HIGHER PREVALENCE OF AFLATOXINS AND FUMONISINS IN 2021 HARVESTED CORN from Asia
Jog Raj1*, Hunor Farkaš, Svetlana Ćujić, Zdenka Jakovčević and Marko Vasiljević PATENT CO, DOO., Vlade Ćetkovića 1A, 24 211, Mišićevo, Serbia. *Corresponding author: jog.raj@patent-co.com
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In this study, corn samples from different regions of Asia (India, Philippines, Thailand, Taiwan, and Vietnam) were screened for the presence of mycotoxins using LC-MS/MS.
These corn samples (50 per country) were collected by our distributors between September 2021 and May 2022 and sent to PATENT CO DOO for analysis of multiple mycotoxins. They were all analyzed by LC-MS/MS triple
quadrupole (Agilent 6460 series) using a multi-mycotoxin method to quantify all the mycotoxins present, including: Aflatoxin B1 (AFB1), B2, G1, and G2 Ochratoxin A (OTA) Zearalenone (ZEN) Deoxynivalenol (DON) Fumonisin B1 and B2 (FB1 and FB2) T-2 and HT-2 toxins
All of these mycotoxins are regulated in the EU in feed by EU Directives 2002/32/EC, 2006/576/EC, and 2013/165/EU.
The results of this corn survey are presented as follows per country and as a summary for Asia.
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RESULTS OF MYCOTOXIN LEVELS FOR EACH COUNTRY THAILAND In the 2021 harvest, 100% of the corn samples from Thailand were contaminated with 1 or more mycotoxins (Table 1).
ZEN, with an average of 96 ppb, FB1, with 1352 ppb, FB2, with 388 ppb, and AFB1, with 9 ppb, were detected in 2021 harvested corn samples from different regions of Thailand. AFB1, FB1, and FB2 were the most predominant mycotoxins, as they were detected in 100% of samples, followed by ZEN, which was detected in 25% of the tested corn samples.
Table 1. Mycotoxin contamination levels (ppb) in corn samples from Thailand harvested in 2021. AFB1
ZEN
FB1
FB2
Average (ppb)
9
96
1352
388
Maximum of positives (ppb)
16
111
2146
550
Median (ppb)
9
96
1246
329
% of positives
100
25
100
100
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INDIA In the 2021 harvest, 84% of the samples analyzed had 1 or more mycotoxins (Figure 1). Only 16% of the corn samples from India were found to be uncontaminated with mycotoxins.
Figure 1. Number of mycotoxins per corn sample from India harvested in 2021. 16 < LOQ 1 Mycotoxin >1 Mycotoxin
64
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Table 2 summarizes the different mixtures of mycotoxins found in the corn samples and the maximum concentrations present. AFB1, with an average of 56 ppb, AFB2, with 14 ppb, OTA, with 37 ppb, FB1, with 717 ppb, and FB2, with 176 ppb, were detected in 2021 harvested corn samples from different regions of India. FB1 was the most predominant mycotoxin, as it was detected in 65% of the samples, followed by AFB1 (41%) in the tested corn samples. In the Indian corn samples, DON, ZEN, AFG1, AFG2, T-2, and HT-2 were not detected using LC-MS/MS.
Table 2. Mycotoxin contamination levels (ppb) in corn samples from India harvested in 2021. AFB1
AFB2
OTA
FB1
FB2
Average (ppb)
56
14
37
717
176
Maximum of positives (ppb)
774
105
219
5259
1361
Median (ppb)
13
6
15
335
76
% of positives
41
29
21
65
30
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PHILIPPINES In the 2021 harvest, all the corn samples received from the Philippines were contaminated with more than 1 mycotoxin.
AFB1, with an average of 22 ppb, AFB2, with 4 ppb, FB1, with 1042 ppb, and FB2, with 403 ppb, were detected in the 2021 harvested corn samples from the Philippines (Table 3). FB1 was the most predominant mycotoxin, as it was detected in 100% of the tested corn samples, followed by AFB1, which was detected in 86% of the samples.
Table 3. Mycotoxin contamination levels (ppb) in corn samples from Philippines harvested in 2021. AFB1
AFB2
FB1
FB2
Average (ppb)
22
4
1042
403
Maximum of positives (ppb)
152
25
10147
3805
Median (ppb)
8
2
659
200
% of positives
86
67
100
90
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TAIWAN In the 2021 harvest, all the corn samples were contaminated with mycotoxins. Of these, 89% were contaminated with more than 1 mycotoxin and 11% with only one mycotoxin (Figure 2).
