7.2 ±A.8b
Total number of farmers 255 265
".D - Mean herd sizes differ significantly (p<O.01)
These results are in agreement with that reported by most authors in similar
small-scale farming systems in Southern Africa. According to Dreyer et al.
(1999), the average number of cattle/farmer was 9.33 in the same districts of
the Free State. In Venda, Nthakheni (1993) found the average herd size to
be 8 cattle/farmer, while in the former Transkei, mean individual herd size was
29
estimated at 6 (Bembridge, 1984). Rocha et al. (1991) in the south of
Mozambique, showed similar results in his survey, with most of the farmers
owning less than 10 head of cattle. These mean herd sizes are however
much lower than those reported by Mtetwa (1982), who found the mean herd
size in Botswana to be 16 cattle per household. Sieff (1999), has also
reported herd sizes in Tanzania, where households have an average of 4.6
cattle/capita.
Murray (1992) reported that the severe drought of 1884 caused a great
decrease in livestock numbers and had a great influence on the herd size of
the small-scale cattle farmers in the Thaba-Nchu area. The same author
reported that thereafter, several resettlements resulted in the establishments
. of trust villages, in smaller and less fertile lands, where the number of
cattle/household was limited by law. These trusts although, intended to
improve farming practices, ended up culling livestock and reallocating arable
lands. This decision economically affected most of the households, who
were still substantially dependent on crop and cattle farming for a livelihood.
As the herd sizes and arable fertile lands decreased, these farmers started
migrating to the urban areas where they could find work in order to support
their families. Nthakheni (1993) postulated that the smaller the herd, the less
. the chances were of selling animal products and making a living out of
livestock farming. It was also recommended that subsistence farmers
acquire a certain minimum number of cattle to satisfy household and social
needs, before indulging in commercial animal production. Tapson (1990),
Swanepoel and De Lange (1993) and Muchena et al., (1997), found herd size
to be a critical factor determining herd production efficiency and supported
these findings. According to the perceptions of cattle farmers in Lebowa on
the number of cattle required to make a living, 10 head of cattle/household
was considered to be insufficient by 92% of the farmers. More than 30 head
of cattle/household were considered to be sufficient by 55% of the local cattle
farmers (Fényes & Groenewald, 1983).
The significant (P<0.01) difference in mean herd size between the districts of
Thaba Nchu and Botshabelo, and the fact that in general, the cattle herds in
30
Thaba Nchu were larger than those in Botshabelo, may be explained by the
historical and socio-economic differences experienced in the two areas as
described in Chapter 2. Thaba Nchu has been established as an agricultural
area for small-scale black farmers for a much longer period of time. Farmers
in this area, have a longer tradition of cattle farming, are more experienced,
have a relatively larger grazing area and better supporting services.
Botshabelo was more recently established and developed from an illegal
squatter camp for unemployed people coming from all over the Free State
Province, from which the majority of people had no agricultural background.
In Botshabelo, there is less and poorer grazing areas available and the
agricultural extension services are non-existent. Farmers have to travel to
Thaba Nchu for agricultural assistance.
Tables 5.2 and 5.3 present the total herd structure and the percentage of
farmers farming with different cattle classes in Thaba Nchu and Botshabelo.
Table 5.2 Total cattle herd! structure in the Thaba Nchu and
Botshabelo areas
Thaba Nchu Botshabelo
Herd Structure (Distribution) Number (%) Number (%)
Old cows (>10 Years) 1316 (48.8 %) 890 (46.7 %)
Young cows (3-10 Years) 32 (1.2 %) 242 (12.7 %)
Heifers (1-2 years) 279 (10.4 %) 146 (7.7 %)
Calves «1 Year) 725 (26.9 %) 461 (24.2 %)
Young Bulls (2-5 Years) 44 (1.6 %) 29 (1.5 %)
Mature bulls (>5Years) 10 (0.4 %) 126 (6.6 %)
Oxen 288 (10.7 %) 13 (0.6 %)
Total number of animals 2694 1907
From the results obtained, it is clear that breeding females make up the
largest group of the total herd in both areas, accounting for 60.4 % and 67.1
% of the total herds in Thaba Nchu and Botshabelo respectively. These herd
structures with a high percentage of breeding females are typical of small-
31
scale pastoralist farming systems, in which the herds are directed towards
reproductive animals and milk producers (Seobi, 1980; Sieff, 1999). Dreyer
et al. (1999) reported that 96.5% of Thaba Nchu and Botshabelo farmers
indicated that milk production was the primary product obtained from their
cattle. Such high percentages of breeding females, have been reported by
several researchers in the Southern African traditional cattle production
systems. Sieff (1999), reported that breeding females compose 70% of the
cattle herds in Tanzania, while in the Southern part of Mozambique, this group
represents 54% of the total herd size (Rocha et al., 1991).
Table 5.3 Percentage of farmers farming with different. age classes
cattle in their herds, for Thaba Nchu and Botshabelo
Thaba Nchu Botshalbelo
Cattle farmers Numlber (%) Number (%)
Old cows (>10 Years) 251 (98.4 %) 264 (99.6 %)
Young cows (3-10 Years) 7 (2.7%) 131 (49.4%)
Heifers (1-2 years) 88 (34.5%) 87 (32.8%)
Calves «1 Year) 218 (85.5%) 233 (87.9%)
Young Bulls (2-5 Years) 44 (17.3%) 91 (34.3%)
Mature bulls (>5Years) 6 (2.4%) 19 (7.2%)
Oxen 108 (42.3%) 11 (4.2%)
Total number of farmers 255 265
The objectives of milk production and reproduction is clearly reflected by the
extremely high percentage of old cows kept in the herds (older than 10 years)
- 70% to 81% of the breeding females were kept by 98.4% to 99.6% of the
farmers in the Thaba Nchu and Botshabelo areas respectively. The same
tendency was reported by Rocha et al. (1991) and Nthakheni (1993), who are
in agreement that small-scale cattle farmers prefer to keep more mature cows
than any other category of animal. These old cows, although less productive,
still produce milk and calves, which the farmers prefer to get from the animal
production system. On the other hand, productivity is not the main issue for
these farmers, as cattle numbers and not necessarily the quality or
32
productivity of the animals reflect the wealth of the traditional small-scale
African farmer (Magadlela & Kadzere, 1996; Gertenbach & Kars, 1999).
The proportion of young cows and heifers, from the total cattle herds (Table
5.2) and the percentage of farmers with young cows and heifers in their herds
(Table 5.3) in both areas studied are very low. This can limit both productive
(milk and weaner calves) and reproduction (calving percentage) rates of these
herds. The low percentage of calves maintained in these herds (26.9% and
24.2% in Thaba Nchu and Botshabelo respectively), confirm the low
reproductive rates of these herds. Furthermore the herd structures,
particularly regarding the female breeding classes, put at risk the long-term
sustainability of these cattle farming systems. A low percentage of calves in
the herds of small-scale traditional cattle farmers have also been reported by
several other researchers (Bembridge, 1984; Rocha et al., 1991; Sieff,
1999).
