Your search keyword '"Gömöry, Dušan"' showing total 34 results

1. Genomic variation of European beech reveals signals of local adaptation despite high levels of phenotypic plasticity.

Author

Lazic, Desanka, Geßner, Cornelia, Liepe, Katharina J., Lesur-Kupin, Isabelle, Mader, Malte, Blanc-Jolivet, Céline, Gömöry, Dušan, Liesebach, Mirko, González-Martínez, Santiago C., Fladung, Matthias, Degen, Bernd, and Müller, Niels A.

Subjects

EUROPEAN beech, GENETIC variation, PHENOTYPIC plasticity, FOREST conservation, BODY temperature regulation

Abstract

Local adaptation is key for ecotypic differentiation and species evolution. Understanding underlying genomic patterns can allow the prediction of future maladaptation and ecosystem stability. Here, we report the whole-genome resequencing of 874 individuals from 100 range-wide populations of European beech (Fagus sylvatica L.), an important forest tree species in Europe. We show that genetic variation closely mirrors geography with a clear pattern of isolation-by-distance. Genome-wide analyses for genotype-environment associations (GEAs) identify relatively few potentially adaptive variants after correcting for an overwhelming signal of statistically significant but non-causal GEAs. We characterize the single high confidence genomic region and pinpoint a candidate gene possibly involved in winter temperature adaptation via modulation of spring phenology. Surprisingly, allelic variation at this locus does not result in any apparent fitness differences in a common garden. More generally, reciprocal transplant experiments across large climate distances suggest extensive phenotypic plasticity. Nevertheless, we find indications of polygenic adaptation which may be essential in natural ecosystems. This polygenic signal exhibits broad- and fine-scale variation across the landscape, highlighting the relevance of spatial resolution. In summary, our results emphasize the importance, but also exemplify the complexity, of employing natural genetic variation for forest conservation under climate change. The genomic basis of local adaptation can contribute to predicting species' future maladaptation. This study shows that local adaptation in European beech is genetically complex, with current analyses only skimming the surface of the encoded information, highlighting the need for bigger data. [ABSTRACT FROM AUTHOR]

Published

2024

2. Are there hybrid zones in Fagus sylvatica L. sensu lato?

Author

Hrivnák, Matúš, Krajmerová, Diana, Paule, Ladislav, Zhelev, Petar, Sevik, Hakan, Ivanković, Mladen, Goginashvili, Nana, Paule, Juraj, and Gömöry, Dušan

Subjects

HYBRID zones, EUROPEAN beech, COMPARATIVE genomic hybridization, GENETIC variation, GENE flow, BEECH

Abstract

The complex of beech taxa in western Eurasia (Fagus sylvatica L. s.l.) represents one of the most widespread broad-leaved trees in the temperate forests of the northern hemisphere. Two subspecies are generally recognized, F. sylvatica ssp. sylvatica in Europe and F. sylvatica ssp. orientalis in southwestern Asia, but several strongly differentiated regional populations were identified within this complex. To reveal geographical and genomic patterns of hybridization and introgression, genetic variation at 6789 single-nucleotide polymorphisms (SNP) resulting from ddRAD sequencing was studied in 288 specimens representing 207 populations distributed across the whole range. Two clusters resulting from a Bayesian analysis of population Structure well coincided with the subspecies, while increasing the number of clusters allowed to distinguish divergent lineages within subspecies. Two zones of potential hybridization between such lineages were analyzed: western Balkans at the contact of both subspecies and the Alpine area at the contact of populations coming from different glacial refugia. Geographical distribution of hybrid indices in the Balkan hybrid zone indicates asymmetric gene flow preferentially directed from F. orientalis to F. sylvatica. Eight SNPs showed a significant shift of genomic cline centers, seven of them toward excess F. orientalis ancestry, suggesting that introgression irregularly affects different regions of the beech genome. On the other hand, no genomic cline outliers were found in the Alpine hybrid zone. Implications for assisted gene flow are shortly discussed. [ABSTRACT FROM AUTHOR]

Published

2024

3. Pollen viability and longevity in Juniperus taxa native to Slovakia.

Author

Galgóci, Martin, Kormuťák, Andrej, Klobučník, Miroslav, Gömöry, Dušan, Lukáčik, Ivan, and Boleček, Peter

Subjects

POLLEN viability, JUNIPERS, POLLEN tube, SILICA gel, LONGEVITY

Abstract

Pollen viability, dispersion ability and longevity during deep-freezer storage were studied in three Juniperus taxa distributed in Slovakia. All these characteristics of pollen are closely related to the pollination and/or fertilization success of the junipers in nature. Pollen viability varied considerably between the three populations of J. communis and one population of each, J. sibirica and J. communis var. intermedia. Pollen germination rate ranged between 40.75% and 75.06%, and pollen tube length between 30.32 and 40.41 µm. A clear tendency indicates a higher germination rate of J. communis pollen from lower altitudes and reduced germination of J. sibirica and J. communis var. intermedia pollen from higher altitudes. The dispersion potential of the J. communis pollen during its shedding seems relatively low. In 2021, pollen cloud density was diluted at 68.1% at the 4 m distance from the test shrub, in 2022 of 52.1% at the 17 m distance from the pollen source. A deep-freezer storage of juniper pollen in a double-walled polyethylene bag with silica gel was not efficient enough, as indicated by the drop of pollen germination rate of 31.2% in J. communis and of 79.4% in J. sibirica during a 1-year storage period at − 81 °C. [ABSTRACT FROM AUTHOR]

Published

2024

4. From allozymes to NGS: population genetics of forest trees in Slovakia in the past 40 years.

Author

Gömöry, Dušan, Krajmerová, Diana, Hrivnák, Matúš, Longauer, Roman, and Schmidtová, Jarmila

Subjects

*POPULATION genetics, *ISOENZYMES, *MICROSATELLITE repeats, *EUROPEAN beech, *SINGLE nucleotide polymorphisms

