Your search keyword '"Stojanova B"' showing total 11 results

1. Cultural ecosystem benefits of urban and peri-urban green infrastructure across different European countries

Author

O’Brien, L., De Vreese, R., Kern, M., Sievänen, T., Stojanova, B., and Atmiş, E.

Published

2017

2. Is plasticity across seasons adaptive in the annual cleistogamous plant Lamium amplexicaule ?

Author

Stojanova, B., Maurice, S., and Cheptou, P.-O.

Published

2016

3. Genetic differentiation and host preference reveal non‐exclusive host races in the generalist parasitic weed Phelipanche ramosa

Author

Stojanova, B, primary, Delourme, R, additional, Duffé, P, additional, Delavault, P, additional, and Simier, P, additional

Published

2019

4. Is plasticity across seasons adaptive in the annual cleistogamous plantLamium amplexicaule?

Author

Stojanova, B., primary, Maurice, S., additional, and Cheptou, P.-O., additional

Published

2016

5. Evolution of competitive ability and the response to nutrient availability: a resurrection study with the calcareous grassland herb, Leontodon hispidus.

Author

Karitter P, Corvers E, Karrenbauer M, March-Salas M, Stojanova B, Ensslin A, Rauschkolb R, Godefroid S, and Scheepens JF

Subjects

Nutrients, Nitrogen metabolism, Phosphorus, Biomass, Soil chemistry, Grassland, Biological Evolution

Abstract

Rapid environmental changes across Europe include warmer and increasingly variable temperatures, changes in soil nutrient availability, and pollinator decline. These abiotic and biotic changes can affect natural plant populations and force them to optimize resource use against competitors. To date, the evolution of competitive ability in the context of changes in nutrient availability remains understudied. In this study, we investigated whether the common calcareous grassland herb Leontodon hispidus recently evolved its competitive ability and response to nutrient availability. We compared ancestors sampled in 1995 and descendants sampled in 2018 and applied a competition treatment in combination with weekly nutrient treatments (no fertilizer, nitrogen, phosphorus, and both). We found evidence for evolution of increased competitive ability, with descendants producing more vegetative biomass than ancestors when grown under competition. Furthermore, supplementing nutrients (especially N) reduced differences in competitive ability between ancestors and descendants, suggesting that nutrients are a limiting factor in interspecific competition, which could be linked to the decreasing nitrogen emissions into the atmosphere since the 1990s. Our study demonstrates rapid contemporary evolution of competitive ability, but also the complexity of the underlying processes of contemporary evolution, and sheds light on the importance of understudied potential selection agents such as nutrient availability., Competing Interests: Declarations. Conflict of interest: The authors declare that they have no conflict of interests. Ethic approval: Not applicable. Consent to participate: Not applicable. Consent for publication: Not applicable., (© 2024. The Author(s).)

Published

2025

6. Competition and drought affect cleistogamy in a non-additive way in the annual ruderal Lamium amplexicaule .

Author

Stojanova B, Eliášová A, and Tureček T

Abstract

Competition affects mixed-mating strategies by limiting available abiotic or biotic resources such as nutrients, water, space, or pollinators. Cleistogamous species produce closed (cleistogamous, CL), obligately selfed, simultaneously with open (chasmogamous, CH), potentially outcrossed flowers. The effects of intraspecific competition on fitness and cleistogamy variation can range from limiting the production of costly CH flowers because of resource limitation, to favouring CH production because of fitness advantages of outcrossed, CH offspring. Moreover, the effects of competition can be altered when it co-occurs with other environmental variations. We grew plants from seven populations of the ruderal Lamium amplexicaule , originating from different climates and habitats, in a common garden experiment combining drought, interspecific competition, and seasonal variation. All these parameters have been shown to influence the degree of cleistogamy in the species on their own. In spring, competition and drought negatively impacted fitness, but the CL proportion only increased when plants were exposed to both treatments combined. We did not observe the same results in autumn, which can be due to non-adaptive phenotypic variation, or to differences in soil compactness between seasons. The observed responses are largely due to phenotypic plasticity, but we also observed phenotypic differentiation between populations for morphological, phenological, and cleistogamy traits, pointing to the existence of different ecotypes. Our data do not support the hypothesis that CL proportion should decrease when resources are scarce, as plants with reduced growth had relatively low CL proportions. We propose that variation in cleistogamy could be an adaptation to pollinator abundance, or to environment-dependent fitness differences between offspring of selfed and outcrossed seeds, two hypotheses worth further investigation. This opens exciting new possibilities for the study of the maintenance of mixed-mating systems using cleistogamous species as models that combine the effects of inbreeding and reproductive costs., Competing Interests: The authors declare no conflicts of interest, (© The Author(s) 2024. Published by Oxford University Press on behalf of the Annals of Botany Company.)