The herd composition as seen in Table 5.2 and the percentage of farmers with
bulls in their herds as seen in Table 5.3, clearly demonstrate a shortage of
mature bulls in the herds in these areas. The percentage of mature bulls in
total was 0.4% and 6.6% in the Thaba Nchu and Botshabelo areas
respectively, with only 2.4% and 7.2% of the farmers having mature bulls in
their herds. These tendencies are also seen in the studies done by Rocha et
al. (1991) and Sieff (1999), who have reported 6.1% and 3.5% of bulls in
cattle herds respectively. In contrast Nthakheni (1993) reported higher
percentages of bulls for cattle herds in Venda (17.9%), however, even here
infertility problems were still experienced.
The fact that fewer farmers own bulls could be attributed to the communal
grazing practice, which allows bulls of some farmers to run together with the
cows of the whole village. These bulls are usually referred to as "communal
bulls" and many farmers do not see the need of owning their own bulls -
especially if the neighbours owns one. This practice, although economically
justifiable, as bulls are said to be non-productive animals, may put a lot of
strain on the communal bulls. In many cases the bull to cow ratio is not
33
considered. This problem is aggravated by the fact that most of these
communal bulls are usually not tested for fertility and venereal diseases or
vaccinated against common diseases. The low number of bulls and eventual
fertility problems may affect the whole herd without being detected, limiting
total herd productivity.
In Thaba-Nchu, oxen constitute 10.7% of the cattle herd, which is much higher
than the 0.6% for the total herd in Botshabelo. These differences are also
seen in the percentage of farmers with oxen in their herds (42.3% and 4.2% in
Thaba Nchu and Botshabelo, respectively). High percentages of oxen in the
herd structure are indicative of the use of animal traction for ploughing and
transportation of water and agricultural produce (Blench, 1987). Animal
traction constitutes one of the most important reasons for African farmers to
keep and make oxen (castrate males). Several reports in Southern Africa
indicate the positive relationship between number of oxen per farmer, area of
land used for crop farming, total farm income and farming efficiency due to the
characteristic integrated agro-pastoralist small-scale farming systems (Rocha
et al., 1991; Muchena et al., 1997). A possible reason for such a law
percentage of oxen in the herd structure of Botshabelo, may be the fact that
there is very little arable land available for crop production - when compared
to Thaba-Nchu, where farmers still have relative access to arable land.
It can be concluded that the herd sizes and structures from Thaba Nchu and
Botshabelo are in line with most reports for the Southern African region.
However, there are some differences between the two areas that cannot be
ignored. The farming conditions and individual needs of the local cattle
farmers determine these differences. Historical differences, the availability
and access to land for grazing and/or crop farming and technical assistance
may explain some of these differences. The herd structures generally
indicate that milk production and reproduction are the most important goals of
most of these farmers. Some farmers, also own oxen for animal traction.
The herd structures also indicates an overall low productive and reproductive
efficiency and the lack of technical support for farmers to take managerial
decisions, such as culling of animals. These farming systems are mainly
34
focussed at own consumption (milk and meat) or subsistence farming. The
herd structures of both areas are nootwell balanced, which threatens the long-
term sustainability of the system.
5.2 CATTLE BREEDS IN THE THABA NCHU AND BOTSHABELO
AREAS
In the Thaba Nchu area, the data show a high percentage of farmers knowing
the breed type of their animals. It is difficult to talk about pure breeds, as the
general situation is that almost all the cattle found in Thaba Nchu and
Botshabelo are crossbreeds. Therefore "breed type" is used to define the
main genotype of animals farmed in these areas. The main cattle types
found in both areas were identified and cattle farmers were classified
according to the main type of animals in their herds. Table 5.4 represents the
main breed types farmed within both areas and the frequency distribution and
percentage of farmers farming with these breed types.
A vast majority of the farmers in both areas keep dual-purpose animals -
which can be used for milk production under harsh conditions. These
animals form the bulk of the total herds found in both areas. From the herd
structure, there are strong indications that milk production was an important
farming objective. The breed type composition of the cattle herds further
reinforces these indications. Bembridge (1984) also reported a high
tendency for small-scale farmers in Kwazulu Natal to keep dual purpose
animals. Sieff (1999) reported that milk and to a lesser degree beef were the
most important products. It provided a staple food and was an important
source of protein for subsistence farmers in Tanzania.
High percentages of animals of an undefined breed type in both areas
(crossbreeds of several breeds) are those in which indigenous blood makes a
major contribution. Most of these cross-breeding practices are not systematic
done and not supervised.
35
Table 5.4 Cattle breed types found in the Thaba Nchu and Botshabelo
areas
Thaba Nchu Botshabelo
Breed type No. farmers (%) No. farmers (%)
Friesian - 79 (29.8%)
Brown Swiss 73 (28.6%) -
Jersey - 17 (6.4%)
Brown Swiss x Bonsmara 67 (26.3%) 29 (10.9%)
Brown Swiss x Afrikaner 9 (3.5%) 30 (11.3%)
Friesian x Bonsmara 24 (9.4%) -
Afrikaner 17 (6.7%) 30 (11.3%)
Simmental 1 (0.4%) -
Brahman - 19(7.2%)
Hereford - 1 (0.4%)
Bonsmara x Brahaman 11 (4.3%) -
Undefined type (mixed 53 (20.8%) 60 (22.7%)
crossbreeds)
Indigenous breeds are usually referred to as "unknown breeds" by the small-
scale African farmer and it is sad to realize that although Indigenous breeds
form the bulk of the cattle owned by the African people, these farmers
preferred exotic to the Indigenous breeds (Mauie, 1973). Tapson (1990)
reported that throughout the developing world, farmers have placed their
Indigenous cattle populations at risk by the introduction of exotic breeds and
crossbreeding practices. Literature has also demonstrated the resistance
and tolerance of Indigenous cattle breeds to harsh environmental conditions
(Sanjabi & Govindiah, 1998).
Recently it has been realized that the use of crossbred animals with the
introduction of exotic Bos taurus breeds has resulted in poorer reproductive
performances and lower productivity under extensive cattle production
systems and harsh tropical conditions, when compared to the local breeds
(Vilakati, 1990; Ohaliwal et al., 1998). The advantages of using Indigenous
36
breeds to obtain higher and more cost effective productivity in the tropics, is
being realized by researchers and farmers in the third world countries
(Dugmore et al., 1996). As stated by Maule (1973), Bernbridqe et al. (1982)
and Aswathnarayana (1998), an increase in, production through the
introduction of improved Bos taurus breeds is not going to be achieved until
the traditional methods of animal husbandry are modified.
