Abstract:
Spider plant (Gynandropsis gynandra) could be utilized to enhance food and nutrition security,
especially in the rural areas, because it is fast growing during wet seasons with high yield and
doesn't require much input. Although it is consumed by several communities in Kenya,
especially the rural people, there is limited information on the effect of different processing
methods on its nutritional and anti-nutritional properties. The main aim of the study was to
investigate the effect of different processing methods on the nutritional, anti-nutritional and
sensory properties of spider plant. Information from this study has the potential to indicate
which selected processing method (fermentation, boiling and drying) would retain most of the
inherent nutrients, reduce most of the inherent phytochemicals and enhance the sensory
properties of spider plant leaves. Prior to fermentation and drying, blanching was done as a
pre-process treatment, at 90 °C for 5 seconds and thereafter immediate cooling. Boiling was
done at 95 °C for about 5 minutes, fermentation was done by placing whole spider plant leaves
in a mixture of brine and glucose solution of 5% then allowing it to ferment naturally at 40 °C
for 48 hours while drying was done by placing whole leaves on a metallic tray covered with
aluminium foil at 40 °C for 8 hours. Proximate composition, mineral and, P-carotene content
and anti-oxidant activity of the processed spider plant were analysed. Anti-nutritional analysis
involved the determination of phytochemicals (alkaloids, tannins, saponins, terpenes,
flavonoids, steroids, anthraquinones and cyanogenic glycosides). The sensory properties were
determined by measuring the level of acceptability of the inherent food properties. Fresh spider
plant leaves were significantly higher in crude ash, crude protein, crude fat, crude fibre and
calcium than boiled and fermented treatments. Fermented spider plant leaves had significantly
higher iron content compared to boiled and dried leaves. However, dried leaves had
significantly higher amounts of sodium, magnesium and P-carotene and most of the
phytochemicals and consequently the highest antioxidant activity. Therefore, it can be
concluded that drying had better nutritional retention than both boiling and fermentation
processes. The sensory acceptability of the boiled and dried leaves received similar ratings but
higher than that of the fermented spider plant leaves. From the study, it was shown that drying
as a processing technology was the best method since it retained significantly higher amounts
of crude fat, sodium, magnesium, calcium and P-carotene compared to fermentation and boiling
processes.