Long-term resistance to simulated climate change in an infertile grassland

Grime, J. P.; Fridley, Jason D.; Askew, Andrew P.; Thompson, Ken; Hodgson, J.; Bennett, Chris R.

doi:10.1073/pnas.0711567105

Cited by 275 publications

(313 citation statements)

References 40 publications

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“…These former abundance data are point quadrat records drawn from Grime et al . (2008; Fig. S1); population abundance and population density are correlated in this system (see results).…”

Section: Methodsmentioning

confidence: 57%

“…BCCIL maintains some of the longest‐running multifactorial climate manipulations in the world. Community composition has remained relatively stable in all experimental treatments (Grime et al ., 2000, 2008). Such stability is rare; the majority of experimental climate manipulation studies report rapid community and ecosystem responses (e.g.…”

Section: Introductionmentioning

confidence: 99%

“…Harte & Shaw, 1995; Grime et al ., 2000; Zavaleta et al ., 2003; Evans et al ., 2011). Genetic adaptation to climatic selection has been hypothesized as one potential mechanism supporting the apparent resistance of this grassland community to long‐term climate manipulations (Grime et al ., 2008). Genetic variation in phenotype has been documented at fine spatial scales (< 10 m) in several of the species that are common at BCCIL, and this diversity can influence plant community structure (Booth & Grime, 2003; Fridley et al ., 2007; Whitlock et al ., 2007, 2010; Bilton et al ., 2010).…”

Section: Introductionmentioning

confidence: 99%

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Rapid genetic divergence in response to 15 years of simulated climate change

Ravenscroft

Whitlock

Fridley

2015

Global Change Biology

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Genetic diversity may play an important role in allowing individual species to resist climate change, by permitting evolutionary responses. Our understanding of the potential for such responses to climate change remains limited, and very few experimental tests have been carried out within intact ecosystems. Here, we use amplified fragment length polymorphism (AFLP) data to assess genetic divergence and test for signatures of evolutionary change driven by long‐term simulated climate change applied to natural grassland at Buxton Climate Change Impacts Laboratory (BCCIL). Experimental climate treatments were applied to grassland plots for 15 years using a replicated and spatially blocked design and included warming, drought and precipitation treatments. We detected significant genetic differentiation between climate change treatments and control plots in two coexisting perennial plant study species (Festuca ovina and Plantago lanceolata). Outlier analyses revealed a consistent signature of selection associated with experimental climate treatments at individual AFLP loci in P. lanceolata, but not in F. ovina. Average background differentiation at putatively neutral AFLP loci was close to zero, and genomewide genetic structure was associated neither with species abundance changes (demography) nor with plant community‐level responses to long‐term climate treatments. Our results demonstrate genetic divergence in response to a suite of climatic environments in reproductively mature populations of two perennial plant species and are consistent with an evolutionary response to climatic selection in P. lanceolata. These genetic changes have occurred in parallel with impacts on plant community structure and may have contributed to the persistence of individual species through 15 years of simulated climate change at BCCIL.

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“…These former abundance data are point quadrat records drawn from Grime et al . (2008; Fig. S1); population abundance and population density are correlated in this system (see results).…”

Section: Methodsmentioning

confidence: 57%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Rapid genetic divergence in response to 15 years of simulated climate change

Ravenscroft

Whitlock

Fridley

2015

Global Change Biology

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“…Finally, there may be response lags in some plant populations, such that the direct effects of climate change are not immediately apparent [7,9]. For example, various forms of compensatory buffering may provide short-term resiliency in growth and reproduction, but have longer-term costs through the draining of carbohydrate reserves or increased inbreeding depression from selfing [11,20].…”

Section: Introductionmentioning

confidence: 99%

“…Persistent herbivory, for example, may prevent rapid changes in community composition by suppressing species that might otherwise thrive in the new climate [7]. Pollen limitation, whether associated with climate change or non-climatic factors such as habitat loss, can potentially hamper how plants respond to perturbations by limiting pollen flow [7,[16][17][18].…”

Section: Introductionmentioning

confidence: 99%

Reproductive system of a mixed-mating plant responds to climate perturbation by increased selfing

2013

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How plants respond to climatic perturbations, which are forecasted to increase in frequency and intensity, is difficult to predict because of the buffering effects of plasticity. Compensatory adjustments may maintain fecundity and recruitment, or delay negative changes that are inevitable but not immediately evident. We imposed a climate perturbation of warming and drought on a mixed-mating perennial violet, testing for adjustments in growth, reproduction and mortality. We observed several plasticity-based buffering responses, such that the climatic perturbation did not alter population structure. The most substantial reproductive adjustments, however, involved selfing, with a 45% increase in self-pollination by chasmogamous flowers, a 61% increase in the number of cleistogamous flowers that produced at least one fruit and an overall 15% increase in fruit production from selfed cleistogamous flowers. Reproductive assurance thus compensated for environmental change, including low pollinator visitation that occurred independently of our climate treatment. There was also no immediate evidence for inbreeding depression. Our work indicates that plants with vegetative and reproductive flexibility may not be immediately and negatively affected by a climatic perturbation. The stabilizing effects of these reproductive responses in the long term, however, may depend on the implications of significantly elevated levels of selfing.

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2012

The Evolutionary Strategies That Shape Ecosystems

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Long-term resistance to simulated climate change in an infertile grassland

Cited by 275 publications

References 40 publications

Rapid genetic divergence in response to 15 years of simulated climate change

Rapid genetic divergence in response to 15 years of simulated climate change

Reproductive system of a mixed-mating plant responds to climate perturbation by increased selfing

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