The attitude of small-scale farmers towards animal husbandry and the
management of the cattle will have to change in order to accommodate cattle
improvement schemes. The need has been emphasized to provide better
breeding material to small-scale farmers and to make them more
commercially orientated in the future (Gertenbach & Kars, 1999). Communal
grazing practices make herd management and breeding improvement
schemes difficult to implement, as there is little or no control in the
management and the movement of animals (Mokoena et ai., 1999).
5.3 CATTLE MANAGEMENT PRACTICES AND PRODUCTIVITY
In this section, an attempt is made to characterize and where relevant, to
compare the management practices used by small-scale resource poor
farmers in the Thaba Nchu and Botshabelo districts.
5.3.1 Pasture/grazing management
In both areas, cattle graze all year round on communal land, one large area, '
without any fences. The communal grazing system is a characteristic of
small-scale traditional livestock production systems in Southern Africa '(Ivy,
1991; Smalley, 1996; Kangalawe & Christiansson, 1998). This grazing
system is usually associated with poor-production .and non-commercially
viable cattle farming.
In Thaba Nchu and Botshabelo, mixed herds of cattle, small ruminants and
many times donkeys and horses are taken to the communal grazing area,
where they stay and graze during the day. At night the herds are brought
back to kraals near the farmer's house to prevent stock theft. The same
practice has been reported in these areas by Dreyer et al. (1999). Keeping
37
livestock in kraals at night for security reasons is seen in most rural areas of
South Africa (Marcus, et al., 1996). This practice limits the grazing time of
the animals. Ruminants in the tropics and subtropics have a higher tendency
for grazing, which in turn affects the body condition and the productivity of the
herds (Bonsma, 1980).
Very few farmers in Thaba Nchu, who have arable land and produce crops,
nutritionally supplement their herds for a short period during the dry season,
with crop residues left on the lands after harvesting (mainly maize). This
practice is however less applicable to Botshabelo, where very few farmers
have access to arable land for crop production.
Although it was not the purpose of this study to evaluate the condition of the
veld in both areas, there are evident signs of overgrazing and soil erosion in
both areas. These observations are confirmed by De Villiers (1998) and
Dreyer et al. (1999) from their studies in these areas. The general condition
(body condition) of most of the cattle seen in these areas is poor to very poor.
The carrying capacity of these areas is generally 6 ha per LSU (National
Department of Agriculture, 1998). In order to determine the ratio between the
carrying capacity and the stocking rate of both areas, an estimation of the
equivalent total large stock units (LSU) was made for both areas. These
results are presented in Table 5.5.
According to Dreyer et al. (1999), cattle constitute 50% of the total LSU's in
the livestock farming systems. This means that the total LSU equivalent units
can be estimated at 3940 and 3006 LSU, in the Thaba Nchu and Botshabelo
areas, respectively. Based on these values and on the carrying capacity of
the natural pasture, a total of 23640 ha and 18036 ha of grazing area should
be available in Thaba Nchu and Botshabelo respectively.
38
Talbie 5.5 Cattle numbers and total large stock units (LSU) in the
Thaba Nchu and Botshabelo districts
Thaba Nchu Botsabele
Class of cattle Total Equivalent Total Equivalent
number LSU· number LSU·
Old cows (>10 Years) 1316 1184 890 801
Young cows (3-10 Years) 32 29 242 218
Heifers (1-2 years) 279 167 146 88
Calves « 1 Year) 725 290 461 184
Young Bulls (2-5 Years) 44 57 29 38
Mature bulls (>5Years) 10 13 126 164
Oxen 288 230 13 10
Total 2694 1970 1907 1503
LSU per class of animals determined according to Meissner (1982) and Ivy (1991)
No information on the total communal grazing area is presently available in
Botshabelo, and the last relevant information from Thaba Nchu refers to 1993
(Erasmus & Krige, 1998). Based on this information, the total area of land
available for grazing in the villages of Thaba Nchu, where this study was
conducted, is presumed to be in the region of 34242 ha. Based on the
estimated LSU's, there is no reasons for the widespread signs of overgrazing
and soil erosion found in this study and also reported by De Villiers (1998) and
Dreyer et al. (1999) in these areas. There are a few explanations to possibly
explain these tendencies:
(i) The total LSU equivalents in the area are much higher than the one
estimated in this study. This may be due to a larger contribution of
small ruminants, horses, donkeys and mules than the estimated 50%
(Dreyer et al., 1999).
(ii) The total grazing area presently available is much lower than the area
that was available in 1993. This is due to residential encroachment
and the invasion of grazing areas for other purposes.
39
(iii) The grazing capacity of the natural pasture is much lower than that
recommended (6 ha/LSU). The same carrying capacity is given for
the commercial farming areas, where the natural pasture is better
managed and in a better overall condition.
(iv) A combination of all above mentioned aspects. A higher stocking rate
is used in smaller grazing areas, which are overgrazed, resulting in
veld degradation and soil erosion and thus the lowering of the carrying
capacity of the veld.
The increasing demand for residential land is generating an invasion of the
grazing areas by informal settlements, without proper sanitation. According
to Dreyer et al. (1999), most of the complaints from farmers in Thaba Nchu
and Botshabelo are associated with the urban environment. Livestock and
people co-exist in an overcrowded environment, without clear borders
between farming, cropping and residential areas. The same observations
were made by Marcus, et a/., (1996), who found that arable and grazing land
is threatened almost everywhere in South Africa by residential encroachment.
Land is taken out of productive use in order to accommodate people's
residential needs.
During the evaluation of the veld, a considerable number of plastic bags
amongst other foreign materials such as paper, rubber, pieces of rope, plastic
and tins were seen scattered in the veld. This problem is more evident in
Botshabelo and is due to the proximity of the residential areas to the grazing
areas. These observations are also supported by Dreyer et al. (1999).
These foreign materials and particularly plastic bags cause a considered
number of mortalities amongst ruminant animals in peri-urban areas of the
Free State Province (De Waal, 1998).
When questioned regarding the condition and stocking rate of the .veld, all the
farmers from both areas, recognized the fact that the grazing areas were poor
in quality and quantity and overstocked. Veld fires were also mentioned by
40
many farmers as one of the main reasons for the poor natural pasture
condition, particularly during the dry winter season. Most of the farmers
(100% and 95% from Thaba Nchu and Botshabelo respectively), were aware
of the existence and the need for better veld management practices. It was
suggested that the only possibility to improve veld management was by
individual land ownership, which could allow land to be fenced and allow a
rotational grazing system. This is in agreement with Van Rooyen (1997), who
stated that communal land tenure arrangements do not allow for the security
of land and sustained productive use.
Communal cattle have access to ground dam water, during the rainy season.
During the dry season, cattle receive water in the kraals at night. This water,
coming from boreholes, is considered to be of fairly good quality (De Villiers,
1998), and is kept in tanks, mainly for human consumption. Presently,
livestock and people in these areas are competing for water. This problem is
more evident in the Botshabelo area than in Thaba Nchu.
