脆弱的栖息地改变了非洲蜜蜂(膜翅目:鳞翅目)在非洲东部生物多样性热点地区的分布。

International journal of insect science Pub Date : 2017-05-29 eCollection Date: 2017-01-01 DOI:10.1177/1179543317709788
Bridget O Bobadoye, Paul N Ndegwa, Lucy Irungu, Ayuka T Fombong
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引用次数: 0

摘要

随着时间的推移,栖息地退化与其他因素形成合力,通过改变动植物的栖息地,导致动植物数量不断减少。对自然栖息地的干扰通过改变生物赖以生存的觅食和筑巢地点,影响着脊椎动物和无脊椎动物的多样性。人们对脆弱的栖息地在多大程度上会影响热带生态系统中非洲蜜蜂等最贫乏的授粉者的多样性知之甚少。本研究旨在确定干扰如何影响非洲瓜子黄蜂物种在泰塔山不同生态栖息地的自然出现,从而导致其多样性发生变化。在调查的六种主要栖息地类型中,有五种栖息地记录了仁义多样性图谱所描述的共四种物种,根据香农指数(EH)进一步推断,落叶栖息地类型的物种丰富度最高,达到 4.24。据观察,这些蜜蜂物种(Hypotrigona gribodoi、Hypotrigona ruspolii、Meliponula ferruginea(黑色)和Plebeina hildebrandti)在所有栖息地的分布并不均匀,这进一步表明落叶混合栖息地比以刺槐为主的灌木林地、草地和外来森林斑块更具多样性。几何形态计量学将所有四种美脂腺蜜蜂分为两大类群--类群1(H gribodoi、H ruspolii、M ferruginea(黑色))和类群2(P hildebrandti)--并根据其可能持续存在或存活的四种潜在栖息地进一步区分种群。每个栖息地似乎都由一组亚种群组成,并可能揭示出四个美利鹏种群中的生态型。这揭示了前所未有的将自然栖息地转化为农业生态系统的现象是导致非洲沼泽地区栖息地隔离和脆弱性增加的一个关键驱动因素,这可能会扭曲本地授粉昆虫(如美利盆蜜蜂物种)的组合。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Vulnerable Habitats Alter African Meliponine Bee's (Hymenoptera: Apidae) Assemblages in an Eastern Afromontane Biodiversity Hotspot.

Vulnerable Habitats Alter African Meliponine Bee's (Hymenoptera: Apidae) Assemblages in an Eastern Afromontane Biodiversity Hotspot.

Vulnerable Habitats Alter African Meliponine Bee's (Hymenoptera: Apidae) Assemblages in an Eastern Afromontane Biodiversity Hotspot.

Vulnerable Habitats Alter African Meliponine Bee's (Hymenoptera: Apidae) Assemblages in an Eastern Afromontane Biodiversity Hotspot.

Habitat degradation has over time formed synergy with other factors to contribute to dwindling populations of both fauna and flora by altering their habitats. The disturbance of natural habitats affects the diversity of both vertebrates and invertebrates by altering both feeding and nesting sites for which organisms are known to depend on for survival. Little is known of the extent to which vulnerable habitats could shape the diversity of most indigent pollinators such as African meliponine bee species in tropical ecosystems. This study was conducted to determine how disturbance could shape the natural occurrence of African meliponine bee species in different ecological habitats of Taita Hills, leading to changes in their diversity. A total of four species depicted by the Renyi diversity profile was recorded in five of the six main habitat types surveyed, and a further extrapolation with Shannon index (EH) also predicted the highest species richness of 4.24 in a deciduous habitat type. These meliponine bee species (Hypotrigona gribodoi, Hypotrigona ruspolii, Meliponula ferruginea (black), and Plebeina hildebrandti) were observed to be unevenly distributed across all habitats, further indicating that mixed deciduous habitat was more diverse than acacia-dominated bush lands, grasslands, and exotic forest patches. Geometric morphometrics categorized all four meliponine bee species into two major clusters-cluster 1 (H gribodoi, H ruspolii, M ferruginea (black)) and cluster 2 (P hildebrandti)-and further discriminated populations against the 4 potential habitats they are likely to persist or survive in. Each habitat appeared to consist of a cluster of subpopulations and may possibly reveal ecotypes within the four meliponine populations. This has revealed that unprecedented conversions of natural habitats to agroecosystems are a key driving factor causing increased habitat isolation and vulnerability in this Afromontane region which may potentially distort local assemblages of native pollinators, such as meliponine bee species.

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