The effects of snowmelt date, soil moisture, and precipitation on nectar and floral morphology of Ipomopsis

Abstract

Climate change is putting montane plant species at risk that rely on historical patterns of precipitation and snowmelt timing. Floral traits, such as nectar production and morphology can be impacted by water availability. Hybridization of plants has the potential to provide adaptation to climate change through an increase in genetic variation. This study looked at nectar production and concentration, corolla length, stamen length, and style length in response to snowmelt date, summer precipitation, and soil moisture content. The focus populations included Ipomopsis aggregata and hybrids of Ipomopsis aggregata and Ipomopsis tenuituba. I expected that nectar production, corolla length, stamen length, and style length would decrease as water availability in the soil decreased, while nectar concentration would increase. I also predicted that floral traits would respond less to water availability in hybrids than I. aggregata due to their more efficient water usage and occupation of drier, rockier soil. The response of I. aggregata was much more stable than the hybrid response to changes in water availability via precipitation. In 2025, average soil moisture was not found to affect average floral traits in specific plants, with all plants experiencing dry conditions. Both nectar related traits and floral morphological traits were not correlated with average soil moisture. Instead, the average nectar production decreased with Julian date as the average nectar concentration increased. Over 15 years, nectar production and concentration responded to summer precipitation, but only minimally to the date of snowmelt. Though 2025 was informative on the plants’ responses to changes in water availability, the severe drought conditions may have limited this study’s ability to determine the true effects of water availability on floral traits, given the narrow range of soil moisture.

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References (18)

10 in Knowledge Commons, 8 external

Publication

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2025New PhytologistDOI: 10.1111/nph.20157

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

2022American Journal of BotanyDOI: 10.1002/ajb2.16067

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2022Global Change BiologyDOI: 10.1111/gcb.15908

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Early snowmelt projected to cause population decline in a subalpine plant

2019Proceedings of the National Academy of SciencesDOI: 10.1073/pnas.1820096116

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Drought, pollen and nectar availability, and pollination success

2016EcologyDOI: 10.1890/15-1423.1

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Altered precipitation affects plant hybrids differently than their parental species

2013American Journal of BotanyDOI: 10.3732/ajb.1200473

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Variation in frequency of hybrids and spatial structure among <i>Ipomopsis (Polemoniaceae)</i> contact sites

2005New PhytologistDOI: 10.1111/j.1469-8137.2005.01413.x

The effects of snowmelt date, soil moisture, and precipitation on nectar and floral morphology of Ipomopsis

Abstract

Local Knowledge Graph (Top 21 entities)

Related Works

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Leaf gas exchange in Ipomopsis aggregata under manipulated snowmelt timing and summer precipitation

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Shifts in water availability mediate plant-pollinator interactions

Native Plant Revegetation Guide for Colorado

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

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References (18)

Natural selection on floral volatiles and other traits can change with snowmelt timing and summer precipitation

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

Earlier snow melt and reduced summer precipitation alter floral traits important to pollination

Early snowmelt projected to cause population decline in a subalpine plant

Drought, pollen and nectar availability, and pollination success

Altered precipitation affects plant hybrids differently than their parental species

Variation in frequency of hybrids and spatial structure among <i>Ipomopsis (Polemoniaceae)</i> contact sites

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

Patterns of color and nectar variation across an <i>Ipomopsis</i> (Polemoniaceae) hybrid zone

Adaptive significance of Ipomopsis aggregata nectar production: observation and experiment in the field