In conclusion, it can be mentioned that similar to other traditional small-scale
. cattle production systems in Southern Africa, the communal grazing system is
used by the cattle farmers in Thaba Nchu and Botshabelo. The available
information on the total livestock numbers, available grazing areas and the
carrying capacity of the natural pasture are not realistic and should be
reassessed. In general, due to overstocking and poor pasture management
practices, the pasture areas show signs of soil erosion and deterioration of the
natural vegetation. The nutritional condition (body condition) of the animals is
generally very poor. The increasing need of land for residential purposes,
further reduces grazing land and results in higher stocking rates and a faster
veld deterioration. The local cattle" farmers are aware of these problems and
the urgent need for better veld management practices are called for.
However, the communal land tenure system makes it extremely difficult to
adopt better veld management practices. Private land ownership and the
fencing of land is perceived as possible ways to stimulate veld or natural
pasture.
41
5.3.2 Reproductive management in Thaba Nchu and Botshabelo
No cattle farmer in Thaba Nchu and Botshabelo practices a limited breeding
season. Bulls have access to cows, all year round. From the herd
structures it was evident that very few farmers in these areas own mature
bulls (2.4% and 7.2% for farmers in Thaba Nchu and Botshabelo
respectively). The use of "communal bulls", or the fact that bulls from a few
farmers have to breed with cows of the whole village, explains the reason
why, in most of the farmers or herds without bulls, cows still calve relatively
regularly. The percentage of mature bulls from the total herd was 0.4% and
6.6% for Thaba Nchu and Botshabelo respectively. These values indicate
that there is an obvious lack of mature bulls in Thaba Nchu. In Botshabelo,
the total number of mature bulls is much too high for the total number of cows.
However, the fact that only 7.1% of the farmers have bulls, indicate the
uneven distribution of bulls in the individual cattle herds. In both areas, a
considerable number of younger bulls «5 Years old) and heifers are also
present. It can be assumed that a third of these young bulls and a third of the
heifers are old enough to breed. Based on the estimated total number of
bulls and breeding females, the bull to cow ratio is set out in Table 5.6.
Table 5.6 The estimated bull to cow ratio in the Thaba Nchu and
Botshabelo areas
Total number of Total number of . Bull to cow ratio
!breeding bulls breeding females
Thaba Nchu 25 1441 1 : 46
Botshabelo 136 1181 1 : 9
Estimated numbers from the total number of animals In Thaba Nchu and Botshabelo
The bull to cow ratio in Thaba Nchu is extremely low, which is contrary to that
recorded in Botshabelo. In Botshabelo there are far too many bulls than the
number needed to guarantee the conception of the breeding females. Bull to
cow ratios varying between 1:25 to 1:30, are recommended for extensive
cattle breeding systems in South Africa and for bulls tested for fertility
(Crichton, 1992). A small proportion of farmers with bulls and a low bull to
cow ratio was also reported by Rocha et al. (1991) and Sieff (1999) in
42
Mozambique and Tanzania respectively. Nthakheni (1993) reported a high
percentage of bulls in Venda (17.9%). Although there was an excess of bulls
in this region, fertility still remained low.
The reproductive performance of the female herd is a major factor affecting
herd productivity and farmer profitability. The number of animals born
determine the potential number of animals available for weaning, selection,
breeding, milk production and for selling as meat (Lishman, 1992; Lebbie,
1996). Reproduction is 10 times more important than production in
economical terms and has a determinant effect on the profitability of extensive
farming cattle production systems (Bellows & Short, 1994).
In communal cattle farming systems there are no farm records available,
which can be used to estimate the inter-calving period (ICP) in Thaba Nchu
and Botshabelo. The ICP as perceived by the cattle farmers in Thaba Nchu
and Botshabelo based on the results of the questionnaire are presented in
Table 5.7.
Table 5.7 Inter-calving periods for cows in the Thaba Nchu and
Botshabelo areas
Thaba Nchu Botshabelo
lntercalvinq No. of farmers % of farmers No. of farmers % of farmers
period
9-14 months 233 91.4% 261 98.5%
2 years 9 3.5% 4 1.5 %
3 Years 13 5.1% - -
A vast majority of the farmers (>91 %) in both Thaba Nchu and Botshabelo,
when questioned about the inter-calving period of their cows, presented a
period of between 9 and 14 months. Nine months is virtually impossible, and
it can be assumed that these farmers were in fact referring to the period of
gestation. On the other hand, 14 months (420 days) is a more realistic ICP,
which represents an annual calving rate of 84%. However the numbers of
breeding cows and calves present in both areas does not support such a high
43
calving rate (CR).
The estimated CR and ICP, based on the herd structure and on the number of
potential breeding females and the number of calves, are presented in Table
5.8.
Table 5.8 The estimated! calving rates and inter-calving periods in the
Thaba Nchu and Botshabelo areas
Areas Potential Number of Estimated Estimated
breeding calves Calving rate ICP
females (%) (days)
Thaba Nchu 1348 725 54% ·676 days
Botshabelo 1132 461 41% 890 days
According to calving rate and ICP estimations (Figure 5.8), the calving rates
(54% and 41% for Thaba Nchu and Botshabelo respectively) are much lower
than perceived by the local cattle farmers and the intercalving periods (676
and 890 days for Thaba Nchu and Botshabelo respectively), are much langer
than perceived by the farmers. These estimations do not take into
consideration the mortality rates, as no records are available. However, even
if these records were available, it is unlikely that the morality rates could
account for such a high difference in the perceived and estimated ICP and
CR.
The calving rates estimated in this study for Thaba Nchu and Botshabelo, are
in agreement with the results of Dreyer et al., (1999), who have estimated a
calving rate of 45.5% for Thaba Nchu and Botshabelo (combined). These
results are much higher than the 14.9% CR, reported by Nthakheni (1993) in
Venda, and are within the range of most of the available literature on smali-
scale traditional cattle farming systems in Southern Africa. Bembridge (1984)
has reported a CR of between 26 to 53% in the Transkei while Rocha et al.
(1991), reported calving rates of between 49% and 53% in the south of
Mozambique. Bembridge and Tapson (1993) quoted a mean CR of 38.7%
44
and 43.5% for the Transkei and Ciskei respectively, and Sieff (1999) reported
a mean calving rate of 52% in Tanzania.
The low reproductive rates in Thaba Nchu and Botshabelo can be explained
by a combination of management-related factors.
(i) Poor nutritional condition of the animals, due to overstocking of the
natural pastures which show signs of degradation and erosion
(ii) Unbalanced herd structure, particularly with concern to the number of
breeding females, with an extremely high percentage of old cows (>10
Years old)
(iii) A low percentage of farmers with bulls in their herds and an insufficient
number of bulls for the existing number of cows
Regarding gestation, parturition and the early postnatal periods, farmers were
asked 3 questions, as set out in Table 5.9.
