玉米杂交种中天然产毒真菌和霉菌毒素的发生

Biotehnologija u stocarstvu Pub Date : 1900-01-01 DOI:10.2298/bah2001075k

V. Krnjaja, Violeta Mandić, Z. Bijelić, M. Lukić, T. Petrović, S. Stankovic, M. Nikolić

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引用次数: 6

摘要

本研究的目的是研究玉米杂交种对自然发生的产毒真菌(特别是产毒曲霉和镰刀菌)和真菌毒素(黄曲霉毒素B1 (AFB1)、脱氧雪腐镰刀菌醇(DON)和总伏马毒素B1、B2和B3 (FBs))的敏感性。6个商品玉米杂交种(MAS 34)的籽粒样品。B - fao 300, mas 40。F，是48。L, KWS Konfites和ZP 427 - FAO 400，和MAS 56。A -粮农组织500)在2018年收获时收集。共鉴定出7个真菌属，分别为镰刀菌属(Acremonium)、交替菌属(Alternaria)、表皮菌属(Epicoccum)、镰刀菌属(Fusarium)、黑孢菌属(Nigrospora)、青霉菌属(Penicillium)和根霉属(Rhizopus)。镰刀菌在杂交种MAS 48中发病率较高。L (54.6%)， MAS为56。A(53.3%)，而MAS为40。F (37.3%)， KWS Konfites (28%)， MAS 34。B(22.6%)和zp427(12%)杂交种。在鉴定的镰刀菌种类(谷草镰刀菌、增殖镰刀菌、粘质镰刀菌和黄萎病镰刀菌)中，所有杂交种均存在增殖镰刀菌，分布在9.3% (ZP 427) ~ 30.7% (MAS 48)之间。L)，而F. subglutinans存在于两个杂交种，MAS 40。F(16%)和MAS 56。一个(9.3%)。稻瘟病菌的发病率从0% (KWS Konfites)到9.3% (MAS 34. b)不等，黄萎病菌的发病率从0% (MAS 34. b)不等。B和ZP 427)至21.3% (MAS 48.L)。在样品中，曲霉种类未被确定。玉米杂交种对真菌毒素水平的影响显著。MAS 34。B杂交种AFB1和DON含量显著高于其他杂交种。FBs水平在混合型MAS 34中最高。B (1202 μ g kg-1)和KWS Konfites (88.33 μ g kg-1)中最低。然而，FBs水平在杂交种MAS 34之间没有差异。选B。F和MAS 56。L, 40。F，是48。L, MAS 56。A, KWS Konfites和zp427。在所有杂交玉米中，AFB1、DON和FBs含量均低于欧盟和塞尔维亚共和国未加工玉米立法规定的最高允许水平。2018年的农业生态条件有利于镰刀菌在玉米杂交种上的生长，尤其是产伏马菌素的品种。

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Natural toxigenic fungal and mycotoxin occurrence in maize hybrids

The objective of the present study was to investigate the susceptibility of maize hybrids to the natural occurrence of toxigenic fungal species, in particular toxigenic Aspergillus and Fusarium species, and mycotoxins (aflatoxin B1 (AFB1), deoxynivalenol (DON) and total fumonisins B1, B2 and B3 (FBs)). Grain samples of six commercial maize hybrids (MAS 34.B - FAO 300, MAS 40.F, MAS 48.L, KWS Konfites and ZP 427 - FAO 400, and MAS 56.A - FAO 500) were collected at harvest in 2018. A total of seven fungal genera, Acremonium, Alternaria, Epicoccum, Fusarium, Nigrospora, Penicillium and Rhizopus, were identified of which only species from the genus Fusarium were present on maize grains of all hybrids tested. The incidence of Fusarium spp. was higher in the hybrids MAS 48.L (54.6%), and MAS 56.A (53.3%), compared to MAS 40.F (37.3%), KWS Konfites (28%), MAS 34.B (22.6%) and ZP 427 (12%) hybrids. Among the identified Fusarium species (F. graminearum, F. proliferatum, F. subglutinans and F. verticillioides), F. proliferatum was present in all hybrids, ranging from 9.3% (ZP 427) to 30.7% (MAS 48.L ), whereas F. subglutinans was present in two hybrids, MAS 40.F (16%) and MAS 56.A (9.3%). The incidence of F. graminearum ranged from 0% (KWS Konfites) to 9.3% (MAS 34.B), while the incidence of F. verticillioides ranged from 0% (MAS 34.B and ZP 427) to 21.3% (MAS 48.L). In the samples, Aspergillus species were not identified. The effect of maize hybrids was significant on the level of mycotoxins. MAS 34.B hybrid had a statistically significantly higher levels of AFB1 and DON than other hybrids. The FBs level was the highest in the hybrid MAS 34.B (1202 ?g kg-1) and the lowest in the hybrid KWS Konfites (88.33 ?g kg-1). However, the FBs level did not differ between hybrids MAS 34.B, MAS 40.F, and MAS 56.L, MAS 40.F, MAS 48.L, and MAS 56.A, and KWS Konfites and ZP 427. In all hybrids, AFB1, DON, and FBs levels were below the maximum permissible levels stipulated by the legislation of the European Union and the Republic of Serbia in unprocessed maize. The agro-ecological conditions in 2018 favored the development of Fusarium species on maize grains of the hybrids tested, especially fumonisin producing species.

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Biotehnologija u stocarstvu

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