Elevational and temporal variation in Ipomopsis floral and vegetative traits.

Abstract

Exploring the geographical and temporal movement of hybrid zones provides practical evidence for conservation biologists investigating the dynamics of species invasions (Buggs 2007). Genetically based clines in floral traits can also help us to understand potential adaptation in responses to climate change. We re-measured floral traits in Ipomopsis in 12 populations along an elevational gradient in Poverty Gulch, Gunnison County that was first measured in 1991 and 1992. Corolla length increased by 4.4 mm on average and corolla width by 0.11mm on average between 1992 and 2015. In a common garden experiment, we also found a genetic and environmental basis for variation in corolla length and anther position. Since there is a genetic component to the variation, the change in corolla length over 23 years could represent an evolutionary change rather than just a response to environment. Unlike corolla length, corolla width did not change systematically over time when supplementary data from additional years were compared. Additionally, anther position varied significantly only at the lower elevational sites between 1992 and 2015. Floral trait variation in this hybrid zone involves a complex assortment of selection mediated by multiple pollinators and varied environmental conditions that may be the cause of differential change in floral traits throughout the cline.

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References (27)

6 in Knowledge Commons, 21 external

Publication

Phenotypic plasticity and adaptive evolution contribute to advancing flowering phenology in response to climate change

2012Proceedings of the Royal Society B: Biological Sciences

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Photosynthetic and growth responses of reciprocal hybrids to variation in water and nitrogen availability

2010American journal of botany

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Natural selection in Ipomopsis hybrid zones: implications for ecological speciation

2004New Phytologist

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Reproductive isolation and hybrid pollen disadvantage in Ipomopsis

2003Journal of Evolutionary Biology

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1997American Naturalist

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Components of Phenotypic Selection: pollen export and flower corolla width in Ipomopsis aggregata

1991Evolution

Elevational and temporal variation in Ipomopsis floral and vegetative traits.

Abstract

Local Knowledge Graph (Top 25 entities)

Related Works

Analyzing pollinator-mediated selection in a plant hybrid zone: hummingbird visitation patterns on three spatial scales

Comparing clines in floral and vegetative traits along an elevation gradient in an <i>Ipomopsis</i> hybrid zone

Clines in traits compared over two decades in a plant hybrid zone

Data for: Pollinator and habitat-mediated selection as potential contributors to ecological speciation in two closely related species

Data from: Genetic and spatial variation in vegetative and floral traits across a hybrid zone

Data from: Comparative impacts of long-term trends in snowmelt and species interactions on plant population dynamics

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Colorado's Natural Heritage: Rare and Imperiled Animals, Plants, and Plant Communities

Colorado?s Alpine Ecosystem Health ? A Case Study on San Juan, Sawatch, and West Elk Mountains

References (27)

Phenotypic plasticity and adaptive evolution contribute to advancing flowering phenology in response to climate change

Photosynthetic and growth responses of reciprocal hybrids to variation in water and nitrogen availability

Natural selection in <i>Ipomopsis</i> hybrid zones: implications for ecological speciation

Reproductive isolation and hybrid pollen disadvantage in <i>Ipomopsis</i>

Analyzing pollinator-mediated selection in a plant hybrid zone: hummingbird visitation patterns on three spatial scales

Components of Phenotypic Selection: pollen export and flower corolla width in Ipomopsis aggregata