Published

2024

7. Season-dependent effect of cleistogamy in Lamium amplexicaule: flower type origin versus inbreeding status.

Author

Stojanova B, Maurice S, and Cheptou PO

Subjects

Photoperiod, Reproduction, Seasons, Flowers, Inbreeding

Abstract

Premise: Inbreeding depression is traditionally considered a major factor favoring outcrossing in hermaphrodites. Recent experiments have shown that environmental conditions can influence the magnitude of inbreeding depression, but their relevance in natural populations is unclear. To investigate this, we studied the cleistogamous species Lamium amplexicaule, an annual species with individuals experiencing either spring or autumn environmental conditions. In this species, the proportion of cleistogamous/chasmogamous flowers changes according to seasonal cues (e.g., temperature, photoperiod). Our hypothesis was that the plasticity of cleistogamy is an adaptation to seasonal fitness variation in different flower progenies., Methods: To test this hypothesis, we produced the three possible types of progenies through controlled crosses: (1) selfed progeny from cleistogamous flowers; (2) chasmogamous selfed progeny; and (3) chasmogamous outcrossed progeny. Progeny fitness was then measured in a common garden in the two reproduction seasons (autumn and spring)., Results: The results showed that season had a major impact on fitness. The fitness of the different progeny types changed across seasons, indicating that the effect of cleistogamy on progeny performance is season-dependent, consistent with a previous study in a similar environment. Surprisingly, the flower from which the progeny issued (cleistogamous or chasmogamous) had more impact on fitness than the inbred status of the progeny (selfed versus outcrossed), suggesting a potential role of epigenetic processes., Conclusions: The observed patterns of variation were not consistent either with adaptation to environment-dependent inbreeding depression or to variation in resource availability, but were possibly consistent with adaptation to seasonal pollinator activity., (© 2019 Botanical Society of America.)

Published

2020

8. Evolutionary potential of a widespread clonal grass under changing climate.

Author

Stojanova B, Koláříková V, Šurinová M, Klápště J, Hadincová V, and Münzbergová Z

Subjects

Ecosystem, Norway, Selection, Genetic, Biological Evolution, Climate Change, Festuca genetics, Festuca physiology

Abstract

Adaptive responses are probably the most effective long-term responses of populations to climate change, but they require sufficient evolutionary potential upon which selection can act. This requires high genetic variance for the traits under selection and low antagonizing genetic covariances between the different traits. Evolutionary potential estimates are still scarce for long-lived, clonal plants, although these species are predicted to dominate the landscape with climate change. We studied the evolutionary potential of a perennial grass, Festuca rubra, in western Norway, in two controlled environments corresponding to extreme environments in natural populations: cold-dry and warm-wet, the latter being consistent with the climatic predictions for the country. We estimated genetic variances, covariances, selection gradients and response to selection for a wide range of growth, resource acquisition and physiological traits, and compared their estimates between the environments. We showed that the evolutionary potential of F. rubra is high in both environments, and genetic covariances define one main direction along which selection can act with relatively few constraints to selection. The observed response to selection at present is not sufficient to produce genotypes adapted to the predicted climate change under a simple, space for time substitution model. However, the current populations contain genotypes which are pre-adapted to the new climate, especially for growth and resource acquisition traits. Overall, these results suggest that the present populations of the long-lived clonal plant may have sufficient evolutionary potential to withstand long-term climate changes through adaptive responses., (© 2019 European Society For Evolutionary Biology. Journal of Evolutionary Biology © 2019 European Society For Evolutionary Biology.)

Published

2019

9. Adaptive differentiation of Festuca rubra along a climate gradient revealed by molecular markers and quantitative traits.