Abstract

This review summarizes the development of population genetics and population genomics studies of forest trees in Slovakia during the past 40 years. Various protein and DNA markers have been applied during this period to address several topics in evolutionary genetics and biogeography of trees: allozymes, uniparentally inherited chloroplast and mitochondrial markers, simple sequence repeats and single nucleotide polymorphisms. The main object of studies of phylogeny and postglacial migration were Fagus sylvatica s.l. and eastern-Mediterranean firs (Abies Mill. section Abies), where the divergence of genetic lineages (species and subspecific taxa) in time, as well as colonization of the current ranges during the Holocene were reconstructed. The studies on intraspecific gene flow and homoploid hybridization focused on hybrid swarms Pinus sylvestris/P. mugo and firs. Unusual maternal inheritance of chloroplast DNA was revealed in P. mugo × P. sylvestris crosses. Contrasting geographical structures of hybrid zones were revealed in wind-dispersed vs. animal-dispersed trees. Within the studies of adaptation, signals of selection were identified both in field observations and common-garden experiments on Picea abies, F. sylvatica and A. alba. Perspectives of ongoing research employing next-generation sequencing were shortly outlined. [ABSTRACT FROM AUTHOR]

Published

2021

5. Longevity and germination of Juniperus communis L. pollen after storage.

Author

Kormuťák, Andrej, Bolecek, Peter, Galgóci, Martin, and Gömöry, Dušan

Subjects

GERMINATION, JUNIPERUS communis, POLLEN, POLLINATION, GERMPLASM conservation

Abstract

Pollen storage belongs among the most important activities associated with pollen handling. It overcomes the differences in pollen shedding and ovule receptivity during controlled pollination experiments. It is especially important for species like common juniper (Juniperus communis L.) with an extremely low quality of seeds due to pollination failure. Additionally, it is a substantial part of germplasm preservation programmes in pollen banks. In the present paper, the effect of short-term storage of pollen was studied using pollen samples from five shrubs in an in vitro germination test. Two temperature regimes were tested. The pollen viability of freshly collected pollen varied considerably between individual shrubs, exhibiting 67.3–88.6% germination rate and 248.0–367.3 µm of pollen tubes. Storage at + 4 °C for four months was accompanied by a profound decline in pollen viability. The germination percentage was reduced to 49.2–75.2% and the pollen tube length to 32.5–69.0%, depending on individual shrubs. The corresponding decline in pollen viability characteristics during storage at − 20 °C was only negligible in two of the tested shrubs. In the remaining three shrub samples, an increase in germination percentage was observed. Pollen tube growth responded more sensitively to freezing, but, on average, the decrease in length was lower than that at + 4 °C. The rate of reduction in pollen tube length varied between 11.5 and 45.4%. Cytological events accompanying in vitro germination of freezer-stored pollen exhibited some delay in releasing the exine from pollen grains during the early stages of germination as compared with freshly collected pollen. In conclusion, short-term storage of the common juniper pollen in a freezer is better for the preservation of its viability than storage at + 4 °C. [ABSTRACT FROM AUTHOR]

Published

2021

6. The Balkans: a genetic hotspot but not a universal colonization source for trees.

Author

Gömöry, Dušan, Zhelev, Petar, and Brus, Robert

Abstract

In the context of Europe, the southern peninsulas including the Balkans are considered hotspots of diversity. They preserved substantial parts of tree species and genera occurring in Europe during the Tertiary, as the effects of the Quaternary glaciations on species richness were not as severe here as in more northerly regions. The Balkans also harboured glacial refugia of most European trees, and this was probably the reason for a premature suggestion that this region was the main source for the Holocene recolonization of Central and Eastern Europe. However, studies based on a combination of paleobotanical and genetic evidence showed that this was an exception rather than a rule. In most tree species, the Balkan refugia have not effectively contributed to current gene pools. In spite of this, empirical studies have documented that genetic diversity in the Balkan region is generally higher than elsewhere in Europe, which can be attributed to a high number of refugia in this area harbouring differentiated genetic lineages, and high environmental heterogeneity. This makes the Balkans an important source of genetic material for forestry, especially in the light of the ongoing climate change. [ABSTRACT FROM AUTHOR]

Published

2020

7. Antioxidant enzyme activity in Pinus mugo Turra, P. sylvestris L. and in their putative hybrids.

Author

Kormuťák, Andrej, Galgóci, Martin, Boleček, Peter, and Gömöry, Dušan

Subjects

ANTIOXIDANTS, ENZYME activation, MUGO pine, SCOTS pine, CATALASE, SUPEROXIDE dismutase, REACTIVE oxygen species

Abstract

Specific activity dynamics and isozyme composition of antioxidant enzymes ascorbate peroxidase (APX), catalase (CAT) and superoxide dismutase (SOD) were followed during the vegetation period in the young needles of Pinus mugo Turra, P. sylvestris L. and their putative hybrids. Tested enzymes differed in their dynamics showing the highest APX and CAT activities in the spring and autumn and the highest SOD activity in summer. The outlined course of enzyme activity was characteristic for all the three taxa compared. The level of specific enzyme activities was relatively constant in investigated taxa reaching statistical significance in some months of the scored period only. The same was true of the antioxidant enzyme activities of P. mugo individuals growing at different altitudes. Of the enzymes assayed, catalase was the most active. Hybrid individuals exhibited prevailingly intermediate level of their enzyme activity compared to the parental species. The dynamics of SOD correlated with intensity of UV irradiation during vegetation period. Partial correlation was observed between specific enzyme activities and isozyme composition. [ABSTRACT FROM AUTHOR]

Published

2019

8. Variation in the performance and thermostability of photosystem II in European beech (Fagus sylvatica L.) provenances is influenced more by acclimation than by adaptation.