Table 5.9 Problems relating to gestation, calving and! the post natal
period
QlUlestion/ Answer Thaba Nchu Botshabelo
Yes No Yes No
Do your cows complete 253 2 260 5
the gestation period? (99.2%) (0.8%) (98.1 %) (1.9%)
Do your cows have 60 195 14 251
calving difficulties? (23.5%) (76.5%) (5.3%) (94.7%)
Do your cows give 252 3 256 9
healthy calves? (98.8%) (1.2%) (96.6%) (3.4%)
According to the results in Table 5.9, it would seem as if there are very few
problems during the gestation period of the cows in both areas and cows
seldom abort. Only a very small percentage of farmers (0.8% and 1.9% in
45
Thaba Nchu and Botshabelo respectively) indicated their cows not to
complete gestation and abort. This suggests that the frequency of abortion in
both areas is very low. Abortions in cattle are mainly caused by under-
nutrition and/or infectious diseases (Rawson, 1986).
With regard to calving difficulties or dystocia, a higher number of farmers from
both areas have experienced calving difficulties with their cows. This
problem seems to be much higher in Thaba Nchu area, than in Botshabelo.
The main causes of calving difficulties are quoted as being (i) too big calves at
birth and/or (ii) too small females at calving, resulting in fetus-maternal
incompatibility. Dystocia is responsible for an increase in newborn mortality
rates, prolonged post partum periods and lowered re-conception rates (Rice &
Morrow, 1986). Proper bull selection for ease of calving and a controlled
mating of post-pubertal heifers are two important management aspects of a
reproductive management program, which could prevent the occurrence of
dystocia to a large extend. Under a communal grazing system on a single
area without fences, it is impossible to efficiently keep the communal bulls
away from the young heifers and to determine which bulls have a higher
tendency towards causing dystocia.
In general, the local cattle farmers have indicated that their cows give healthy
calves. Only a very small percentage of the farmers (1.2% and 3.4 % in
Thaba Nchu and Botshabelo respectively) indicated that they do not have
healthy newborn calves. The mothering ability of the cow, particularly its milk
production and maternal instinct to nurse the calf very soon after birth is a
determinant effect on the survival of the newborn calf.
In order to improve the present reproductive performance of these cattle
herds, the nutritional and the reproductive manag.ement systems must be
improved. With regard to the improvement of reproductive management,
there is a need for more and improved bulls, which should be tested for
fertility, be free from venereal diseases and be known for ease of calving.
The use of more controlled mating systems, where cows detected in oestrus
are taken to a camp and then mated by improved and tested bulls - hand
46
mating, as it has been done successfully in other African countries, is a
possibility (Vilakati, 1990). The use of artificial insemination (AI) can also be
considered at a later stage, when the overall management status has
improved. The use of hand mating and AI can only be implemented if the
farmers are capable of detecting a cow on heat (in oestrus). For this reason,
farmers were questioned about their ability to detect a cow in oestrus. The
results are presented in Table 5.10.
From the results in Table 5.10, it can be seen that almost all the farmers in
Thaba Nchu (98.4%) and the majority of those in Botshabelo (67.2%) are able
to detect a cow in oestrus. Therefore it should be possible to introduce hand
mating or even AI programmes, with the use of improved bull semen in these
areas.
Table 5.10 The ability of cattle farmers in Thaba Nchu and! Botshabelo
to detect a cow 001 heat (in oestrus)
Thaba Nchu Botshabelo
Farmers able to detect heat 262 178
(98.5%) (67.2%)
Farmers not able to detect 4 87
heat (1.5%) (32.8%)
5.3.3 Weaning
There is no available information on weaning rate, as no data is recorded
regarding productive and reproductive performances of the animals. The
farmers in Thaba Nchu and Botshabelo do not wean the calves. The lack of
fences in the communal grazing areas, do not facilitate the separation of the
calves from their mothers. The local farmers report that natural weaning
occurs during summer, but the age at weaning is not known. In the southern
part of Mozambique, Rocha ef al. (1991) reported most of the small-scale
cattle farmers to practice natural weaning and only 8% of farmers weaned the
calves at 10 to 12 months of age. This situation is in agreement with a report
by Nthakheni (1993) in Venda, who also found no weaning rates to be
47
available and no weaning practices in his study. Weaning percentage is a
good measure of productivity in cattle production and a good indicator of
farming efficiency (De Klerk, 1980), and is the major single factor determining
profit in a beef herd (Ferreira, 1971; Groenewald, 1975). Bembridge and
Tapson (1993), reported law weaning percentages (26 to 27%) in the Transkei
and Ciskei, where a high calf mortality rate reduced the calf crop. High
mortality and low weaning rates in addition to low calving rates, have an
extremely high detrimental effect on herd productivity and farming profitability.
5.3.4 Milking and milk production
According to the data presented in Table 5.11, milk production is one of the
main reasons why small-scale farmers in the Thaba Nchu. and Botshabelo
districts keep cattle. This aspect has already been seen in the herd structure
and breed type of animals farmed within these areas .. The high percentage of
mature cows, as well as the high percentage of dual-purpose and crossbreeds
predominantly containing dairy genes, are strong indications that as in most of
the Southern African regions, milk production is a major reason for cattle
farming (Dugmore et al., 1996; Lebbie, 1996; Duvel, 1998; Gertenbach &
Kars, 1999).
Table 5.11 Percentage of farmers milking cows and the mean (±SO)
total daily milk production per farmer in the Thaba NclhUl
and Botshabelo areas
Area Farmers Farmers not Mean total milk
millldng cows milking cows productlon/tarmenday
Thaba NchlUl 241(94.5%) 14 (5.5%) 4.15±1.3a
Botshabelo 256 (96.6%) 9 (3.4%) 3.46 ± 2.7 b
Cl; u Means within the column are significantly different (p<O.01)
Although an overwhelming majority of the farmers in Thaba Nchu and
Botshabelo areas milk their cows once a day (during the early morning, before
the cows go to the commercial grazing area 95.3% and 96.6% respectively),
no farmer sells milk. Milk generated is exclusively for home consumption.
48
These ,results agree with those of Dreyer, et al. (1999), who reported that
96.5% of the farmers in these areas milk their cows mainly for home
consumption and sold surplus milk in a raw state to the neighbours. These
results are also in agreement to those reported by Rocha et al. (1991) in the
Southern part of Mozambique, but are much higher than the 46% of the
farmers quoted in Mashonaland, Zimbabwe and the 60% in Transkei who also
milked their cows (Bembridge, 1984; Perry et al., 1987). Although some
farmers would like to sell their surplus milk, certain constraints, such as
marketing places, transportation and an organized infrastructure such as milk
depots are reported. The same constraints were reported by Machethe
(1990), Rocha et al. (1991), Monde-Gweleta et al. (1997) and Van Rooyen
(1997) in other Southern African regions.
