Peculiarities of Taxonomic Structure of Micromycete Complex in Root Zone of Sunflower in Conditions of Southern Steppe of Ukraine

Q3 Agricultural and Biological Sciences

Helia Pub Date : 2017-12-20 DOI:10.1515/helia-2017-0012

N. Kostyuchenko, V. Lyakh

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引用次数: 4

Abstract

Abstract The taxonomic structure of microscopic fungi complex in root zone of sunflower under its growing in conditions of southern Steppe of Ukraine comparing with natural biocenosis and black vapor has been studied. Soil of background (natural biocenosis, rhizosphere), black vapor (arable layer 0–20 cm) and root zone (rhizosphere) of a sunflower hybrid Zaporozhsky-32 was investigated. Soil samples of sunflower rhizosphere were selected at the stages of 2–4 true leaves (May), flowering (June), head formation (August) and full maturity (October) during 2009–2011. Samples of background soil and black vapor soil were taken in the same terms as the crop. Almost throughout the entire vegetation period, the number of micromycetes in the root zone of sunflower did not differ from the natural biocenosis and black vapor, and only by the end of the vegetation it nearly doubled. Despite almost the same total number of identified genera, there are significant differences in genus composition of micromycetes isolated from background soil and root zone of sunflower. Micromycetes of the genera Botrytis, Cladosporium, Metarrhizium and Rhizopus were typical only for sunflower rhizosphere while micromycetes of the genera Doratomyces and Acremonium were exclusively found in natural biocenosis. In addition, in soil under sunflower the range of the species in Penicillium genus expanded, while the species variety in Aspergillus genus significantly reduced compared to background soil and black vapor. During the growing season, in natural biocenosis genus diversity practically did not change, whereas in root zone of sunflower some fluctuations in number of genera were observed. Based on the Sorensen index, it was found that the micromycete complexes of the background soil and the black vapor were the most similar, where 23 species of fungi were common, while in rhizosphere of sunflower very specific mycocenosis was formed.

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乌克兰南部大草原向日葵根区微菌复合体分类结构的特点

摘要对乌克兰南部大草原向日葵生长条件下根区显微真菌复合体的分类结构进行了研究，并与天然生物瓣和黑蒸汽进行了比较。背景土壤（天然生物群落、根际）、黑蒸汽（耕地0-20层） cm）和根际带（根际）进行了研究。在2009-2011年期间，向日葵根际土壤样本在2-4片真叶（5月）、开花（6月）、结头（8月）和完全成熟（10月）阶段进行了选择。背景土壤和黑色蒸汽土壤的样本与作物相同。几乎在整个植被期，向日葵根区的微孢子虫数量与自然生物群落和黑蒸汽的数量没有差异，只有在植被结束时，它几乎翻了一番。尽管已鉴定的属总数几乎相同，但从向日葵背景土壤和根区分离的微小菌的属组成存在显著差异。Botrytis属、Cladosporium属、Metarrizium属和Rhizopus属的微菌仅在向日葵根际存在，而Doratomyces属和Acremonium属的微霉仅在天然生物中存在。此外，在向日葵下的土壤中，青霉菌属的物种范围扩大，而曲霉属的物种种类与背景土壤和黑蒸汽相比显著减少。在生长季节，在自然生物中，属的多样性实际上没有变化，而在向日葵的根区，观察到属的数量有一些波动。根据Sorensen指数，发现背景土壤和黑蒸汽的微菌复合体最相似，共有23种真菌，而向日葵根际形成了非常特殊的真菌病。

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来源期刊

Helia Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

1.00

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0.00%

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