Author

Kurjak, Daniel, Konôpková, Alena, Kmeť, Jaroslav, Macková, Miroslava, Frýdl, Josef, Živčák, Marek, Palmroth, Sari, Ditmarová, Ľubica, and Gömöry, Dušan

Subjects

EUROPEAN beech, PHOTOSYSTEMS, ACCLIMATIZATION (Plants), PLANT adaptation, CLIMATE change, PLANT competition

Abstract

The assisted migration of resistant seeds and seedlings may be a key to mitigating the effects of climate change on the productivity and composition of forest ecosystems. These efforts require an understanding of the intraspecific variability in the response of trees to extreme weather events such as heat waves. In this study, we assessed the geographical patterns of photosystem II (PSII) performance and thermostability in European beech (Fagus sylvatica L.) and whether intraspecific differences are associated with climate of origin. Two provenance trials with starkly contrasting climates were used for this study. Leaves were sampled both before and after natural heat stress exposure. Rapid chlorophyll fluorescence kinetics was used to evaluate PSII performance and PSII thermostability after simulated heat stress. The performance of PSII at 30 °C, which is still considered a non-damaging temperature, was generally slightly better at the warmer location than at the colder location. The populations originating closer to the Slovenian refugium, as well as those growing closer to their site of origin, showed better performance of PSII but not greater thermostability. The effect of simulated heat stress was much stronger in the colder plots compared to the warmer plots, but only for previously stressed trees. Likewise, we found indicators of geographical patterns of thermotolerance as well as relationships between thermotolerance and climate of origin mostly for trees exposed to natural heat. While the origin of provenances partly explained the variation among provenances, acclimation driven by climate played a major role in the response to heat stress. In beech, PSII seems to have a potential for coping with high temperature. [ABSTRACT FROM AUTHOR]

Published

2019

9. Small genome size variation across the range of European beech (<italic>Fagus sylvatica</italic>).

Author

Paule, Juraj, Paule, Ladislav, and Gömöry, Dušan

Subjects

EUROPEAN beech, PLANT genomes, PLANT variation, FLUOROPHORES, TEMPERATURE measurements

Abstract

Interpopulation variation of relative and absolute genome size was studied in Fagus sylvatica subsp. sylvatica and subsp. orientalis. The study included 18 populations of beech planted in a common-garden experiment in central Slovakia and three additional populations from the Caucasus. Nuclear DNA content was determined by means of flow cytometry using the AT-specific fluorochrome 4′,6-diamidino-2-phenylindole and non-specific propidium iodide, and its associations with climate, growth, phenology and physiological traits were assessed. The approximate average nuclear DNA content (2C) across all samples was 1.178 ± 0.020 pg. The lowest mean relative genome sizes were observed in the Alpine range, whereas they increased toward the range margins; no clear trend was observed for 2C values. Temperature seasonality and temperature annual range were found to be negatively associated with genome size. Among phenotypic traits, the maximum chlorophyll a fluorescence yield (Fv/Fm) was found to be negatively correlated with relative genome size, whereas phenology and some photosynthetic parameters were correlated with the 2C values. [ABSTRACT FROM AUTHOR]

Published

2018

10. Differences in photochemistry and response to heat stress between silver fir (<italic>Abies alba</italic> Mill.) provenances.

Author

Konôpková, Alena, Kurjak, Daniel, Kmeť, Jaroslav, Klumpp, Raphael, Longauer, Roman, Ditmarová, Ľubica, and Gömöry, Dušan

Abstract

Key message: The acclimation of silver fir to the conditions of the plantation sites has greater influence on PSII thermostability and performance than does on local adaptation.Abstract: Forest ecosystems are frequently exposed to heat stress, which adversely affects their growth, performance, and ultimately survival. The knowledge of physiological responses to heat can help mitigate the effects of climate change by facilitating the choosing of suitable reproductive material for future reforestation programs. However, the intraspecific variation of adaptive traits, including the response to heat, has not been well documented. Therefore, we attempted to determine how PSII photochemistry of different silver fir (Abies alba Mill.) provenances varies in responses to heat stress and to reveal if intraspecific variation in PSII performance and thermostability is more affected by the climate of provenance origin or the plantation site. We tested 17 fir provenances sampled at two contrasting international provenance trial sites: Hertník in Slovakia (390 m a.s.l.) and Kaprun in Austria (1100 m a.s.l.). Short-term heat stress was simulated for seven temperatures ranging from 20 to 51 °C using a water bath. The PSII thermotolerance was assessed via parameters of chlorophyll a fluorescence derived from the OKJIP transient. We observed several climatic variables of the provenances that significantly affected the photochemistry performance and thermostability of PSII, reflecting an additive hereditary basis. Almost all measured parameters varied significantly between trial plots and showed significant trial-by-provenance interactions pointing to acclimation triggered by the different conditions at the trial plots. Overall, the performance of PSII under non-stressing conditions and after heat treatment was better for provenances growing at the warmer trial site at Hertník. [ABSTRACT FROM AUTHOR]

Published

2018

11. Effects of cadmium and lead stress on somatic embryogenesis of coniferous species. Part I: Evaluation of the genotype-dependent response.

Author

Đorđević, Biljana, Krajňáková, Jana, Hampel, David, Gömöry, Dušan, and Havel, Ladislav

Abstract

Somatic embryogenesis is an important biotechnological tool that has significant potential to be used in studies related to environmental stress. In this study, embryogenic cell masses of Abies alba and Picea abies were grown on media enriched with 50-500 µM cadmium (Cd) or lead (Pb). The effects of cadmium and lead were evaluated during the subsequent stages of somatic embryogenesis: proliferation, maturation, and germination. The following characteristics were evaluated: proliferation potential, cell viability, average number of somatic embryos obtained per 1 g of fresh weight, and morphology of the developed somatic embryos. The tested heavy metals significantly reduced the proliferation rate of A. alba and P. abies embryogenic cell masses. The highest tested cadmium concentration markedly slowed or stopped the growth of embryogenic cell masses in both species. Unexpectedly, the proliferation ratio remained fairly high for the P. abies cell lines treated with lead at all concentrations tested. During the maturation stage, the total number of somatic embryos declined under cadmium exposure. The formation of early precotyledonary and cotyledonary somatic embryos in both species was similarly reduced, although cadmium caused a higher death rate and was more toxic than lead. To the best of our knowledge, this is the first report to study the effects of heavy metals on A. alba embryogenic cell masses during the proliferation stage as well as on the maturation and germination processes of both species. This in vitro system can be used for testing the response of large sets of genotypes, and the best performing lines can be used in the future for in vivo performance tests of heavy metal-polluted soils. [ABSTRACT FROM AUTHOR]

Published

2017

12. Nucleotide polymorphisms associated with climate, phenology and physiological traits in European beech ( Fagus sylvatica L.).