Figure 2. Number of mycotoxins per corn sample from Taiwan. 0 11
< LOQ 1 Mycotoxin 89
>1 Mycotoxin
Table 4 summarizes the concentrations of the different mycotoxins found. AFB1, with an average of 11 ppb, AFB2, with 2 ppb, ZEN, with 409 ppb, DON, with 512 ppb, FB1, with 1886 ppb, and FB2, with 704 ppb, were detected in 2021 harvested corn samples from Taiwan. FB1 was the most predominant mycotoxin, as it was detected in 87% of samples, followed by DON in 51% and AFB1, which was detected in 19% of tested corn samples.
Table 4. Mycotoxin contamination levels (ppb) in corn samples from Taiwan harvested in 2021. AFB1
AFB2
ZEN
DON
FB1
FB2
Average (ppb)
11
2
409
512
1886
704
Maximum of positives (ppb)
65
6
2202
6866
12677
5612
Median (ppb)
3
1
106
237
821
310
% of positives
19
9
13
51
87
68
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VIETNAM This year, only 21% of the corn samples from Vietnam were found to be uncontaminated with mycotoxins. 12% of samples were contaminated with 1 mycotoxin and 67% with more than 1 mycotoxin (Figure 3). Overall, 79% of the tested corn samples were contaminated with one or multiple mycotoxins.
Figure 3. Number of mycotoxins per corn sample from Vietnam. 21 < LOQ 12
1 Mycotoxin
67
>1 Mycotoxin
Table 5 summarizes the means and the maximum concentrations found in these samples. Fumonisins were detected in 75% of the corn samples, Aflatoxins in 47%, ZEN in 19%, and DON in 21%. Again, there was a co-occurrence of mycotoxins in the samples from Vietnam. Fumonisins and aflatoxins were the predominant mycotoxins detected.
Table 5. Mycotoxin levels detected (ppb) in corn samples from Vietnam in 2021. AFB1
AFB2
OTA
ZEN
DON
FB1
FB2
Average (ppb)
78
17
37
662
244
800
292
Maximum of positives (ppb)
587
135
37
2109
1087
5110
870
Median (ppb)
8
5
37
477
142
431
218
% Positives
47
26
2
19
21
75
46
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SUMMARY OF MYCOTOXINS DETECTED IN CORN SAMPLES FROM ASIA This year, only 7% of corn samples from Asia (India, Philippines, Thailand, Taiwan, and Vietnam) were found to be uncontaminated with mycotoxins. 13% of samples were contaminated with 1mycotoxin and 80% with more than 1 mycotoxin (Figure 4). Overall, 93% of the tested corn samples were contaminated with one or multiple mycotoxins.
Figure 4. Number of mycotoxins per corn sample from Asia. 7 13 < LOQ 1 Mycotoxin 80
>1 Mycotoxin
Table 6 summarizes the means and the maximum concentrations found in these samples. Fumonisins were detected in 80% of the corn samples, Aflatoxins in 42%, ZEN in 11%, DON in 21 %, and OTA was detected in 4% of the corn samples from Asia. AFB1 with an average of 47 ppb, AFB2, with 10 ppb, OTA, with 37 ppb, ZEN, with 662 ppb, DON, with 244 ppb, FB1, with 800 ppb, and FB2, with an average of 292 ppb, were detected in the 2021 harvested corn samples from different countries of Asia.
Table 6. Mycotoxin levels detected (ppb) in corn samples from Asia (India, Philippines, Thailand, Taiwan, and Vietnam) in 2021. AFB1
AFB2
OTA
ZEN
DON
FB1
FB2
Average (ppb)
47
10
37
662
244
800
292
Maximum of positives (ppb)
774
135
37
2109
1087
5110
870
Median (ppb)
8
3
37
477
142
431
218
% Positives
42
28
4
11
21
80
56
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CONCLUSIONS OF THE MYCOTOXINS SURVEY OF CORN SAMPLES FROM ASIA (INDIA, PHILIPPINES, THAILAND, TAIWAN, AND VIETNAM) On average, 93% of the tested corn samples from different countries of Asia were contaminated with one or multiple mycotoxins. There was co-occurrence of mycotoxins in the corn samples from India, the Philippines, Thailand, Taiwan, and Vietnam. Aflatoxins and Fumonisins were the predominant mycotoxins detected in 2021 harvested corn from India, the Philippines, Thailand, Taiwan, and Vietnam.
Previous surveys have also shown that fumonisins and AFB1 were predominant in Asia.
The co-occurrence of mycotoxins is important as it could lead to additive or, more importantly, synergistic impacts, influencing the growth rate of different animal species. Thus, with the impact of future climate-related environmental changes, mycotoxins will in the future remain very important, with a significant impact on animal health. From this mycotoxin survey for Asia, mycotoxins remain a topic of concern in animal feed and multi-mycotoxin occurrence continues to be a threat.
Constant monitoring and research on the prevention and/ or remediation of mycotoxin contamination is necessary. This requires effective remediation/minimization strategies and regular effective monitoring to reduce impacts in animal feed chains.
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