The total daily milk production per farmer in the areas surveyed is generally
quite low. Farmers in Thaba Nchu produce on average a total 4.15 I of
milk/day, which is significantly (P<0.01) higher than the average total
production per farmer of 3.46 I milk/day in the Botshabelo area. The total
daily milk production per farmer, showed great variation (between 1 to 11 I
and 1 to 25 I in Thaba Nchu and Botshabelo, respectively). Farmers were
unable to relate to the individual daily milk production of their animals, as no
records and measurements are taken regarding milk production. The number
of cows milked at any time depends on the domestic daily needs, and in many
cases farmers have to milk several cows to get a few litres of milk. These
findings are in agreement with those of Bessel and Daplyn (1977), Chikaka
and Foote (1978) and Dugmore et al. (1996), who have reported milk
production as low as 0.5 to 1.7 I/cow/day in certain regions.of Southern Africa.
Milk is generally consumed after some acidification, but the drinking of fresh
milk is not uncommon, especially with cooked maize meal for the children
before going to school in the morning. The acidification of milk is very
important to preserve the milk as no cooling facilities are available. The
same habits were reported by Rocha et al. (1991) in the south of
Mozambique.
49
The low milk production in these areas may be due to several factors,
including the poor nutritional status of the animals and the poor reproductive
management, which results in low calving rates arid long inter-calving
intervals. This results in longer lactation periods, with cows being milked in a
lactation phase in which the natural production potential is low. In addition,
the breed types of the animals used, has a low milk production potential.
5.3.5 Disease control practices
With regard to the health status and disease control of cattle, farmers were
questioned regarding the occurrence of disease or sick animals in their herds.
Table 5.12 presents a summary of answers to this question.
Table 5.12 Percentage of farmers with frequent cases of disease in
their herds
Area Yes No
Thaba Nchu 51 (20.0%) 204 (80%)
Botshabelo 150 (56.7%) 115 (43.3%)
A relatively high percentage of the farmers (20% in Thaba Nchu and 56.7% in
Botshabelo), admitted to having frequent cases of disease or sick animals in
their herds. These percentages and particularly the one in Botshabelo is
high. The difference in disease occurrence between the two areas can be
explained by a variety of factors existing in the two areas. Farmers in Thaba
Nchu have access to basic farming infrastructures such as dipping tanks and
crush pens. They are also generally more experienced in farming and have
more access to technical assistance regarding animal health than those
farmers in Botshabelo. In addition the farmers in the Thaba Nchu area make
much more use of disease control measures such as vaccination against
especially Anthrax and Black quarter and dipping against external parasites.
These differences are clearly illustrated in Table·5.13.
The poor adoption of basic disease control measures such as vaccination
against Anthrax and Black quarter and the dipping for external parasites in
50
Botshabelo can be explained by ignorance and the fact that these farmers
have never enjoyed free agricultural extension services in the past. In
addition, there are no basic farming infrastructures such as crush pens or
dipping tanks in this area. The extension activities in Botshabelo started only
recently and the animal health and extension officers visiting this area are still
operating from Thaba Nchu and are faced with transport problems. An
extension office was recently opened in Botshabelo, but due to lack of funds,
is still not operational.
Table 5.13 Application of disease control measures (vaccination and
dipping) by cattle farmers in the Thaba Nchu and
Botshabelo areas
Area Number and percentage of farmers adopting
Vaccination Dipping
Thaba Nchu 243 (95.3%) 246 (96.5%)
Botshabelo 14 (5.3%) 11 (4.2%)
Farmers in Thaba Nchu have enjoyed free extension programmes offered for
many years by AGRICOR. Most of these farmers have realized the
advantages of disease control measures and are still implementing them,
even after the Government stopped the free services. These farmers now
have to buy their own vaccines and dipping remedies. These findings are
supported by Dreyer et al. (1999), who reported similar results regarding the
adoption of disease control measures in these two areas. Neil (1998) has
also reported low acceptance levels of basic livestock veterinary technologies
and disease control measures by small-scale sheep and goat farmers in Qwa
Qwa. These farmers prefer treating sick animals rather than preventing
diseases. Most African extension services have been geared toward solving
problems and have ignored general farm management practices such as
disease prevention (Spio, 1997). Poor adoption of disease control measures
were also reported by many other researchers in Southern Africa
(Mazengera, 1993; Schillhorn Van Veen, 1993). The main reasons for such
low implementation levels of disease control measures are the general lack of
51
funds by most governments and the inability to support and maintain an
efficient operational extension service (Bembridge, 1984; Nthakheni, 1993;
Tambi et al., 1999).
The farmers in Thaba Nchu, who have animal health officers in their area,
believe that there are not enough. Officers still have to travel long distances
to get help when veterinary assistance is needed, and there is no
communication network in the area. At the present moment, there are no
veterinary officers in these two districts. Farmers depend on a limited
number of poor equipped and ill-supported animal health officers. Tambi et
al. (1999) reported that most governments in the African continent no longer
have enough funds and are unable to meet the increasing demands of
farmers. The availability of quality veterinary services is rapidly declining.
All the farmers interviewed referred to the need and importance of an animal
health clinic and a veterinarian in their farming areas. Usually farmers have
no place to go when animals are ill. Most of the farmers apply traditional
herbal remedies when their animals are ill.
The importance of preventive animal health in small-scale cattle farming
'cannot be over emphasized. Bruckner (1995), stated that in Sub-Saharan
Africa, economical losses due to animal diseases average 4 billion rand
annually, which represents approximately one-fourth of the total livestock
production in this region.
5.4 SALES OF CATTLE AND MARKETING
The percentage of farmers selling and buying cattle in Thaba Nchu and
Botshabelo, are presented in Table 5.14. Most of the farmers in Botshabelo,
and all of those in Thaba Nchu mention that cattle (only old cows, bulls and
oxen), are only sold whenever cash is needed. This happens especially
around January every year, when school fees for the children have to be paid.
This "bank" role of cattle farming is seen all over the Southern African region,
where farmers keep cattle as an investment - as cattle are easily converted
into cash (Rocha et al., 1991; Monde-Gweleta et al., 1997; Low & Kamwi,
1998). I.
151 ?J 41 (.93
52
The percentage of farmers selling cattle in Thaba Nchu and Botshabelo are in
line with those reported by Tapson (1990) in Kwazulu Natal, but are much
higher than that reported by Nthakheni (1993) in Venda.