Author

Krajmerová, Diana, Hrivnák, Matúš, Ditmarová, Ľubica, Jamnická, Gabriela, Kmeť, Jaroslav, Kurjak, Daniel, and Gömöry, Dušan

Subjects

SINGLE nucleotide polymorphisms, CLIMATE change, DROUGHT tolerance, MICROSATELLITE repeats in plants, ARABIDOPSIS

Abstract

Although European beech ( Fagus sylvatica L.) is one of the most widespread and ecologically and commercially most important deciduous trees in Europe, little is known about its adaptive genetic variation. We explored single-nucleotide polymorphism (SNP) variation in candidate genes for budburst and drought resistance in beech populations sampled across most of the distribution range, represented in an international provenance trial. SNP variation was monitored for six candidate genes, in 114 individuals from 19 natural populations. Population structure was deduced from the analysis of 20 nuclear microsatellite markers. Different methods to detect imprints of natural selection were used ( F -outlier, SNP-climate regression, association tests). The F -outlier approach identified the COV gene with unambiguous signal of selection, which is an orthologue of Arabidopsis gene for a membrane protein previously reported as phenology-related. Based on environmental association analysis at the population level, the dehydrin gene was found associated with drought-related climatic variables. At the individual level, dehydrin gene also showed a significant association with chlorophyll fluorescence parameters, which are considered stress markers. The importance of the knowledge of physiological variation and geographical patterns of adaptive genetic variation for guiding reproductive materials transfer under climate change is stressed. [ABSTRACT FROM AUTHOR]

Published

2017

13. Biotechnology Tools for Conservation of the Biodiversity of European and Mediterranean Abies Species.

Author

Krajňáková, Jana, Gömöry, Dušan, and Häggman, Hely

Published

2014

14. Differentiation in phenological and physiological traits in European beech ( Fagus sylvatica L.).

Author

Gömöry, Dušan, Ditmarová, Ľubica, Hrivnák, Matúš, Jamnická, Gabriela, Kmeť, Jaroslav, Krajmerová, Diana, and Kurjak, Daniel

Subjects

*FOREST regeneration, *CLIMATE change research, *EUROPEAN beech, *PLANT phenology, *PLANT physiology research

Abstract

The knowledge of the extent of local adaptation is essential for forest reproductive material transfer, designing gene conservation programs and measures for mitigation of the ongoing climate change. A common methodology for assessing selection underlying local adaptation is the comparison of differentiation at neutral markers (measured by F) against quantitative traits (measured by Q). We investigated differentiation in phenology, height and diameter growth, and parameters of photosynthesis and water regime in a widespread European broadleaved tree, European beech ( Fagus sylvatica L.). As the assessment of Q requires known pedigree structure of the tested populations, it was approximated by the coefficient of phenotypic differentiation P. For all phenology traits, especially budburst timing, there is a strong and reliable evidence of local adaptation as indicated by P > F. On the other hand, P was generally smaller than F for most growth and physiological traits, but the evidence for uniform selection or canalization acting at genes underlying these traits is generally absent or weak. Possible heritable basis of phenological differentiation is discussed, and implications for the current EU legislation on forest reproductive material are drawn. [ABSTRACT FROM AUTHOR]

Published

2015

15. Genetic status of the putative hybrid swarms of mountain dwarf pine and Scots pine in contact zones of their distribution in Slovakia.

Author

MAŇKA, Peter, KORMUŤÁK, Andrej, GALGÓCI, Martin, and GÖMÖRY, Dušan

Published

2015

16. Memory effects associated with early-growth environment in Norway spruce and European larch.

Author

Gömöry, Dušan, Foffová, Elena, Longauer, Roman, and Krajmerová, Diana

Subjects

*NORWAY spruce, *EUROPEAN larch, *PLANT growth, *PHOTOPERIODISM, *PLANTS, *EFFECT of temperature on plants, *FLOWERING time

Abstract

Field and indoor experiments demonstrated that conifer progenies possess a memory of temperature and photoperiod during female flowering and seed development, expressed in the timing of vegetative processes and frost hardiness, while these memory effects persist at least several years. To find out whether such carryover effects can also be provoked by climatic conditions during germination and early growth, we organized a nursery experiment where different Norway spruce and European larch provenances (10 and 12, respectively) were grown in two climatically contrasting nurseries and were reciprocally transplanted after the first year. Budburst phenology was scored 2 years after replanting. In Norway spruce, plants grown during the first year at the warm site consistently flushed later in both nurseries than those grown under cold climate, the difference ranged between 2.6 and 7.1 days for different provenances. In European larch, this was true only for plants scored in the warm nursery. In the cold nursery, the transferred material of low-altitude provenances flushed earlier but that of high-altitude provenances flushed later than the non-transferred plants of the same provenance. Plants also exhibited differences in budburst duration, which again were not consistent between species and provenances. The presented results give a strong indication for an epigenetic basis of the observed shifts in spring phenology, which may be important for nursery management, reforestation and afforestation. [ABSTRACT FROM AUTHOR]

Published

2015

17. Species Richness Pattern along Altitudinal Gradient in Central European Beech Forests.

Author

Hrivnák, Richard, Gömöry, Dušan, Slezák, Michal, Ujházy, Karol, Hédl, Radim, Jarčuška, Benjamín, and Ujházyová, Mariana

Subjects

*FORESTS & forestry, *EUROPEAN beech, *SPECIES diversity, *PLANT canopies, *PLANT species

Abstract

The unimodal species richness-altitude distribution pattern seems to be universal. To investigate the validity of this phenomenon in homogeneous substrate and vegetation conditions, we sampled beech-dominated forests in five volcanic mountain ranges in the Western Carpathians. European beech ( Fagus sylvatica L.) formed monodominant closed-canopy stands at altitudes from 300 to 1,200 m. Along this gradient, the influence of beech on understory plant species richness was expected to be strong and uniform. The shape of the species richness-altitude relationship was analyzed for three datasets: herb layer, shrub layer, and both layers merged together. Contrary to prediction, the studied species richness-altitude relationship was inversely unimodal, with a minimum at intermediate altitudes. Quadratic regression models were statistically significant for all three datasets ( P<0.001) and the explained variability ranged from 12 % to 20 %. The possible explanation for the observed pattern is twofold. In the central part of the altitudinal gradient, low species richness is due to strong competition by monodominant beech with accumulation of leaf litter and uptake soil resources, mainly water. This influence is somewhat released towards the margins of the gradient. Secondly, the species pool from the neighbouring communities increases species richness only in the lower parts of the altitudinal gradient. [ABSTRACT FROM AUTHOR]

