Distinct genecological patterns in seedlings of<scp>N</scp>orway spruce and silver fir from a mountainous landscape

Frank, Aline; Sperisen, Christoph; Howe, Glenn T.; Brang, Peter; Walthert, Lorenz; Clair, J. Bradley St.; Heiri, Caroline

doi:10.1002/ecy.1632

Cited by 37 publications

(78 citation statements)

References 63 publications

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“…Despite the ubiquity and eco‐evolutionary implications of P × E , a considerable proportion of studies (>20%) were performed in only one test environment, which prevents its calculation (e.g., Alberto et al, ; Hernandez‐Serrano et al, ; Sebastian‐Azcona, Hacke, & Hamann, ). For instance, only one test environment is used in most studies using F ST – Q ST comparisons (e.g., Frank, Sperisen, et al, ; Hernandez‐Serrano et al, ; Santiso et al, ); Q ST measures population differentiation in functional traits, and may be compared to F ST , a metric widely used to measure population differentiation in neutral molecular markers. Their comparison informs on the role of divergent natural selection in the functional differentiation of populations (see Merilä & Crnokrak ).…”

Section: Discussionmentioning

confidence: 99%

“…Their comparison informs on the role of divergent natural selection in the functional differentiation of populations (see Merilä & Crnokrak ). The few instances where Q ST has been calculated in several environments show that Q ST values are not always consistent across test environments, which has important implications for our understanding of the evolutionary forces shaping population differentiation patterns (Frank, Sperisen, et al, ; Ramírez‐Valiente et al, ). Our results thus call for caution on the use of single‐environment studies to infer adaptive divergence among populations.…”

Section: Discussionmentioning

confidence: 99%

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A review and meta‐analysis of intraspecific differences in phenotypic plasticity: Implications to forecast plant responses to climate change

Matesanz

Ramírez‐Valiente²

2019

Global Ecol Biogeogr

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Aim Many studies use differences among plant populations to infer future plant responses, but these predictions will provide meaningful insights only if patterns of plasticity among populations are similar (i.e., in the absence of population‐by‐environment interaction, P × E). In this study, we tested whether P × E is considered in climate change studies. Specifically, we evaluated whether population differentiation varies across environments and whether P × E is determined by aspects of the study system and experimental design. Location Global. Methods We conducted a literature search in the Thomson Reuters Web of Science database to identify studies assessing population differentiation in a climate change context. We quantified the occurrence of P × E and performed a meta‐analysis to calculate the percentage of traits showing P × E in the study cases. Results We identified 309 study cases (from 237 published articles) assessing population differentiation in 172 plant species, of which 64% included more than one test environment and tested P × E. In 77% of these studies, P × E was significant for at least one functional trait. The overall proportion of traits showing P × E was 33.4% (95% confidence interval 27.7–39.3). These results were generally consistent across life‐forms, ecoregions and type of experiment. Furthermore, population differentiation varied across test environments in 76% of cases. The overall proportion of traits showing environment‐dependent population differentiation was 53.7% (95% confidence interval 37.9–69.3). Conclusions Our findings revealed that differences in phenotypic plasticity among populations are common but are usually neglected in order to forecast population responses to climate change. Future studies should assess population differentiation in many test environments (accounting for P × E) that realistically reflect future environmental conditions, assessing climate change drivers that are rarely considered (e.g., multifactor experiments incorporating higher CO2 levels). Our review also revealed the predominant focus of population studies on trees from temperate climates, identifying underexplored life‐forms (shrubs, annuals), phylogenetic groups (ferns, ancient gymnosperms) and ecoregions (tropical, arctic) that should receive more attention in future.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

A review and meta‐analysis of intraspecific differences in phenotypic plasticity: Implications to forecast plant responses to climate change

Matesanz

Ramírez‐Valiente²

2019

Global Ecol Biogeogr

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“…Environmental variables considered at the seed sources included the following: mean annual temperature ( MAT ); mean spring temperature (March – May, MTsp ); continentality (interannual temperature variance, that is, maximum of warmest month minus minimum of coldest month); average maximum diurnal amplitude of temperature during spring (March – May, DTAsp ); sum of growing degree days (based on a threshold of 5°C, DDEG ); average numbers of days during the vegetation season (March – November) with frost ( SFROv ); mean annual precipitation sum ( PREC ); absolute maximum drought ( PREC < 0.01 mm) period length in summer (June – August, DRYPsu ); and annual aridity index ( DMI = PREC / MAT *10 (Martonne, )). All variables were calculated for the period 1931–1960 for each seed source (Frank et al, ). Physical and chemical soil properties—including the available water capacity of 1 m soil depth ( AWC )—were derived from local soil pits that were located within a few meters of one of the three mother trees at each seed source (details see appendix in Frank et al, ).…”