Table 5.14 Percentage of farmers selling and buying cattle on the
Thaba Nchu and Botshabelo areas
Area Total number of Number (percentage) of farmers
farmers Selling Buying
Thaba Nchu 255 255 (100%) 15 (5.9%)
Botshabelo 265 164 (61.9%) 7 (2.6%)
The difference in the proportion of farmers selling cattle in the two areas may
be explained by the differences in the herd sizes. Farmers in Thaba Nchu
have larger herds and are better positioned to sell animals. This is in
agreement with the findings of Nthakheni (1993), who stated that the smaller
the herd size, the less the tendency to sell animals. The price is usually
determined by the condition of the animal, although some farmers complain
that they have to submit to the price offered by the buyer due to limited access
to transport and the outside market. In this case the buyer is usually a stock
speculator or.a butcher. Spio (1997) stated that the poor transport network
complicates marketing and this influence the price of the animals.
Stimulation and support of local initiatives to cater for required agricultural
services such as marketing and transportation is suggested (Van Rooyen,
1989). To a lesser extend, the selling of some cattle is also done within the
community - to anyone in need of animals in the village.
The data presented in Table 5.14 also show that the proportion of farmers
buying cattle, to be very low in both areas. Only 5.9% of the farmers in
Thaba Nchu and 2.6% of those in Botshabelo, reported to buy cattle. The
reasons for this situation may be due to the fact that these farmers have no
money or access to credit to buy more animals. Farmers usually depend on
their existing animals to reproduce and increase the herd size.
53
CHAPTER 6
GENERAL CONCLUSIONS AND RECOMMENDATIONS
It can be concluded that the general characteristics, farming conditions and
management practices of small-scale cattle farming in the Thaba Nchu and
Botshabelo districts of the Free State Province are no different from those
seen in other regions of Southern Africa. There are however some
differences and particularities in the Thaba Nchu and Botshabelo areas, which
are determined by the farming conditions and the historical background of
these two areas. Farmers from Thaba Nchu are in general more experienced
and have a better farming infrastructure. In the past they also had more
access to extension services and technical advice than the farmers from
Botshabelo.
The mean average herd size in Thaba Nchu and Botshabelo is 10.8 and 7.2
animals per farmer, respectively. The vast majority of farmers (65.8% in
Thaba Nchu and and 86.5% in Botshabelo) own less than 10 head of cattle.
The herds are generally poorly balanced with regard to herd structure and are
composed of a relatively large number of old cows, with very few calves and
replacement heifers. Very few farmers own mature bulls (2.4% and 7.2% for
Thaba Nchu and Botshabelo respectively) and the general bull to cow ratio is
very low.
The main reason for small-scale cattle farming in these two areas seems to be
that of milk production. More than 95% of the farmers milk their cows and to
a lesser extent farm for meat production. Both actions almost exclusively for
home consumption. For this reason the majority of the farmers in both areas
keep dual-purpose (milk and meat) crossbred type animals, which can be
used for milk production under harsh nutritional conditions. The total milk
production/farmer/day in these areas is however, generally low (3.46 to 4.15
litres). In these two areas, keeping cattle is also a way to accumulate wealth
or savings, as cattle (mainly old cows and bulls) are sold mainly to pay school
fees and other unforeseen expenses. These objectives are also in
54
agreement with the findings of most of the research work done on other small-
scale cattle farming systems in the Southern African region.
The general management and farming practices used in Thaba Nchu and
Botshabelo, such as communal grazing, uncontrolled breeding and
crossbreeding, with the use of "communal bulls" all year round, natural
weaning, milking and disease control are still done in a traditional and
ineffective manner. Cattle graze during the day on overstocked, poor,
degraded and eroded pastures, with very little nutritional supplementation
(mainly crop residues). Cattle 'are kraaled at night due to stock theft and
receive the minimum, or absolute no health care. These poor farming
practices are reflected by the poor body condition and low productive and
reproductive performance of the animals. A high frequency of calving
difficulties, high calf mortalities and the non-sustainable use of the most
important natural resource (the veld), which is deteriorating rapidly, is also
experienced. Calving rates in Botshabelo and Thaba Nchu are estimated as
being 41% and 54%, and the estimated inter-calving periods being 890 days
and 676 days respectively. The percentage of farmers experiencing cases of
dystocia is extremely high in Botshabelo (23.5%), but acceptable in Thaba
Nchu (5.3%). It was not possible to access the mortality rates, but it seems
to be quite high. There are very few supporting systems in place and
operational - to assist the local small-scale farmers to access modern
technologies, credit and markets. Most of the farmers in Thaba Nchu (>95%)
vaccinate their cattle against Anthrax and Black quarter and dip their cattle
against external parasites, but only 5% of the farmers in Botshabelo vaccinate
and dip their cattle. These differences in the adoption of basic disease
control practices amongst others, explain the difference in the percentage of
farmers with frequent cases of disease in their herds (57% and 20% for the
farmers in Botshabelo and Thaba Nchu respectively). These findings are in
line with reports from other Southern African small-scale cattle production
systems.
The available information on the communal grazing area available for grazing,
the carrying capacity of the natural pasture and the total number of animals
55
from the different livestock species using these communal grazing areas in
Thaba Nchu and Botshabelo, seem to be outdated and need urgent re-
assessment. This information is essential for policy making, for extension
work, planning and implementation. A vast majority of the local small-scale
cattle farmers recognize the need for better veld management practices. It is
perceived that private land ownership, the stopping of the practice of burning
the veld and the fencing of the communal grazing area are basic requirements
to improve veld management and veld condition. The need is also
recognized for more readily access to extension services and veterinarians,
who should be available locally.
Recommendations
In order to improve the productivity and the sustainability of small-scale cattle
production systems in Thaba Nchu and Botshabelo districts, the following
recommendations should be considered:
At policy making level
.:. To review the individual land rights on communal grazing lands, to control
the stocking rate in these areas,
.:. To create mechanisms to give farmers more access to credit,
.:. To force the implementation of already defined extension policies, aiming
at supporting small-scale farmers in Thaba Nchu and Botshabelo,
.:. To create mechanisms for controlling and punishing individuals
responsible for practices that destroy the natural pasture, e.g. such as
burning the veld.
At extension service level
.:. To implement the already existing policies and provide a more efficient
service to small-scale farmers in Thaba Nchu and Botshabelo,
.:. To re-assess the available grazing areas, the carrying capacity of the veld
and the number of animals from different livestock species utilizing the
communal grazing areas in Thaba Nchu and Botshabelo,
56
.:. To promote the implementation of better veld management practices,
through the introduction of fenced camps, correct stocking rates and
rotational grazing,
.:. To introduce grazing demonstration units with correct stocking rates,
where each farmer can take a few animals, learn more about veld
management and understand the advantages of such measures through
improved production and financial returns,
.:. To create basic farming infrastructures in Botshabelo, such as holding
kraals, a scale, etc.,
.:. To promote practical disease control and implement a minimum herd
health package with the basic vaccinations and control of internal and
external parasites at an affordable price for the local farmers,
.:. To introduce improved and fertile bulls which can be used by the local
farmers. When a cow is detected in oestrus, she can be taken to a "bull
camp" for mating and at a later stage a communal artificial insemination
station can be considered,
.:. To promote the use of individual identification for animals and keep basic
reproductive records to assist farmers in culling unproductive animals,
.:. To organize regular auctions for farmers, concentrating the sales during
certain periods of the year when the farmers are in need of money (i.e. to
pay school fees).