Published

2014

18. Initiation, long-term cryopreservation, and recovery of Abies alba Mill. embryogenic cell lines.

Author

Krajňáková, Jana, Bertolini, Alberto, Gömöry, Dušan, Vianello, Angelo, and Häggman, Hely

Subjects

CRYOPRESERVATION of organs, tissues, etc., SILVER fir, CELL lines, SOMATIC embryogenesis, VEGETATIVE propagation, PLANT embryology

Abstract

Somatic embryogenesis of Abies alba (Mill.) has significant potential to become an effective method for vegetative propagation of this species. To induce somatic embryogenesis in A. alba, the influence of the mother tree, sampling dates, and cold treatment storage of cones were examined. The initiation frequencies ranged from 1.7% to 16.6%. The sampling date and cone storage, but not the mother tree, had a significant effect on the initiation of embryogenic cultures. Storage of embryogenic cell lines was tested through cryopreservation for 6 yr. Four out of 12 cryostored embryogenic cell lines recovered, and the regeneration of cotyledonary embryos was obtained with two cell lines. The ability of embryogenic cell masses to produce somatic embryos and the mean number of cotyledonary embryos were higher when the maturation protocol was based on embryogenic suspensions dispersed on filter paper. The properly developed germinants were obtained only from maturation media where 32 μM abscisic acid was used, being 16.2% when polyethylene glycol (PEG) was not present and 1.8% when supplemented with 10% ( w/ v) PEG, respectively. The present study provides evidence that it is possible to cryopreserve A. alba embryogenic cultures while maintaining their maturing ability for the lengthy period (6 yr) needed for progeny testing of field-grown trees. Therefore, our findings are important for further studies and advanced breeding work of the species; however, the conversion of germinants into ex vitro conditions still remains a significant challenge. [ABSTRACT FROM AUTHOR]

Published

2013

19. Artificial hybridization of some Abies species.

Author

Kormutak, Andrej, Vooková, Božena, Čamek, Vladimír, Salaj, Terézia, Galgóci, Martin, Maňka, Peter, Boleček, Peter, Kuna, Roman, Kobliha, Jaroslav, Lukáčik, Ivan, and Gömöry, Dušan

Subjects

PLANT hybridization, SILVER fir, CAUCASIAN fir, GAMETOPHYTES, SELF-fertilization of plants, SELF-pollination, COMPETITION (Biology), CYTOLOGY

Abstract

Crossability relationships between six species of the Mediterranean, North American and Asian firs was tested using Abies alba and A. nordmanniana as female parents and A. alba, A. numidica, A. procera, A. grandis, and A. holophylla as pollen parents. An overwhelming majority of the crosses attempted was found to be compatible. In particular, it is true of the A. alba cross with A. numidica and those of A. nordmanniana with A. alba, A. numidica, A. procera, and A. holophylla. The crossing A. nordmanniana × A. grandis was the only exception producing empty seeds. Cytological study revealed the gametophytic incompatibility to be responsible for reproductive isolation of these species. At seedling level, all the interspecific crosses of A. nordmanniana surpassed in height growth self-pollinated control. The cross A. alba × A. numidica was comparable in this respect with control variants from open and self-pollination. Except for height growth, some characteristics of needle stomata are provided for individual crosses. The crosses A. nordmanniana with A. procera and A. holophylla represent unique interspecific combinations whose existence has not been reported yet. Based on needle stomata characteristics, the potential for increased resistance and drought tolerance of the hybrids with A. numidica involved as parental species is discussed. [ABSTRACT FROM AUTHOR]

Published

2013

20. Nucleotide polymorphisms related to altitude and physiological traits in contrasting provenances of Norway spruce ( Picea abies).

Author

Romšáková, Ivana, Foffová, Elena, Kmeť, Jaroslav, Longauer, Roman, Pacalaj, Marian, and Gömöry, Dušan

Published

2012

21. Effects of different ectomycorrhizal fungi on somatic embryogenesis of Abies cephalonica Loud.

Author

Krajňáková, Jana, Niemi, Karoliina, Gömöry, Dušan, and Häggman, Hely

Abstract

The effects of ectomycorrhizal (ECM) fungi, including Laccaria bicolor (Maire) Orton, Laccaria laccata (Scop., Fr.) Berk. and Br., along with two strains of Pisolithus tinctorius (Pers.) Coker and Couch, on the proliferation and subsequent maturation of two embryogenic cell lines of Abies cephalonica Loud., designated lines 6 and 8, were investigated. In the presence of these ECM fungi, the proliferation of both embryogenic cell lines was inhibited. L. bicolor and P. tinctorius strain 2 resulted in the highest inhibition rates. On the other hand, cultivation of embryogenic cultures along with ECM fungi, termed a dual culture, increased radial growth of both P. tinctorius strains; whereas, L. bicolor and L. laccata did not grow as well in the presence of embryogenic cell masses. The dual culture during the proliferation period of embryogenic cells, however, enhanced the subsequent embryo formation and maturation of A. cephalonica; i.e. the capability of embryogenic cell lines to form somatic embryos as well as increasing the mean number of somatic embryos per 1 g fresh weight of embryogenic cell mass. However, levels of responses were highly dependent on the interaction between the specific embryogenic cell line and fungal strain. [ABSTRACT FROM AUTHOR]

Published

2012

22. Admixture of genetic lineages of different glacial origin: a case study of Abies alba Mill. in the Carpathians.

Author

Gömöry, Dušan, Paule, Ladislav, Krajmerová, Diana, Romšáková, Ivana, and Longauer, Roman

