Range Expansion Drives Dispersal Evolution In An Equatorial Three-Species Symbiosis

Léotard, Guillaume; Debout, Gabriel; Dalecky, Ambroise; Guillot, Sylvain; Gaume, Laurence; McKey, Doyle; Kjellberg, Finn

doi:10.1371/journal.pone.0005377

Cited by 54 publications

(54 citation statements)

References 71 publications

(90 reference statements)

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“…Photosynthetic capacity is mostly limited by nutrient limitations, which may reduce WUE and BAI [1], [24]. Although tree growth is generally consistent with species niche differentiation, soil-plant feedbacks can have a greater influence on growth than species-specific differences at the ecosystem level [29], [30] and yield convergent signals such as the ones observed here. Nitrogen has been considered to have a preeminent role in regulating tree growth and other aspects of ecosystems beyond the species level [8], [28].…”

Section: Discussionsupporting

confidence: 59%

Recent Widespread Tree Growth Decline Despite Increasing Atmospheric CO2

2010

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BackgroundThe synergetic effects of recent rising atmospheric CO2 and temperature are expected to favor tree growth in boreal and temperate forests. However, recent dendrochronological studies have shown site-specific unprecedented growth enhancements or declines. The question of whether either of these trends is caused by changes in the atmosphere remains unanswered because dendrochronology alone has not been able to clarify the physiological basis of such trends.Methodology/Principal FindingsHere we combined standard dendrochronological methods with carbon isotopic analysis to investigate whether atmospheric changes enhanced water use efficiency (WUE) and growth of two deciduous and two coniferous tree species along a 9° latitudinal gradient across temperate and boreal forests in Ontario, Canada. Our results show that although trees have had around 53% increases in WUE over the past century, growth decline (measured as a decrease in basal area increment – BAI) has been the prevalent response in recent decades irrespective of species identity and latitude. Since the 1950s, tree BAI was predominantly negatively correlated with warmer climates and/or positively correlated with precipitation, suggesting warming induced water stress. However, where growth declines were not explained by climate, WUE and BAI were linearly and positively correlated, showing that declines are not always attributable to warming induced stress and additional stressors may exist.ConclusionsOur results show an unexpected widespread tree growth decline in temperate and boreal forests due to warming induced stress but are also suggestive of additional stressors. Rising atmospheric CO2 levels during the past century resulted in consistent increases in water use efficiency, but this did not prevent growth decline. These findings challenge current predictions of increasing terrestrial carbon stocks under climate change scenarios.

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Section: Discussionsupporting

confidence: 59%

Recent Widespread Tree Growth Decline Despite Increasing Atmospheric CO2

2010

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“…A similar situation may occur in Australia, where cryptic species associated with a single host, Ficus rubiginosa, show some geographical separation, though the pattern seems less clear [13]. Range expansion following climatic modifications has been shown to shape species' biology in an ant-plant species-specific insect-plant mutualism [46]. Climatic oscillations have also been shown to be important in driving the evolution of the Ficus-fig wasp mutualism, in particular [47]: they could be important for shaping mutualistic interactions in general.…”

Section: Discussionmentioning

confidence: 93%

Floral volatiles, pollinator sharing and diversification in the fig–wasp mutualism: insights from Ficus natalensis , and its two wasp pollinators (South Africa)

et al. 2011

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Combining biogeographic, ecological, morphological, molecular and chemical data, we document departure from strict specialization in the fig-pollinating wasp mutualism. We show that the pollinating wasps Elisabethiella stuckenbergi and Elisabethiella socotrensis form a species complex of five lineages in East and Southern Africa. Up to two morphologically distinct lineages were found to co-occur locally in the southern African region. Wasps belonging to a single lineage were frequently the main regional pollinators of several Ficus species. In South Africa, two sister lineages, E. stuckenbergi and E. socotrensis, pollinate Ficus natalensis but only E. stuckenbergi also regularly pollinates Ficus burkei. The two wasp species co-occur in individual trees of F. natalensis throughout KwaZulu-Natal. Floral volatile blends emitted by F. natalensis in KwaZulu-Natal were similar to those emitted by F. burkei and different from those produced by other African Ficus species. The fig odour similarity suggests evolutionary convergence to attract particular wasp species. The observed pattern may result from selection for pollinator sharing among Ficus species. Such a process, with one wasp species regionally pollinating several hosts, but several wasp species pollinating a given Ficus species across its geographical range could play an important role in the evolutionary dynamics of the Ficus-pollinating wasp association.

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“…[61 -63]). Yet increasing dispersal ability has been shown for many taxa during range expansion [64][65][66][67][68]. There is therefore a need for existing modelling approaches that explore dispersal evolution (e.g.…”

Section: Discussionmentioning

confidence: 99%

Between migration load and evolutionary rescue: dispersal, adaptation and the response of spatially structured populations to environmental change

et al. 2014

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The evolutionary potential of populations is mainly determined by population size and available genetic variance. However, the adaptability of spatially structured populations may also be affected by dispersal: positively by spreading beneficial mutations across sub-populations, but negatively by moving locally adapted alleles between demes. We develop an individual-based, two-patch, allelic model to investigate the balance between these opposing effects on a population's evolutionary response to rapid climate change. Individual fitness is controlled by two polygenic traits coding for local adaptation either to the environment or to climate. Under conditions of selection that favour the evolution of a generalist phenotype (i.e. weak divergent selection between patches) dispersal has an overall positive effect on the persistence of the population. However, when selection favours locally adapted specialists, the beneficial effects of dispersal outweigh the associated increase in maladaptation for a narrow range of parameter space only (intermediate selection strength and low linkage among loci), where the spread of beneficial climate alleles is not strongly hampered by selection against non-specialists. Given that local selection across heterogeneous and fragmented landscapes is common, the complex effect of dispersal that we describe will play an important role in determining the evolutionary dynamics of many species under rapidly changing climate.

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Range Expansion Drives Dispersal Evolution In An Equatorial Three-Species Symbiosis

Cited by 54 publications

References 71 publications

Recent Widespread Tree Growth Decline Despite Increasing Atmospheric CO2

Recent Widespread Tree Growth Decline Despite Increasing Atmospheric CO2

Floral volatiles, pollinator sharing and diversification in the fig–wasp mutualism: insights from Ficus natalensis , and its two wasp pollinators (South Africa)

Between migration load and evolutionary rescue: dispersal, adaptation and the response of spatially structured populations to environmental change

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