At research level
.:. To promote research studies in different areas of the country, aimed at
identifying the farming characteristics, natural resource bases and the
constraints limiting the productivity and sustainability of these livestock
production systems.
57
ABSTRACT
CHARACTERIZATION OF SMALL-SCALE CATTLE FARMING IN
BOTSHABELO AND THABA NCHU DISTRICTS OF THE FREE STATE
PROVINCE
by
Limakatse Elizabeth Moorosi
Supervisor: Prof. J.P.C. Greyling
Co-supervisor: Dr. L.M.J. Schwalbach
Department: Animal Science
University: University of the Orange Free State
Degree: M.Sc. (Agric)
This study was executed in Botshabelo and Thaba Nchu districts, located in
the southern part of the Free State Province. A total of 255 cattle farmers
from Thaba Nchu and 265 cattle farmers from Botshabelo were individually
interviewed and responded to a questionnaire designed to assess the farming
characteristics in both districts. The most important farming or management
practices as well as the productivity and the sustainability of these farming
systems were evaluated and the most important production constraints
identified.
It was found that in general, the purpose for farming, the farming practices,
the productivity and the main constrains which limit cattle production in both
districts are very similar and are in line with most of the other small-scale
cattle farming systems from other regions of Southern Africa. The majority of
the farmers have a small number of animals in their herds «10), generally
dual purpose crossbreed type of cattle (milk and meat). Farmers have an
unbalanced herd structure, orientated mainly for milk production, with a high
58
percentage of mature cows and very few calves and replacement heifers
being kept. Very few farmers have bulls and use is made of "communal
bulls", -:which are insufficient for the number of breeding females. Almost all
farmers milk their cows and use the milk for home consumption - locally they
sell very few animals (usually old cows and bulls), only when they have
financial needs. The keeping of cattle can be seen as a form of capital
investment or saving. Due to poor veld management, overstocking, frequent
veld fires and residential encroachment, the communal grazing areas show
signs of overgrazing, veld deterioration and erosion. There are very few
farming support systems and the general management (nutrition, breeding,
weaning, milking, disease control practices, among others) is very poor, and
are still being done in the traditional and ineffective manner - which limits the
productivity of these farming systems and threatens their long-term
sustainability.
The milk production and the reproductive rates are very low, but comparable
with other traditional small-scale cattle farming systems in the Southern
African region. Available information on these districts, regarding grazing
areas available, carrying capacity of the natural pasture and the number of
animals utilising the veld is outdated and is in need of urgent re-assessment.
This basic information is needed for future extension service intervention.
The majority of the cattle farmers in both districts have recognised the need
for better management practices and suggest that individual land rights and
fencing of the veld are the only possibilities to improve veld management
practices and veld condition. The small-scale farmers have also recognised
the need for more extension services support and veterinary assistance to
make their farming enterprises more efficient.
59
OIPSOMM~NG
KARAKTERISERING VAN KLEINSKAALSE BEESBOERDERY IN
BOTSHABELO EN THABA NCHU DISTRIKTE IN DIE PROVINSIE VAN DIE
VRYSTAAT
deur
Umakatso Elizabeth Moorosi
Studieleier: Prof. J.P.C. Greyling
Mede-studieleier: Dr. L.M.J. Schwalbach
Departement: Veekunde
Universiteit: Universiteit van die Oranje Vrystaat
Graad: M:Sc. (Agric)
Hierdie studie is uitgevoer in die Botshabelo en Thaba Nchu distrikte, geleë in
die suide van die Vrystaat Provinsie. 'n Totaal van 255 beesboere van Thaba
Nchu en 265 beesboere van Botshabelo is individueelonderhoude mee
gevoer, in verband met die boerdery eienskappe en 'n vraelys is voltooi. Die
mees algemene boerdery of bestuurspraktyke sowel as die produktiwiteit en
die volhoubaarheid van die boerderystelsels is geëvalueer om die
belangrikste produksiebelemmerings te identifiseer.
Oor die algemeen is gevind dat die doel van die boerderye, boerderypraktyke,
produktiwiteit en die hoof hindernisse wat beesproduksie in albei distrikte
beperk, baie dieselfde is en in lyn is met meeste ander kleinskaalse
beesboerderystelsels in ander dele van Suidelike Afrika. Die meerderheid
kleinskaalse boere het klein getalle beeste in hul kuddes «10). Oor die
algemeen is dit dan ook 'n dubbeldoel tipe bees (melk en vleis). Boere het 'n
ongebalanseerde kuddestruktuur, gemik hoofsaaklik op melkproduksie, met 'n
hoë persentasie volwasse koeie en baie min kalwers en vervangingsverse.
Min boere het bulle en maak gebruik van "kommunale bulle" - wat
60
onvoldoende is vir die aantal teeldiere. Baie boere melk slegs hul koeie vir
huishoudelike gebruik en verkoop slegs diere (gewoonlik ou koeie en bulle) as
daar 'n finansiële behoefte is. Die aanhou van beeste kan gesien word as 'n
metode van kapitaalinvestering of spaar. As gevolg van swak
weidingbestuur, diere oorbevolking, gereelde veldbrande en residensiële
uitbreiding, toon die kommunale weiding tekens van oorbeweiding, veld
agteruitgang en erosie. Daar is min boerdery ondersteuningsdienste
beskikbaar en die algemene boerderybestuur (voeding, teling, speen,
melking, siektebeheer, ens.) is baie swak en word nog op die tradisionele, .
oneffektiewe manier gedoen - dit beperk die produktiwiteit en dit bedreig die
langtermyn volhoubaarheid.
Melkproduksie en reproduksie prestasies is baie laag, maar vergelykbaar met
ander tradisionele kleinskaalse beesboerderypraktyke in Suidelike Afrika.
Beskikbare inligting oor hierdie distrikte aangaande die weiding beskikbaar,
drakrag van die veld en die aantal diere wat die veld benut is onopgedateer
eh moet hersien word. Hierdie basiese inligting is nodig vir toekomstige
voorligtingsaksies. Die meerderheid beesboere het die nodigheid vir beter
bestuurstelsels aanvaar en stel voor dat individuele grondregte en omheining
van die veld moontlikhede is vir die verbetering van veldbestuurspraktyke en
veldkondisie. Die kleinskaalse boere erken ook die noodsaaklikheid van
meer en beter voorligting en veterinêre bystand ten einde hul
boerderypraktyke meer doeltreffend te maak.
61
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