Subjects

*PLANT population genetics, *SILVER fir, *MICROSATELLITE repeats in plants, *PLANT mitochondria, *BAYESIAN analysis, *HAPLOTYPES, *POLLEN, *PLANT diversity

Abstract

Genetic exchange between divergent lineages of silver fir ( Abies alba Mill.) was studied in the Ukrainian Carpathians where two expanding populations originating from different glacial refugia meet. The study included 33 silver fir populations from Ukraine, Romania and Slovakia which were investigated using the maternally inherited mitochondrial nad5- 4 marker and biparentally inherited nuclear microsatellites. The boundary between mitochondrial lineages is very sharp; only six populations containing a mixture of different haplotypes were found. Bayesian analysis of population structure based on seven nSSR loci revealed the existence of two clusters which coincided fairly well with mitochondrial lineages. Both haplotype frequencies and proportions of clusters identified by the Bayesian analysis exhibited a clinal transition over the contact zone, with cline widths of 17.6 km for mitochondrial haplotype frequencies (reflecting gene flow by seeds) and 119.6 km for Bayesian clusters based on nSSR (reflecting gene flow by pollen). Allelic richness and gene diversity differ significantly between mitochondrial lineages, the Balkan group being more variable, but an increase in gene diversity towards the boundary between lineages was observed only within the Balkan lineage. The observed patterns are suggested to reflect the postglacial colonization and historical gene flow. They demonstrated that in silver fir as a wind-dispersed species, the colonization front is quite continuous, and the survival of migrant seeds in already established populations is low. The relative contribution of pollen-mediated gene flow to genetic exchange between divergent lineages associated with glacial refugia is much higher than in the case of seeds, but pollen dispersal distance is lower than suggested by earlier studies. [ABSTRACT FROM AUTHOR]

Published

2012

23. Adaptation to common optimum in different populations of Norway spruce ( Picea abies Karst.).

Author

Gömöry, Dušan, Longauer, Roman, Hlásny, Tomáš, Pacalaj, Marián, Strmeň, Slavomír, and Krajmerová, Diana

Subjects

*NORWAY spruce, *VEGETATION & climate, *PRECIPITATION variability, *BIOLOGICAL adaptation, *PROVENANCE trials

Abstract

Responses of Norway spruce populations to climatic transfer, in terms of growth and survival, were analyzed on the basis of a provenance experiment derived from the international provenance test IUFRO 1964/1968. The experiment comprises a series of five trial plots situated at contrasting elevations ranging from 484 to 1,275 m a.s.l., with 11 provenances represented at all trial plots that were used for the analysis. Transfer rates were defined as differences in altitudes or climatic variables between the site of plantation and the site of origin. Optimal transfer rates and optimal climates for individual provenances were derived from quadratic response functions. Spruce provenances generally responded positively by height and volume growth to transfer into lower altitudes, i.e., warmer conditions with less precipitations. The analysis at the level of provenances showed that optimal transfer rates were consistently negatively correlated with the underlying environmental variables and optimal climates were consequently nearly the same for all provenances irrespective of the response traits and ecodistance variables. Stability indices based on joint regression analysis indicate that provenances from higher altitudes, colder and wetter climates tend to be more stable, whereas provenances from lower altitudes, drier and warmer sites are more responsive to site quality. However, the differences in the stability are small and stability indices were generally close to 1. The results indicate that populations in different climates remain adapted to a common optimum and the extent of local adaptation is quite limited. Possible explanations of this observation are briefly discussed. [ABSTRACT FROM AUTHOR]

Published

2012

24. Soil microbial characteristics at the monitoring plots on windthrow areas of the Tatra National Park (Slovakia): their assessment as environmental indicators.

Author

G&;#x00F6;möryová, Erika, Střelcová, Katarína, Fleischer, Peter, and Gömöry, Dušan

Subjects

SOIL microbiology, WINDFALL (Forestry), VEGETATION monitoring, FOREST soils, BIOINDICATORS, BIOMINERALIZATION, TATRANSKY narodny park (Slovakia)

Abstract

This study focused on the responses of soil microorganisms to different management regimes on disturbed windthrow areas. Microbial parameters potentially serving as indicators of environmental changes within a long-term monitoring of forest development after large-scale disturbance events were assessed. Basal and substrate-induced respiration, N mineralisation, catalase activity, microbial biomass as well as functional diversity based on Biolog assay were determined in soil samples from three disturbed plots and an undisturbed reference plot in the Tatra National Park (Slovakia) since 2006. A relative congruence of inter-annual trends of microbial activity indicators at all plots results from a common response of microbiota to changes of climate at the landscape level after forest stands were destroyed. While catalase activity and functional diversity proved to be useful indicators of temporal trends, microbial biomass seems to reflect different management regimes at the disturbed plots. [ABSTRACT FROM AUTHOR]

Published

2011

25. Genetic differentiation of Sorbus torminalis in Eastern Europe as determined by microsatellite markers.

Author

Kučerová, Veronika, Honec, Martin, Paule, Ladislav, Zhelev, Petar, and Gömöry, Dušan

Published

2010

26. Reticulate evolution patterns in western-Eurasian beeches.

Author

Gömöry, Dušan and Paule, Ladislav

Abstract

Copyright of Botanica Helvetica is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2010

27. Across-species patterns of genetic variation in forest trees of Central Europe.

Author

Gömöry, Dušan, Longauer, Roman, Paule, Ladislav, Krajmerová, Diana, and Schmidtová, Jarmila

Subjects

PLANT physiology & genetics, FOREST genetics, PHYTOGEOGRAPHY, ISOENZYMES, NORWAY spruce, SILVER fir, EUROPEAN beech, DURMAST oak, MOLECULAR genetics, HETEROZYGOSITY

Abstract

The study focuses on geographical patterns of genetic variation at allozyme loci common for four main tree species of Central Europe (Norway spruce, silver fir, common beech and sessile oak). Moving-window averaging of four indicators of allelic richness and diversity (proportion of polymorphic loci, mean number of alleles per locus, effective number of alleles and expected heterozygosity) with window size of 50 × 50 km was used to identify the patterns. Moreover, local genetic divergence was assessed using the G ST (Nei, Molecular population genetic and evolution, Amsterdam and Oxford, North-Holland, ) and D j (Gregorius and Roberds, Theor Appl Genet 71:826–834, ) statistics for common beech and silver fir, where raw genotype data were available. Spatial patterns of diversity and allelic richness were quite similar. Romanian Carpathians were identified as the most important hotspot of genetic diversity and evolutionary divergence in Central Europe. Implications for genetic conservation are briefly discussed. [ABSTRACT FROM AUTHOR]

