Abstract
Low pollinator visitation in harsh environments may lead to pollen limitation which can threaten population persistence. Consequently, avoidance of pollen limitation is expected in outcrossing species subjected to habitually low pollinator service. The elevational decline in visitation rates on many high mountains provides an outstanding opportunity for addressing this question. According to a recent meta-analysis, levels of pollen limitation in alpine and lowland species do not differ. If parallel trends are manifested among populations of alpine species with wide elevational ranges, how do their uppermost populations contend with lower visitation? We investigated visitation rates and pollen limitation in high Andean Rhodolirium montanum. We test the hypothesis that lower visitation rates at high elevations are compensated for by the possession of long-lived flowers. Visitation rates decreased markedly over elevation as temperature decreased. Pollen limitation was absent at the low elevation site but did occur at the high elevation site. While initiation of stigmatic pollen deposition at high elevations was not delayed, rates of pollen arrival were lower, and cessation of pollination, as reflected by realized flower longevity, occurred later in the flower lifespan. Comparison of the elevational visitation decline and levels of pollen limitation indicates that flower longevity partially compensates for the lower visitation rates at high elevation. The functional role of flower longevity, however, was strongly masked by qualitative pollen limitation arising from higher abortion levels attributable to transference of genetically low-quality pollen in large clones. Stronger clonal growth at high elevations could counterbalance the negative fitness consequences of residual pollen limitation due to low visitation rates and/or difficult establishment under colder conditions. Visitation rates on the lower part of the elevational range greatly exceeded community rates recorded several decades ago when the planet was cooler. Current pollen limitation for some species in some habitats might underestimate historical levels.
Highlights
A plant is said to be pollen limited when its fruit or seed set falls below the maximum a plants resources can sustain as a result of insufficient availability of pollen (Burd 1994; Larson and Barrett 2000; Ashman et al 2004; Knight et al 2005)
Our results suggest that some of the pollination limitation at high elevations may reflect qualitative pollen limitation caused by the deposition of genetically low-quality pollen on stigmas
We found a general tendency for increased levels of abortion with increasing elevation in R. montanum, which is common in alpine species (Körner 2003)
Summary
A plant is said to be pollen limited when its fruit or seed set falls below the maximum a plants resources can sustain as a result of insufficient availability of pollen (Burd 1994; Larson and Barrett 2000; Ashman et al 2004; Knight et al 2005). Deposition of genetically low-quality pollen on stigmas can lead to qualitative as opposed to quantitative pollen limitation (Aizen and Harder 2007; Harder and Aizen 2010; Arceo-Gómez and Ashman 2014). This source of pollen limitation is more difficult to detect but can be significant. In outcrossing species habitually subject to low pollen availability, we expect to find functional traits or adaptations leading to the avoidance of strong pollen limitation
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