Section: Methodsmentioning

confidence: 99%

Recovery of Abies alba and Picea abies saplings to browsing and frost damage depends on seed source

Kupferschmid

Heiri

2019

Ecology and Evolution

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The density of wild ungulates has increased in the last century, and browsing has become a major driver of forest succession in the northern hemisphere. In addition, tree species are expected to respond differently to future climate conditions, especially an increased frequency of late frost events. The aim of this study was to analyze the influence of intraspecific genetic variation on the recovery of two tree species to frost and browsing. An experiment with saplings from 90 Abies alba and 72 Picea abies seed sources was conducted. Five‐year‐old saplings were clipped at three intensities before budburst in spring. Growth (height, diameter, leader shoot length, and biomass) and quality (e.g. stem form, multistemming, reaction type) were assessed before and 1–2 years after clipping or 3–4 years after natural frost events, and provenance differences were related to environmental differences at the seed source. For Abies, frost and clipping resulted in reduced height growth in the first year after the stress and reduced height for two (clipping) to four (frost) vegetation periods. Sapling biomass, diameter increment, and quality decreased after heavy clipping. For Picea, which grew twice as fast as Abies, such effects were only found after frost damage. Population differences were significant for both species for all investigated growth traits and for Picea also for some quality variables. The “reaction type” after browsing (e.g. new shoot, existing twig bending upward) seems to be species specific and independent of seed source. In contrast, the time lag between clipping and formation of a clear new leader shoot increased for Abieswith lower temperatures at the seed source. Lowland populations with warmer climates grew faster, and for Picea also qualitatively better, and recovered faster from leader shoot loss (Abies) or reacted at the uppermost meristem (Picea). Thus, the investigated stressors increased the existing differences among populations.

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“…These values represent best linear unbiased predictions of population means (Frank et al. ). The environmental variables included temperature variables, such as mean annual temperature (MAT), and precipitation variables for the time period 1931–1960 that were approximated for each seed source (Frank et al.…”

Section: Methodsmentioning

confidence: 99%

“…The environmental variables included temperature variables, such as mean annual temperature (MAT), and precipitation variables for the time period 1931–1960 that were approximated for each seed source (Frank et al. : Table A1). In addition, elevation was recorded at each seed source.…”

Section: Methodsmentioning

confidence: 99%

Growth and quality of Fagus sylvatica saplings depend on seed source, site, and browsing intensity

2019

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2019. Growth and quality of Fagus sylvatica saplings depend on seed source, site, and browsing intensity.Abstract. Local climate and ungulate browsing are two major factors that affect tree regeneration and genetic adaptation in Central European forests. Owing to climate change and increasing ungulate numbers, the abiotic and biotic environments of trees are changing remarkably, making it necessary to investigate the separate and joint effects of seed source (i.e., location of tree population origin) and ungulate herbivory. We used a common garden experiment to study the growth and morphology of Fagus sylvatica saplings from 77 Swiss seed sources. The experiment was set up at two sites and included a clipping treatment (i.e., terminal shoot clipped at two intensities) applied before budburst to simulate winter ungulate browsing. We studied F. sylvatica sapling growth and morphology before and two years after clipping. Measured growth traits included sapling height, stem diameter, and biomass. Morphological traits included multi-stemming, stem and crown form, stem quality, and reaction to clipping. Seed source, test site, and simulated leader browsing were all important in determining the growth and quality of F. sylvatica saplings. The effects of seed source on growth and quality indicate that F. sylvatica possesses a large pool of diverse genotypes across Switzerland and thus has the potential to adapt to local conditions through gene flow. Growth and morphology differed significantly between the two test sites, indicating that local environments should be considered carefully when a new plantation is established. The effect of the single simulated browsing event disappeared over time for the growth traits, owing to growth compensation. However, sapling quality decreased after clipping, suggesting that browsing may lead to persistent quality losses in production forests. Neither the growth nor the morphological reaction after clipping depended on the effect of population, meaning that resilience to browsing was independent of seed source. Consequently, interactions with ungulate browsing do not have to be taken into account when selecting F. sylvatica populations for particular climatic and site conditions.

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Distinct genecological patterns in seedlings ofNorway spruce and silver fir from a mountainous landscape

Cited by 37 publications

References 63 publications

A review and meta‐analysis of intraspecific differences in phenotypic plasticity: Implications to forecast plant responses to climate change

A review and meta‐analysis of intraspecific differences in phenotypic plasticity: Implications to forecast plant responses to climate change

Recovery of Abies alba and Picea abies saplings to browsing and frost damage depends on seed source

Growth and quality of Fagus sylvatica saplings depend on seed source, site, and browsing intensity

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