Published

2010

28. Effect of alginite amendment on microbial activity and soil water content in forest soils.

Author

Gömöryová, Erika, Vass, Dionýz, Pichler, Viliam, and Gömöry, Dušan

Published

2009

29. Seed rain and environmental controls on invasion of Picea abies into grassland.

Author

Dovčiak, Martin, Hrivnák, Richard, Ujházy, Karol, and Gömöry, Dušan

Subjects

GRASSLAND conservation, NORWAY spruce, LAND use, ENVIRONMENTAL engineering, ECOTONES, MOUNTAIN meadows, NATURE conservation, GERMINATION, CONSERVATION of natural resources

Abstract

Although changes in land-use, climate, and the spread of introduced tree species have increased the global importance of tree invasions into grasslands, our ability to predict any particular invasion is limited. To elucidate mechanisms driving tree invasions of grasslands, we studied in detail how seed dispersal and fine-scale environment control the expansion of an introduced Picea abies Karst. (Norway spruce) population into Western Carpathian grassland. We mapped invading trees and measured tree size, fecundity, seed rain, seedling density, plant community composition, and light and soil environment within a 200 × 60 m belt across the invasion front. Maximum likelihood estimates of dispersal kernels suggested peak seed deposition directly underneath tree crowns where germination was poor, but mean dispersal distances were sufficiently large to generate overlapping seed shadows from multiple trees that saturated the invasion front with seeds further away from seed-dispersing trees. Partial Mantel tests indicated that germinant density was affected considerably less by seed rain than by moss cover ( r = 0.54), overstory tree influence ( r = −0.32), soil moisture ( r = 0.21), grass cover ( r = −0.15), and diffuse radiation ( r = 0.13). However, these variables were not independent but formed complex multivariate gradients within the invasion front. Moss cover and soil moisture were negatively correlated with overstory tree influence and the resulting gradient clearly affected germinant density (partial Mantel r = 0.45). In contrast, positively correlated light and grass cover defined a gradient related weakly to germinant density (partial Mantel r = 0.05) as it integrated opposing effects of these variables on germinants. Seedlings had similar environmental associations, but except for the lasting positive effects of moss these tended to weaken with seedling size. Although a few seedlings may establish and survive in the more adverse environment of the outer edges of the invasion front, a significant population expansion may require a gradual build-up of the critical density of invading trees to reduce grass cover and facilitate germination on moist mossy seedbeds within uncolonized areas. Thus, Picea abies appears more likely to spread within temperate grasslands by gradual expansion of its population frontier rather than by advanced groups. [ABSTRACT FROM AUTHOR]

Published

2008

30. Spatial genotypical diversity of Sesleria albicans (Poaceae) in a dry grassland community.

Author

Janišová, Monika and Gömöry, Dušan

Published

2007

31. Spatial patterns of soil microbial characteristics and soil moisture in a natural beech forest.

Author

Gömöryová, Erika, Gregor, Juraj, Pichler, Viliam, and Gömöry, Dušan

Published

2006

32. Genetic differentiation of oak populations within the Quercus robur/Quercus petraea complex in Central and Eastern Europe.

Author

Gömöry, Dušan, Yakovlev, Igor, Zhelev, Petar, Jedináková, Jarmila, and Paule, Ladislav

Subjects

*DURMAST oak, *ENGLISH oak, *ISOENZYMES

Abstract

Genetic structure of 25 indigenous populations of sessile and pedunculate oaks (Quercus petraea and Q. robur), originating from three geographical regions: Slovakia, Bulgaria and the Republic Mari-El (Russia), was investigated using isozyme markers. Mean number of alleles per locus ranged between 1.8 and 2.6 in Q. robur populations and from 2.0 to 3.0 in Q. petraea populations; slightly higher expected heterozygosity values were found in Q. robur compared to Q. petraea. One locus, coding for a substrate-nonspecific dehydrogenase, differentiated the two species. The interspecific component of gene diversity was 46.7% at this locus, compared to 0.4–7.8% at the remaining loci. [ABSTRACT FROM AUTHOR]

Published

2001

33. Genetic variation of a widespread subdominant tree species (Acer campestre L.) in Bosnia and Herzegovina.

Author

Kvesić, Stjepan, Hodžić, Mirzeta Memišević, Ballian, Dalibor, Gömöry, Dušan, and Fussi, Barbara

Subjects

GENETIC distance, MAPLE, FOREST conservation, GENE flow, SPECIES, BAYESIAN analysis

Abstract

Tree species of minor commercial importance are mostly neglected both in large-scale genetic surveys and gene conservation programs. Gene conservation measures of forest trees focus on the preservation of intra-species genetic variability, which is a prerequisite of species' adaptive evolutionary potential enabling it to survive unfavourable conditions. Therefore, variation levels within populations as well as inter-population differentiation patterns need to be assessed under various geographical and evolutionary setups. We studied genetic variation of a widespread, but subdominant tree species, Acer campestre L., in 25 populations located close to the rear edge of the Holocene colonisation in Bosnia and Herzegovina at ten nuclear microsatellite loci. Genetic differentiation within this region was very weak, indicating a lack of strong barriers to gene flow despite range fragmentation. In spite of this, significant isolation by distance was revealed, along with isolation by environment related to temperature. We suggest phenological isolation as the explanation of isolation by environment. Moreover, the group of sub-Mediterranean populations appeared to diverge from the interior populations: they exhibit higher gene diversity, form a separate cluster in the neighbour-joining tree based on chord genetic distances, and show different proportions of gene pools identified by the Bayesian analysis of population structure. As the territory under study is located close to several important glacial refugia for tree species, an origin from different refugial populations may explain the pattern of weak but recognisable genetic differentiation between interior and sub-Mediterranean populations. A genetic bottleneck in several sub-Mediterranean populations was attributed to more recent colonisation events. The results suggest that genetic differentiation associated with the origin from different glacial refugia was not erased by gene flow even in rear-edge populations, and needs to be taken into consideration in gene conservation programs. [ABSTRACT FROM AUTHOR]

