Fungal Frequency and Diversity in the Nests of Wetland Birds from Poland: Relationships between Birds, Nest Properties and Inhabiting Fungi

IF 0.5 4区农林科学 Q4 AGRICULTURE, DAIRY & ANIMAL SCIENCE

Avian Biology Research Pub Date : 2018-10-01 DOI:10.3184/175815618X15360537405342

T. Korniłłowicz-Kowalska, I. Kitowski, J. Bohacz, E. Kwiatkowska

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引用次数: 5

Abstract

Avian nests are a unique and sometimes extreme environment in which fungi occur. In this study, a correlation was recorded between the breeding biology and ecology of wetland birds and the biology and ecology of fungi in nests of wetland birds. The abundance of ecophysiologically diversified fungi, i.e. saprotrophs, cellulolytic fungi, and potentially zoo- and phytopathogenic fungi, was shown to be significantly higher in large nests, while species diversity (Shannon index) of fungi in nests with similar properties was not significant. The taxonomic structure (genus and species composition) and the spatial structure (frequency) of the nest mycobiota are mainly affected by nests’ specific physical and chemical properties which depend on the breeding and feeding preferences of the birds. In dry, highly sun-exposed nests of the Grey Heron (Ardea cinerea), a species that establishes breeding colonies high in the trees, mainly feeds on fish and has young who defecate into the nest, populations of xerophilic, alkali- and thermotolerant fungi, including keratinolytic fungi (Chrysosporium tropicum), developed. In the nests of the Mute Swan (Cygnus olor), a precocial species which constructs very large, relatively low-hygiene nests at the water's edge and which feeds on plant food, populations of hydrophilic and thermotolerant fungi, including highly cellulolytic fungi such as Chaetomium globosum, were detected. Nests of other small species of wetland birds, whose nests are also located on water but contain smaller amounts of animal-derived material, did not differ significantly mycologically and were colonised mainly by species such as Trichoderma viride and Penicillium purpurogenum, ubiquitous fungi with very high water and thermotolerant requirements.

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波兰湿地鸟类巢穴中真菌的频率和多样性：鸟类、巢穴特性与栖息真菌的关系

鸟窝是一个独特的，有时是极端的环境，真菌在其中发生。本研究记录了湿地鸟类的繁殖生物学和生态学与湿地鸟类巢中真菌的生物学和生态学之间的相关性。大型巢穴中具有生态生理多样性的真菌(腐养菌、纤维素分解真菌以及潜在的动物园和植物致病真菌)的丰度显著高于大型巢穴，而具有相似性质的巢穴中真菌的物种多样性(Shannon指数)不显著。巢真菌群的分类结构(属和种组成)和空间结构(频率)主要受巢的特定理化性质的影响，而巢的理化性质又取决于鸟类的繁殖和摄食偏好。灰苍鹭(Ardea cinerea)是一种在树上高处建立繁殖地的物种，主要以鱼类为食，其后代会将粪便排入巢中。在灰苍鹭(Ardea cinerea)干燥、高度暴露在阳光下的巢穴中，生长出了嗜干、耐碱和耐热真菌，包括角化真菌(Chrysosporium tropicum)。在静音天鹅(Cygnus olor)的巢中，检测到亲水性和耐热真菌的种群，包括高度纤维素分解真菌，如毛藻。这是一种早熟物种，它们在水边建造非常大的、相对不卫生的巢，以植物为食。其他小型湿地鸟类的巢也位于水上，但含有较少的动物源性物质，其菌丝学上没有显著差异，主要由绿木霉和紫青霉等菌种定植，这些菌种普遍存在，对水和耐热性要求很高。

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来源期刊

Avian Biology Research 农林科学-奶制品与动物科学

CiteScore

1.50

自引率

0.00%

发文量

审稿时长

2 months

期刊介绍： Avian Biology Research provides a forum for the publication of research in every field of ornithology. It covers all aspects of pure and applied ornithology for wild or captive species as well as research that does not readily fit within the publication objectives of other ornithological journals. By considering a wide range of research fields for publication, Avian Biology Research provides a forum for people working in every field of ornithology.