瑞士植物区系的时间变化:对访花昆虫的启示。

Stefan Abrahamczyk, Michael Kessler, Tobias Roth, Nico Heer
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引用次数: 1

摘要

背景:中欧地区的植物区系多样性在20世纪大幅减少,尽管在20世纪90年代,一些地区的植物区系多样性开始再次增加。然而,这种增加在具有不同生殖性状的植物群中是否均匀分布,目前尚不清楚。方法:本研究基于瑞士生物多样性监测项目的数据。在该项目中,自2001年以来,在450个有规律分布的1平方公里研究地点记录了植物物种的发生情况。对1774种植物进行了花/伪花类型、颜色、生殖系统和访花群体等方面的研究。然后,我们测试了物种频率的时间变化在不同性状状态的物种之间是否均匀分布。结果:物种丰富度和功能丰富度显著增加,功能均匀度降低。风媒传粉物种的频率比虫媒传粉物种的频率增加得更强烈。此外,具有简单、开放的昆虫授粉花和伪花的物种被通才昆虫群访问的频率略高于具有复杂花的物种被更专业的昆虫群访问的频率。自交亲和种的频率显著高于自交不亲和种的频率。因此,瑞士当地植物物种丰富度的总体增长主要是由风媒和昆虫传粉、自相容的物种驱动的。相比之下,具有复杂花朵的物种和具有自交不相容生殖系统的物种获利较少。结论:本研究强调了在保护活动的规划和监测中需要考虑功能性状,并呼吁特别关注具有特殊生殖性状的植物物种。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Temporal changes in the Swiss flora: implications for flower-visiting insects.

Temporal changes in the Swiss flora: implications for flower-visiting insects.

Temporal changes in the Swiss flora: implications for flower-visiting insects.

Background: Local floristic diversity has massively decreased during the twentieth century in Central Europe even though in the 1990s diversity began increasing again in several regions. However, little is known whether this increase is equally distributed among plant groups with different reproductive traits.

Methods: Our study is based on data of the Swiss Biodiversity Monitoring Program. In this program, plant species occurrence is recorded since 2001 in 450 regularly distributed 1 km2 study sites. For all 1774 plant species registered in the study, we researched data on flower/pseudanthium type and colour, reproductive system, and groups of flower visitors. We then tested whether temporal changes in species frequency were equally distributed among species with different trait states.

Results: Species richness and functional richness significantly increased in the study sites while functional evenness decreased. The frequency of wind-pollinated species increased more strongly than that of insect-pollinated species. Further, the frequency of species with simple, open insect-pollinated flowers and pseudanthia visited by generalist groups of insects increased slightly more strongly than the frequency of species with complex flowers visited by more specialized groups of flower visitors. Additionally, the frequency of self-compatible species increased significantly more than that of self-incompatible species. Thus, the overall increase in local plant species richness in Switzerland is mostly driven by wind- and generalist insect-pollinated, self-compatible species. In contrast, species with complex flowers, which are essential for specialized groups of flower visitors and species with self-incompatible reproductive systems profited less.

Conclusions: Our study thus emphasizes the need to consider functional traits in the planning and monitoring of conservation activities, and calls for a special focus on plant species with specialized reproductive traits.

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