Published

2020

34. Spatial patterns and effects of invasive plants on soil microbial activity and diversity along river corridors.

Author

Gömöryová, Erika, Hrivnák, Richard, Galvánek, Dobromil, Kochjarová, Judita, Skokanová, Katarína, Slezák, Michal, Svitková, Ivana, Šingliarová, Barbora, Španiel, Stanislav, and Gömöry, Dušan

Subjects

*BIOLOGICAL systems, *MICROBIAL diversity, *PLANT diversity, *INVASIVE plants, *INTRODUCED plants, *PLANT dispersal

Abstract

Background and aims: Invasive species represent a threat to the conservation of biological systems. Riparian ecosystems are vulnerable to plant invasions, as waterflow facilitates the dispersal of plant propagules, while invasive species may subsequently impact soil, including soil microbial communities. Downstream connectivity among disparate riverine segments is expected to cause spatial continuity of abiotic and biotic components of riparian ecosystems.We studied diversity of microbial communities in three headwater streams in Central Europe. Plant diversity, soil properties and soil microbiota were assessed on 20 sample plots per river. Soil microbial activity and community-level physiological profiling were used to study the soil microbial community.While the α-diversity of plants and soil microbiota was similar among rivers, plant communities were substantially more differentiated than microbial communities. Richness in alien and invasive plants significantly differed among rivers, which was reflected in different spatial patterns of microbial activity and diversity. A high level of spatial continuity was observed in the Kysuca river with straightened riverbed and artificial surfaces in the adjacent areas. The cover of invasive plants affects the composition of microbial functional groups of riverbed soils.The expectation of spatial continuity of riverbed soil properties including those of soil microbiota caused by connectivity between different river segments was only partially fulfilled. Spatial continuity strongly depends on the environmental setting and stream characteristics of a particular river. The presence of invasive herbs affected the functional composition of soil microbiota but had no effect on microbial activity and diversity.Methods: Invasive species represent a threat to the conservation of biological systems. Riparian ecosystems are vulnerable to plant invasions, as waterflow facilitates the dispersal of plant propagules, while invasive species may subsequently impact soil, including soil microbial communities. Downstream connectivity among disparate riverine segments is expected to cause spatial continuity of abiotic and biotic components of riparian ecosystems.We studied diversity of microbial communities in three headwater streams in Central Europe. Plant diversity, soil properties and soil microbiota were assessed on 20 sample plots per river. Soil microbial activity and community-level physiological profiling were used to study the soil microbial community.While the α-diversity of plants and soil microbiota was similar among rivers, plant communities were substantially more differentiated than microbial communities. Richness in alien and invasive plants significantly differed among rivers, which was reflected in different spatial patterns of microbial activity and diversity. A high level of spatial continuity was observed in the Kysuca river with straightened riverbed and artificial surfaces in the adjacent areas. The cover of invasive plants affects the composition of microbial functional groups of riverbed soils.The expectation of spatial continuity of riverbed soil properties including those of soil microbiota caused by connectivity between different river segments was only partially fulfilled. Spatial continuity strongly depends on the environmental setting and stream characteristics of a particular river. The presence of invasive herbs affected the functional composition of soil microbiota but had no effect on microbial activity and diversity.Results: Invasive species represent a threat to the conservation of biological systems. Riparian ecosystems are vulnerable to plant invasions, as waterflow facilitates the dispersal of plant propagules, while invasive species may subsequently impact soil, including soil microbial communities. Downstream connectivity among disparate riverine segments is expected to cause spatial continuity of abiotic and biotic components of riparian ecosystems.We studied diversity of microbial communities in three headwater streams in Central Europe. Plant diversity, soil properties and soil microbiota were assessed on 20 sample plots per river. Soil microbial activity and community-level physiological profiling were used to study the soil microbial community.While the α-diversity of plants and soil microbiota was similar among rivers, plant communities were substantially more differentiated than microbial communities. Richness in alien and invasive plants significantly differed among rivers, which was reflected in different spatial patterns of microbial activity and diversity. A high level of spatial continuity was observed in the Kysuca river with straightened riverbed and artificial surfaces in the adjacent areas. The cover of invasive plants affects the composition of microbial functional groups of riverbed soils.The expectation of spatial continuity of riverbed soil properties including those of soil microbiota caused by connectivity between different river segments was only partially fulfilled. Spatial continuity strongly depends on the environmental setting and stream characteristics of a particular river. The presence of invasive herbs affected the functional composition of soil microbiota but had no effect on microbial activity and diversity.Conclusion: Invasive species represent a threat to the conservation of biological systems. Riparian ecosystems are vulnerable to plant invasions, as waterflow facilitates the dispersal of plant propagules, while invasive species may subsequently impact soil, including soil microbial communities. Downstream connectivity among disparate riverine segments is expected to cause spatial continuity of abiotic and biotic components of riparian ecosystems.We studied diversity of microbial communities in three headwater streams in Central Europe. Plant diversity, soil properties and soil microbiota were assessed on 20 sample plots per river. Soil microbial activity and community-level physiological profiling were used to study the soil microbial community.While the α-diversity of plants and soil microbiota was similar among rivers, plant communities were substantially more differentiated than microbial communities. Richness in alien and invasive plants significantly differed among rivers, which was reflected in different spatial patterns of microbial activity and diversity. A high level of spatial continuity was observed in the Kysuca river with straightened riverbed and artificial surfaces in the adjacent areas. The cover of invasive plants affects the composition of microbial functional groups of riverbed soils.The expectation of spatial continuity of riverbed soil properties including those of soil microbiota caused by connectivity between different river segments was only partially fulfilled. Spatial continuity strongly depends on the environmental setting and stream characteristics of a particular river. The presence of invasive herbs affected the functional composition of soil microbiota but had no effect on microbial activity and diversity. [ABSTRACT FROM AUTHOR]

Published

2024