Natural occurrence of moulds and mycotoxins in Synadenium Glaucescens Extracts (SGE) under different storage conditions
Loading...
Date
2022
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
TAJAS
Abstract
Fungal growth and mycotoxin contamination in value-added medicinal plants products are
quality and safety attributes that negatively affect entry to the market. This research aimed at
investigating the occurrence of spoilage fungi and mycotoxins in Synadenium glaucescens extracts
(SGE) from different plant parts and storage conditions. Laboratory whole water extraction
method was used to prepare SGE from root-wood, root bark, leave, stem-bark and stem-wood.
SGEs were subjected to storage temperature (25°C and 4°C refrigeration) and light (light and
dark) conditions for 21 days. Samples were evaluated weekly to enumerate the occurrence of
spoilage fungi and identified. In a follow-up experiment, pure cultures of Fusarium moniliforme
and Aspergillus flavus were inoculated in SGEs and incubated for 14 days to allow production of
mycotoxins. Aflatoxin and fumonisins were quantified using LC-MS/MS. It was established that
70% of samples of SGE contained Fusarium moniliforme and 60% Rhizopus spp. SGE samples
stored under full light illumination were spoiled by Rhizopus species (35%), F. moniliforme (30%),
F. pallidoroseum (3%), Cladosporium leguminicola (5%), C. sphaerospermum (2%), Alternaria
alternate (6%) and Curvularia lunata (4%). The highest isolation frequency of F. moniliforme
was in SGE from root wood (42%) and stem (42%). The highest (38%) isolation frequency of
Rhizopus sp. was in SGEs from stem wood followed by root bark (32%) and 30% in both stem
and root. Aflatoxin B1 was not detected in any sample. Fumonisin B1 (FB1) was detected in 80%
of the samples and the concentration varied from 0.01μg/Kg to 6.33 μg/Kg. Among the samples
contaminated with FB1, SGEs made from roots were contaminated by FB1 in a range of 0.03 to 0.04
μg/Kg, stem wood from 1.52 to 6.33 μg/Kg while in the root bark varied from 0.01 to 1.83 μg/Kg.
SGE made from stem bark had FB1 ranging from 1.03 to 4.04 μg/Kg. Since fungal contamination
was noted after 21 days of incubation, the source of spoilage fungi could be from the environment
during postharvest handling. Therefore, it can be recommended that SGE safety can be ensured
if good manufacturing practices (GMP) are maintained during preparation. Moreover, the Leaf
SGEs were less vulnerable to fungal growth and fumonisin contamination at room temperature.
Therefore, where the efficacy is the same, the leaf of S. glaucescens is possibly a better source of
SGE formulations. These findings provide a benchmark of future investigations for more innovative
GMP and safety measures to protect consumers against risks of exposure to mycotoxins.
Description
Keywords
Synadenium glaucescens syrup, Fungi, Spoilage, Aflatoxin, Fumonisin