Improved solar drying of vitamin A-rich foods by women's groups in the Singida District of Tanzania
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Date
2000
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International Center for Research on Women.
Abstract
The problem of vitamin A deficiency (VAD) in Tanzania was first assessed in the early 1980s using a hospital-based sentinel surveillance system for xeropththalmia (Foster et al. 1986). Community-based surveys conducted in the late 1980s suggested that VAD was a problem of public health significance in Tanzania (Pepping et al. 1988). Data collected by the Tanzania Food and Nutrition Centre (TFNC) suggests that xerophthalmia leads to between 2,000 and 4,000 new cases of blindness every year, so that, at any
one time, as many as 10,000 children are likely to be suffering from nutritional blindness (TFNC
1990). It is further estimated that VAD and xerophthalmia affect about six percent of the Tanzanian population and 98 percent of these are children under six years of age. This means that about one out of every three children under six are affected by the problem. Although vitamin A deficiency has been found in
most agro-ecological zones of Tanzania, subclinical cases of the deficiency are more prevalent in
the drought prone areas of the country due to limited availability and consumption of vitamin Aand provitamin A-rich foods, particularly vegetables and yellow fruits, during the dry season.In Singida, a dry area in central Tanzania, results of several community-based surveys support this relationship. In a survey conducted during the 1991 dry season (October-November), 60 percent of 226 children less than six years old had serum
retinol levels less than 20 micrograms/decilitre (mcg/dl) and 15 percent were severely deficient
(serum levels less than 10 mcg/dl) (Mselle and Temalilwa 1993). A second study conducted
during the rainy season (December) of the same year found that, of 250 children, 35 percent were
vitamin A deficient and three percent were severely affected (Kavishe 1993). A final study
conducted during the rainy season (March-April) in 1993 found a slightly lower prevalence of VAD,
that is, 27 percent of a total of 238 children were VAD with approximately one percent severely
deficient (Mselle and Temalilwa 1993). The government of Tanzania has promoted a range of interventions to reduce vitamin A deficiency. These include information-educationcommunication (IEC) programs to increase
awareness and knowledge of the problem, its causes and solutions; promotion of red palm oil with marketing in the southern highlands; production of vitamin A-rich foods in home gardens; and universal capsule distribution to children less than two years old and to women within four weeks post-partum. Recognizing that a constraint to using food-based interventions in rural areas in Tanzania is the limited supply of vitamin A-rich foods (particularly fruits and vegetables), TFNC, in collaboration with the Ministry of Agriculture, initiated a horticulture pilot project in 1992. The project mobilized community leaders and farmers to establish
vegetable gardens and plant fruit trees in five randomly selected communities in the Ilongero
Division of the Singida Rural District. Indigenous dark green leafy vegetables, such as amaranth,
sweet potato leaves, cowpea leaves, and maimbe, and such fruits as papaya, mango, and guava
were promoted in the production-focused project. Farmers purchased seedlings at a subsidized rate
from nurseries prepared by agricultural extension agents. These agents also provided technical
support in planting, caring for, and harvesting the fruits and vegetables. As a result, there was an
increase in production of the promoted plants, although severe droughts beginning in 1995 and
seasonal water shortages impacted on yields. An equally important effort to provide year-round
sources of vitamin A in Tanzania has been the focus by government and other agencies on
improving preservation techniques for vitamin Arich foods. The most common traditional food
preservation method used in Tanzania is sun drying. Foods are placed on mats or the bare ground, primarily by women, and exposed to direct sunlight. While limited inputs are needed to use this technique (principally, the food source 6
INTERNATIONAL CENTER FOR RESEARCH ON WOMEN
and women’s time), the technique carries high
risks of contamination by dust, birds and other
animals and insects, and it changes the natural
colors of the unprocessed food products, making
it undesirable to some consumers. Further,
traditional drying results in excessive losses of
carotenoids due to the vulnerability to oxidation
that is accelerated by oxygen, ultra violet and
visible light, heavy metals, and high temperatures
(Clydesdale 1991).
To address these issues, improved solar dying
methods have been developed and introduced to
rural communities worldwide. Compared to sun
drying, improved enclosed solar drying provides
high air temperatures and consequential lower
relative humidities leading to improved drying
rates and a lower final moisture content of the
dried crop. As a result, the risk of spoilage
during the drying process and in subsequent
storage is reduced (ILO 1978). Drying in an
enclosed structure has the additional benefit of
providing protection against rain and contamination. All these factors contribute to an improved
and more consistent product quality with
increased market value.
In Tanzania, as in other African countries, women
are generally responsible for food processing
activities. Appropriate technologies have long
been an accepted means to increase women’s
efficiency and productivity, and improve household food security (FAO 1959; Huffman in
Gittinger et al. 1987; ECART 1994). This is critical
given that women can spend on average 15 hours
per day in productive activities (Rutahakana et al.
1991). In this study, the solar dryers have the
potential of increasing efficiency and productivity,
with the additional advantage of increasing
availability of vitamin A-rich food sources. Thus, it
makes sense that the technology be targeted to
women—given their roles as food processors,
caregivers, and income earners—and that other
community members be drawn into the process
to support women in their decisions and actions.
Improved enclosed solar drying was first introduced to the Singida area in 1992 by TFNC in
collaboration with the USAID-supported Vitamin A
Field Support Project (VITAL) (Mgoba et al. 1993;
Linehan 1994). The technology had been tested
in Haiti and the Dominican Republic for drying
mangoes and was found to be generally effective
and acceptable by community members. The
1992 Tanzania project trained local carpenters in
the construction of wooden dryers for community
use. Women group leaders from five communities were invited to view the construction of the
dryers and were trained in preparing foods for
drying and proper drying and storage techniques.
At the end of the training, dryers were donated to
the women (two dryers per community) for
communal use. The women leaders were urged
to train other women in using the new dryers and
constructing more of them.
Two years later, the technology had not diffused
beyond the original communities nor had any
additional dryers been constructed in these
communities. This was attributed to the lack of
individual ownership reducing the incentive to
maintain the communally-operated dryers; the
large size of the dryers making them less amenable for household use and expensive to build
and maintain; and the low level of awareness of
the advantages of the technology over traditional
drying processes. The conclusion was that the
process of introduction limited its eventual
adoption.
Description
Keywords
Tanzania, Vitamin A
Citation
Mulokozi, G., Mselle, L., Mgoba, C., Mugyabuso, J.K.L. and Ndossi, G.D., 2000. Improved solar drying of vitamin A-rich foods by women's groups in the Singida District of Tanzania (Vol. 5). International Center for Research on Women.