Department of Biology, University of Vermont, Burlington, VT, USA.
Rocky Mountain Biological Laboratory, Crested Butte, CO, USA.
Ann Bot. 2021 Jul 28;128(1):127-134. doi: 10.1093/aob/mcab050.
Most angiosperms rely on pollinators to transport pollen and effect fertilization. While some floral visitors are effective pollinators, others act as thieves, consuming pollen but effecting little pollination in return. The importance of pollen theft in male and female reproductive success has received little attention. Here, we examined if pollen consumption by flies altered pollen receipt and exacerbated pollen limitation for a bumblebee-pollinated plant, Polemonium foliosissimum (Polemoniaceae).
To examine the effect of pollen-thieving flies, we took a three-pronged approach. First, we used single-visit observations to quantify pollen removal and pollen deposition by flies and bumblebees. Second, we manipulated pollen in the neighbourhood around focal plants in two years to test whether pollen reduction reduced pollen receipt. Third, we combined pollen reduction with hand-pollination to test whether pollen thieving exacerbated pollen limitation. Polemonium foliosissimum is gynodioecious in most populations in the Elk Mountains of central Colorado, USA. Thus, we also tested whether pollen theft affected hermaphrodites and females differently.
Flies removed significantly more pollen and deposited less pollen per visit than did bumblebees. Reduction of pollen in the neighbourhood around focal plants reduced pollen receipt in both years but only nearly significantly so in 2015. In 2016, plants were significantly pollen-limited; hand-pollination significantly increased seeds per fruit for both hermaphrodites and females. However, the reduction of pollen around focal plants did not exacerbate pollen limitation for either hermaphrodites or females.
Our results suggest that plants tolerate significant consumption of pollen by thieves and pollinators by producing ample pollen to feed both and fertilize available ovules. Our results demonstrate that pollen limitation in P. foliosissimum is driven by lack of effective pollinators rather than lack of pollen. Teasing out these effects elucidates the relative importance of drivers of reproductive success and thus the expected response to selection by different floral visitors.
大多数被子植物依靠传粉者来运输花粉并完成受精。虽然有些花的访客是有效的传粉者,但有些则是小偷,它们消耗花粉但很少进行授粉。花粉盗窃对雄性和雌性生殖成功的重要性尚未得到关注。在这里,我们研究了蝇类对花粉的消耗是否改变了花粉的接收并加剧了对熊蜂授粉植物 Polemonium foliosissimum(Polemoniaceae)的花粉限制。
为了研究偷花粉的蝇类的影响,我们采用了三管齐下的方法。首先,我们进行了单次访问观察,以量化蝇类和熊蜂对花粉的去除和沉积。其次,我们在两年内对焦点植物周围的花粉进行了操作,以检验花粉减少是否会减少花粉接收。第三,我们将花粉减少与人工授粉相结合,以检验花粉偷食是否加剧了花粉限制。Polemonium foliosissimum 在大多数位于美国科罗拉多州埃尔克山脉的种群中是雌雄异株的。因此,我们还测试了花粉盗窃是否对雌雄同体和雌性产生不同的影响。
蝇类每次访问去除的花粉明显多于熊蜂,沉积的花粉也明显少于熊蜂。在两年内,在焦点植物周围的花粉减少减少了花粉的接收,但仅在 2015 年几乎显著。2016 年,植物受到明显的花粉限制;人工授粉显著增加了两性花和雌花的每个果实中的种子数。然而,在焦点植物周围的花粉减少并没有加剧两性花和雌花的花粉限制。
我们的结果表明,植物通过产生足够的花粉来养活传粉者和受精,从而容忍了小偷和传粉者对花粉的大量消耗。我们的结果表明,P. foliosissimum 的花粉限制是由有效传粉者的缺乏而不是花粉的缺乏所驱动的。区分这些效应可以阐明生殖成功的驱动因素的相对重要性,从而可以预期不同花访客的选择反应。