Pollination by multiple species of nectar foraging Hymenoptera in Prasophyllum innubum, a critically endangered orchid of the Australian Alps

IF 0.9 4区 生物学 Q4 PLANT SCIENCES
Tobias Hayashi, Bronwyn M. Ayre, Björn Bohman, Graham R. Brown, Noushka Reiter, Ryan D. Phillips
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Abstract

Context

Australia has numerous threatened species of terrestrial orchid, with a particularly high incidence of rarity in the genus Prasophyllum R.Br. Although there has been research on mycorrhizal associations and propagation, little is known about the reproductive ecology of threatened Prasophyllum. Understanding which animals are responsible for pollination and the impact of herbivores on reproduction may inform conservation actions.

Aims

For the nationally Critically Endangered Prasophyllum innubum, we aimed to determine the pollinator species, test for self-pollination, quantify levels of reproductive success and herbivory, and identify herbivores.

Methods

Pollinator observations were undertaken at wild populations of P. innubum, whereas an experiment testing for self-pollination was undertaken in shadehouse conditions. We quantified reproductive success and herbivory at two populations and attempted to identify herbivores using game cameras.

Key results

Pollination occurred via three species of bee and a sphecid wasp, all of which attempted feeding on floral nectar. Fruit set averaged 72–84% at wild sites, whereas only 6% of flowers set fruit via self-pollination when insects were excluded. Just 4% of inflorescences were completely consumed by herbivores, and no herbivory was captured on camera.

Conclusions

P. innubum has a generalist rewarding pollination system that confers high levels of reproductive success, with herbivory having little impact on reproduction.

Implications

Pollinator availability is unlikely to restrict conservation translocation site selection of P. innubum because of a generalist pollination system. If herbivores are a threat for this species, it is likely to be through alteration of habitat rather than direct grazing.

澳大利亚阿尔卑斯山极度濒危的兰花 Prasophyllum innubum 中多种觅蜜膜翅目昆虫的授粉活动
背景澳大利亚有许多濒危的陆生兰花物种,尤其是Prasophyllum R.Br.属的珍稀物种。虽然对菌根关联和繁殖进行了研究,但人们对濒危Prasophyllum的繁殖生态知之甚少。了解哪些动物负责授粉以及食草动物对繁殖的影响,可为保护行动提供依据。目的对于国家极度濒危的鹅掌楸(Prasophyllum innubum),我们的目标是确定授粉者的种类,测试自花授粉,量化繁殖成功率和食草动物的水平,并确定食草动物。授粉者观察是在野生种群中进行的,而测试自花授粉的实验则是在荫棚条件下进行的。我们对两个种群的繁殖成功率和食草动物进行了量化,并尝试用野味相机识别食草动物。主要结果授粉是通过三种蜜蜂和一种鞘翅目黄蜂进行的,它们都试图采食花蜜。野生地点的平均坐果率为 72-84%,而在排除昆虫的情况下,只有 6% 的花通过自花授粉坐果。仅有 4% 的花序被食草动物完全吃掉,而且摄像头没有捕捉到食草动物。结论 innubum具有一种通性奖励授粉系统,可获得较高的繁殖成功率,而食草动物对繁殖的影响很小。启示由于有通性授粉系统,授粉者的可获得性不太可能限制雏菊的保护迁移地点选择。如果食草动物对该物种构成威胁,可能是通过改变栖息地而非直接放牧。
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来源期刊
Australian Journal of Botany
Australian Journal of Botany 生物-植物科学
CiteScore
2.30
自引率
18.20%
发文量
26
审稿时长
6-12 weeks
期刊介绍: Australian Journal of Botany is an international journal for publication of original research in plant science. We seek papers of broad interest with relevance to Southern Hemisphere ecosystems. Our scope encompasses all approaches to understanding plant biology. Australian Journal of Botany is published with the endorsement of the Commonwealth Scientific and Industrial Research Organisation (CSIRO) and the Australian Academy of Science.
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