Kiros Meles Ayimut scite author profile

Sesame is an important oil crop for the Ethiopian economy. However, the lack of adequate storage facilities results in significant losses of sesame seeds. This study was designed to compare the effects of storage conditions and the subsequent impact on sesame seed germination, mold growth, and mycotoxin accumulation over the storage period. The efficacy of two hermetic bags (1. Purdue Improved Crop Storage (PICS) bags and 2. Super GrainPro (SGP) bags) was directly compared to sesame storage in polypropylene (PP bags) and Jute bags. Storage conditions (oxygen, carbon dioxide, temperature, moisture content and relative humidity) of samples were analyzed in the laboratory in three replicates. Results showed that the oxygen concentrations dropped to 6.9% (±0.02) in PICS bags and 8.7% (±0.06) in SGP bags at the end of 6 months of storage. In non-hermetic bags Jute and PP), oxygen levels were close to atmospheric levels at 2-, 4-, and 6-month storage periods. In non-hermetic bags throughout storage, the amount of seed infection by mold constantly increased, and seed germination decreased. Sesame seeds stored in hermetic bags had 89.7% (±0.58) to 88.3% (±2.89) germination rates versus 61.67% (±2.08) for non-hermetic storage bags over the 6-month seed storage period. All mycotoxin levels increased over the same storage period, whereas comparative levels were much lower in hermetic bags after six months. Sesame seeds stored in both hermetic bags had the lowest level of tested mycotoxins, and levels among the SGP and PICS bags were not significantly different from one another. This study provides strong evidence indicating that hermetic storage structures such as PICS and SGP significantly affect temperature, humidity, moisture content, CO2 and oxygen levels resulting in the lowering of fungal growth and mycotoxin accumulation and effectively preserving stored sesame without relying on synthetic pesticides in Ethiopia.

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Fungal Infection and Mycotoxins Contamination on Farm-Stored Chickpea in Major Producing Districts of Ethiopia

Alemayehu¹,

Abera²,

Ayimut³

et al. 2023

J Biomed Res Environ Sci

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Crop susceptibility to moisture content, quality of storage facilities in the farm contributes to fungal infections and mycotoxin contamination. Chickpea grain loss in many parts of the world has been due to inadequate and poor storage facilities, post-harvest activities leading to mycotoxins and fungal infections. The current research investigated the prevalence of fungal infection and mycotoxin level in farm chickpea across five major growing districts in Ethiopia. In the current study, fungal infection and mycotoxin concentrations were investigated in two Desi and Kabuli type varieties of samples containing 150 chickpea kernels collected from five districts in Ethiopia. Additionally, moisture content, relative humidity, and temperature were also investigated during sampling. Moisture levels ranged from 13.3 - 22.3% with a mean value of 16.4% across the five districts. There was no significant difference between the two varieties studied. Survey of different storage techniques used by farmers showed that polypropylene bags were most common and accounted for 54.7%, followed by gotta 45.3%. The total fungal infection in chickpea kernels across the sampled districts range 23 - 79%. Infection with Aspergillus genera was predominant, accounting for approximately 44.3% of the total (25 - 62.5%), followed by Penicillium spp. at 34.3% (10.9 - 55.3%) and Fusarium spp. 21.4% (9.6 - 42.3%) as the lowest. A cross the studied districts, chickpea germination ranged from 68.8% to 75.5%. Total aflatoxins levels ranged from 2.5 to 31.1 ppb and a mean of 17.4 ppb. Ochratoxin A concentrations ranged from 4.3 to 35.0 ppb, with a mean value of 10.6 ppb. Fumonisins (18.7%), ranged from 0.2 to 2.9 ppm and Deoxynivalenol (6.7%) ranged from 0.2 to 2.9 ppm. Chickpea samples had a high level of total aflatoxins (ppb), followed by ochratoxin A. Even though, the current co-occurrence of mycotoxins found is at low levels, it may adversely affect the health of regular consumers and the quality of Chickpea. Further investigations should be performed in different regions to help in advising and making decisions to the relevant government institutions on the appropriate measures to be undertaken.

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Kiros Meles Ayimut

Determinants for adoption decision of small scale biogas technology by rural households in Tigray, Ethiopia

Evaluating different hermetic storage technologies to arrest mold growth, prevent mycotoxin accumulation and preserve germination quality of stored chickpea in Ethiopia

Effects of Storage Duration and Structures on Sesame Seed Germination, Mold Growth, and Mycotoxin Accumulation

Fungal Infection and Mycotoxins Contamination on Farm-Stored Chickpea in Major Producing Districts of Ethiopia

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