Author

Stojanova B, Šurinová M, Klápště J, Koláříková V, Hadincová V, and Münzbergová Z

Subjects

Adaptation, Physiological, Genetics, Population, Genotype, Microsatellite Repeats genetics, Phenotype, Selection, Genetic, Climate Change, Festuca physiology, Quantitative Trait, Heritable

Abstract

Species response to climate change is influenced by predictable (selective) and unpredictable (random) evolutionary processes. To understand how climate change will affect present-day species, it is necessary to assess their adaptive potential and distinguish it from the effects of random processes. This will allow predicting how different genotypes will respond to forecasted environmental change. Space for time substitution experiments are an elegant way to test the response of present day populations to climate variation in real time. Here we assess neutral and putatively adaptive variation in 11 populations of Festuca rubra situated along crossed gradients of temperature and moisture using molecular markers and phenotypic measurements, respectively. By comparing population differentiation in putatively neutral molecular markers and phenotypic traits (QST-FST comparisons), we show the existence of adaptive differentiation in phenotypic traits and their plasticity across the climatic gradient. The observed patterns of differentiation are due to the high genotypic and phenotypic differentiation of the populations from the coldest (and wettest) environment. Finally, we observe statistically significant covariation between markers and phenotypic traits, which is likely caused by isolation by adaptation. These results contribute to a better understanding of the current adaptation and evolutionary potential to face climate change of a widespread species. They can also be extrapolated to understand how the studied populations will adjust to upcoming climate change without going through the lengthy process of phenotyping.

Published

2018

10. How Does the Amount and Composition of PM Deposited on Platanus acerifolia Leaves Change Across Different Cities in Europe?

Author

Baldacchini C, Castanheiro A, Maghakyan N, Sgrigna G, Verhelst J, Alonso R, Amorim JH, Bellan P, Bojović DĐ, Breuste J, Bühler O, Cântar IC, Cariñanos P, Carriero G, Churkina G, Dinca L, Esposito R, Gawroński SW, Kern M, Le Thiec D, Moretti M, Ningal T, Rantzoudi EC, Sinjur I, Stojanova B, Aničić Urošević M, Velikova V, Živojinović I, Sahakyan L, Calfapietra C, and Samson R

Subjects

Air Pollution, Cities, Environmental Monitoring, Europe, Particle Size, Plant Leaves chemistry, Air Pollutants, Particulate Matter

Abstract

Particulate matter (PM) deposited on Platanus acerifolia tree leaves has been sampled in the urban areas of 28 European cities, over 20 countries, with the aim of testing leaf deposited particles as indicator of atmospheric PM concentration and composition. Leaves have been collected close to streets characterized by heavy traffic and within urban parks. Leaf surface density, dimensions, and elemental composition of leaf deposited particles have been compared with leaf magnetic content, and discussed in connection with air quality data. The PM quantity and size were mainly dependent on the regional background concentration of particles, while the percentage of iron-based particles emerged as a clear marker of traffic-related pollution in most of the sites. This indicates that Platanus acerifolia is highly suitable to be used in atmospheric PM monitoring studies and that morphological and elemental characteristics of leaf deposited particles, joined with the leaf magnetic content, may successfully allow urban PM source apportionment.

Published

2017

11. Isolation and characterization of microsatellite markers for the cleistogamous species Lamium amplexicaule (Lamiaceae).

Author

Stojanova B, Dubois MP, Maurice S, and Cheptou PO

Abstract

Premise of the Study: Lamium amplexicaule is a cleistogamous plant that produces both closed flowers (obligately self-pollinated) and open flowers (potentially outcrossed). The conditions for the maintenance of such a mating system depend on the outcrossing rate of the open flowers, which can be estimated using neutral microsatellite markers. •, Methods and Results: Forty primer pairs corresponding to microsatellite motifs obtained by coupling multiplex microsatellite enrichment and next-generation sequencing were tested. Thirteen primers amplified with satisfying results. The polymorphism of these markers was studied in four French populations. Allele number varied from one to eight per locus and per population. Heterozygosity levels were significantly lower than those expected under Hardy-Weinberg equilibrium. •, Conclusions: Our results are consistent with a partial self-fertilization pattern. These markers will be used to estimate the outcrossing rate as well as population differentiation in L. amplexicaule.

Published

2013