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

Authors: Anderson, J. T.; Inouye, D. W.ORCID; McKinney, A.; Colautti, R. I.; Mitchell-Olds, T.

Year: 2012

Journal: Proceedings of the Royal Society of London B: Biological Sciences, Vol. 279, pp. 3843-3852

Publisher: UNKNOWN

DOI: 10.1098/rspb.2012.1051

Keywords: ADAPTIVE EVOLUTION, BOECHERA STRICTA, FLOWERING PHENOLOGY, NATURAL SELECTION, RESPONSE TO SELECTION

Abstract

Anthropogenic climate change has already altered the timing of major life-history transitions, such as the initiation of reproduction. Both phenotypic plasticity and adaptive evolution can underlie rapid phenological shifts in response to climate change, but their relative contributions are poorly understood. Here, we combine a continuous 38 year field survey with quantitative genetic field experiments to assess adaptation in the context of climate change. We focused on Boechera stricta (Brassicaeae), a mustard native to the US Rocky Mountains. Flowering phenology advanced significantly from 1973 to 2011, and was strongly associated with warmer temperatures and earlier snowmelt dates. Strong directional selection favoured earlier flowering in contemporary environments (2010–2011). Climate change could drive this directional selection, and promote even earlier flowering as temperatures continue to increase. Our quantitative genetic analyses predict a response to selection of 0.2 to 0.5 days acceleration in flowering per generation, which could account for more than 20 per cent of the phenological change observed in the long-term dataset. However, the strength of directional selection and the predicted evolutionary response are likely much greater now than even 30 years ago because of rapidly changing climatic conditions. We predict that adaptation will likely be necessary for long-term in situ persistence in the context of climate change.

Download PDF View at Publisher

Local Knowledge Graph (23 entities)

Loading graph...

Related Works

Items connected by shared entities, co-authorship, citations, or semantic similarity.

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

Abstract

Local Knowledge Graph (23 entities)

Related Works

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

Toward a synthetic understanding of the role of phenology in ecology and evolution

Changes in snowmelt date and summer precipitation affect the flowering phenology of <i>Erythronium grandiflorum</i> (Glacier Lily; Liliaceae)

Phenological responses to multiple environmental drivers under climate change: insights from a long-term observational study and a manipulative field experiment

Phenological responses to multiple environmental drivers under climate change: insights from a long-term observational study and a manipulative field experiment

Data from: A global test for phylogenetic signal in shifts in flowering time under climate change

Native Plant Revegetation Guide for Colorado

Shrubland Ecosystem Genetics And Biodiversity: Proceedings

Sudden Aspen Decline in Colorado

Cited By (547 times, 47 in Knowledge Hub)

Increased temperature and CO2 induce plasticity and impose novel selection on plant traits

Does pollination interact with the abiotic environment to affect plant reproduction?

Responses to climate change – insights and limitations from herbaceous plant model species

Does pollination interact with the abiotic environment to affect plant reproduction?

Differences in individual flowering time change pollen limitation and seed set in three montane wildflowers

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

The Boechera model system for evolutionary ecology

Ecological factors influence balancing selection on leaf chemical profiles of a wildflower

Snow melt timing acts independently and in conjunction with temperature accumulation to drive subalpine plant phenology

Biotic interactions at species’ range limits in a changing climate

Climate change disrupts local adaptation and favours upslope migration

Small spaces, big impacts: contributions of micro-environmental variation to population persistence under climate change

Changing Climate Drives Divergent and Nonlinear Shifts in Flowering Phenology across Elevations

Elevation alters outcome of competition between resident and range shifting species

Ecological contexts of balancing selection in nature

Climate change shifts natural selection and the adaptive potential of the perennial forb <i>Bochera stricta</i> in the Rocky Mountians

Phenotypic plasticity of floral volatiles in response to increasing drought stress

Reproductive losses due to climate change? Induced earlier flowering are not the primary threat to plant population viability in a perennial herb

Phenology as a process rather than an event: from individual reaction norms to community metrics

Transgenerational and within-generation plasticity in response to climate change: insights from a manipulative field experiment across an elevational gradient

Phenological shifts of native and invasive species under climate change: insights from the <i>Boechera Lythrum</i> model

Confounding effects of spatial variation on shifts in phenology

Detrending phenological time series improves climate-phenology analyses and reveals evidence of plasticity

Young inversion with multiple linked QTLs under selection in a hybrid zone

Integrating viability and fecundity selection to illuminate the adaptive nature of genetic clines

Phenological responses to multiple environmental drivers under climate change: insights from a long-term observational study and a manipulative field experiment

Does bumble bee (<i>Bombus spp.</i>) diet breadth vary with differences in floral resource abundance?

Selection for early reproduction in the solitary bee <i>Hoplitis fulgida</i>

Frost sensitivity of leaves and flowers of subalpine plants is related to tissue type and phenology.

Delving deeper: Questioning the decline of long-tongued bumble bees, long-tubed flowers and their mutualisms with climate change

Phenological change in a spring ephemeral: implications for pollination and plant fitness

Caddisfly behavioral responses to drying cues in temporary ponds: Implications for effects of climate change

Historical changes in thermoregulatory traits of alpine butterflies reveal complex ecological and evolutionary responses to recent climate change

Analyzing the effect of climate change on <i>Boechera stricta</i> seed germination and fitness along an elevational gradient

Temporal ecology of a subalpine ecosystem: Plant communities, plant-pollinator interactions, & climate change.

Plasticity in functional traits in the context of climate change: A case study of the subalpine forb Boechera stricta (Brassicaceae)

Climate variability slows evolutionary responses of <i>Colias</i> butterflies to recent climate change

Investigating Herbivore Relationships to Boechera stricta in a Climate Change Context.

Elevational and temporal variation in Ipomopsis floral and vegetative traits.

Geographic variation in flowering phenology in Boechera stricta: testing for adaptive response to climate across the species range

Adaptation to climate and climate change in Rocky Mountain butterflies: Morphology, physiology, and behavior

The evolution of quantitative traits in complex environments

Geographic differences and microevolutionary changes in thermal sensitivity of butterfly larvae in response to climate

Nonlinear flowering responses to climate: are species approaching their limits of phenological change?

Long-term trends mask variation in the direction and magnitude of short-term phenological shifts

Flowering date of taxonomic families predicts phenological sensitivity to temperature: Implications for forecasting the effects of climate change on unstudied taxa

Evolutionary and ecological responses to anthropogenic climate change

References (48)

Effects of climate change on phenology, frost damage, and floral abundance of montane wildflowers

Flowering phenology, fruiting success and progressive deterioration of pollination in an early-flowering geophyte

Changes in snowmelt date and summer precipitation affect the flowering phenology of <i>Erythronium grandiflorum</i> (Glacier Lily; Liliaceae)

Variation in the impact of climate change on flowering phenology and abundance: an examination of two pairs of closely related wildflower species

Environmental influences on the phenology and abundance of flowering by <i>Androsace septentrionalis</i> (Primulaceae)

Toward a synthetic understanding of the role of phenology in ecology and evolution