Pátrání po původu vysokohorských endemických zvonků z okruhu Campanula rotundifolia agg. ve střední Evropě. / Searching for the origin of high-altitude endemic harebells from Campanula rotundifolia agg. in central Europe.

Folbrová, Magdaléna

January 2019

Complex Campanula rotundifolia agg. is rich in endemic species, especially in the high- elevated mountain ranges. Extreme climatic conditions in the subalpine habitats can lead to a convergence in plant's morphology between plants isolated in different mountain ranges. Because of the lack of morphological differentiation, it is very difficult to reconstruct the evolutionary history of bellflowers C. scheuchzeri from the Alps, C. bohemica from the Krkonoše Mountains and C. tatrae from the Western Carpathians. A similarity in morphology and the same ploidy level can suggest vicariance from a large area of an ancestor species. However, regarding the continuous morphological variation, the high-altitudinal endemics could have originated by local adaptation from originally low-land species. DNA-ploidy level and genome size were detected by flow cytometry. Taxonomically important characters were found using multivariate morphometric analysis. The phenotypic plasticity of the taxon C. tatrae was tested by a cultivation experiment. Genetic structure of the studied species was revealed using molecular marker - microsatellites (7 variable primers). Studied taxa were tetraploids, but some possessed different genome size. The morphological differentiation was mainly due to characters like calyx lobes length...

Genetic analysis of Helosciadium repens (Jacq.) W.D.J.Koch populations in Germany - Fundamental research for conservation management

Herden, Tobias

03 February 2020

Crop wild relatives (CWR) are an indispensable and at the same time threatened genetic resources for plant breeding. The study uses wild species related to celery to demonstrate how genetic resources of CWRs can be actively maintained in their natural surroundings (in-situ). Genetic reserves should be designated for long term conservation of selected occurrences. The study presents the selection procedure in detail, aiming at the identification of occurrences and sites suitable for the designation of genetic reserves, the spatial model of a genetic reserve and first practical results of the project. The overall aim of the project is the establishment of a nationwide network of genetic reserves for Apium graveolens, Helosciadium repens, H. nodiflorum and H. inundatum, the four wild celery species native to Germany. Helosciadum repens (Jacq.) W.D.J.Koch is threatened by genetic erosion due to a decline in population numbers and sizes. The loss of any population is an irretrievable loss of diversity and opportunity to enhance crops in the future. Genetic reserves are one way to conserve these populations and their genetic potential. Twenty-seven populations were selected for the analysis in a decision process based on site information. Microsatellites (SSR) were used to elucidate the genetic diversity of German populations. A cluster analysis was performed to see if the individuals form clusters of similarity. For that, a discriminate analysis of principal components (DAPC) was conducted, as the inbreeding index indicated a high number of inbreeding events in the populations and thus discordance with HWE (Hardy-Weinberg equilibrium). The analysis identified six genetic groups, which coincide well with the geographic origin of the analysed plants. The allelic richness (mean counts of alleles per individual per population) was higher in the southern populations compared to the northern ones. This North-South discrepancy was also visible as a high heterogeneity in the cluster assignments in the DAPC analysis. These differences in genetic diversity might be a result of the biogeographic history of Europe, especially the last glacial maximum. For the establishment of genetic reserves, two populations were considered as most important: The population that differs the most from the average genetic composition and the population that represents the average genetic composition of a population the best. The two extremes of differentiation were interpreted as such that the former has a specific adaptation to its local environment, and the latter represents all populations the best. DifferInt was used to analyse the SSR data and validate the differentiation of all populations compared to a pool of populations. However, SSRs are not capable of detecting adaptive traits. Populations were additionally chosen from different eco-geographic units (EGU), to increase the chance of capturing different traits. EGUs (Naturräume) are areas of specific abiotic and biotic features. These features may influence selection pressures and induce local adaptations. Based on site parameters and genetic data, 14 most appropriate wild populations (MAWP) were identified for genetic reserves establishment. For H. repens, two eco-forms are known and described in the literature. Besides their different habitats (terrestrial/semi-terrestrial and aquatic) they can be differentiated by morphological traits. Leave and stolon sizes and flowering behaviour differ significantly. Furthermore, the roots of the aquatic forms do not anchor in soil but on other aquatic plants, wood or roots of trees, while the terrestrial form exhibits a shallow root system network similar to other perennial species. To this end, no genetic analysis was conducted to clarify the phylogenetic status of the putative forms and authors avoided the usage of any specific noun rather than form. The SSR data from the previous study was evaluated, particularly with regards to the two forms. Additionally, an ISSR analysis was conducted, and the data was used to perform a PCA. There was no genetic clustering regarding the two forms neither in the SSR nor in the ISSR data. Nonetheless, the North-South discrepancy in the genetic diversity that was visible in the DAPC plot was confirmed in the PCA of the ISSR data. However, markers may fail to detect quantitative variation for adaptively important traits. As the most obvious difference in the two habitats was the water availability, the adaptation of both forms to drought stress was studied by measuring the relative water content of leaves, system water content and water loss during drought stress conditions. The stomatal index was measured for different water treatment levels. The results indicate that phenotypic plasticity rather than genotypic adaptation is responsible for different H. repens phenotypes.

Helosciadium repens

ecotypes

phenotypic plasticity

Apiaceae

genetic reserve

crop wild relatives

celery

SSR

DAPC

ISSR

genetics

population analysis

conservation

42.47 - Spezielle Botanik: Allgemeines

ddc:570

Etude de la biodiversité des Sargassaceae (Fucales, Phaeophyceae) en milieux tempéré et tropical : écologie, chimiotaxonomie et source de composés bioactifs

Le Lann, Klervi

27 November 2009

Quatre genres de Sargassaceae présentant de forte biomasse en Bretagne et/ou dans le Pacifique Sud ont été choisi comme modèles de cette étude. Les objectifs étant i) de mieux comprendre l'écologie chimique des Sargassaceae en milieu tempéré et en milieu tropical, ii) de rechercher des chimiomarqueurs spécifiques à certaines espèces et iii) de rechercher de molécules potentiellement bioactives. Ainsi, un travail pluridisciplinaire a été entrepris avec l'étude de l'écologie chimique des Sargassaceae, en Bretagne d'une part, via l'étude des variations spatio-temporelles de certains composés de défenses synthétisés par Sargassum muticum, Bifurcaria bifurcata et Cystoseira baccata associé à un suivi écologique de ces espèces et dans le Pacifique Sud d'autre part, via l'étude de ces mêmes composés de défenses au sein de Turbinaria sp. et Sargassum sp provenant de différents sites. Parallèlement, deux études de chimiotaxonomie ont été menées. D'une part sur le genre Turbinaria afin d'identifier un ou des chimiomarqueur(s) permettant de discriminer T. ornata et de T. conoides. Et d'autre part sur B. bifurcata afin de mieux comprendre la répartition géographique des types chimiques existants au sein de cette espèce. Puis, pour répondre au troisième objectif de cette thèse, trois activités biologiques ont été recherchées en priorité au sein des espèces étudiées: la cytotoxicité, l'activité anti-inflammatoire et la neurotoxicité. Les résultats de cette étude ont permis i) de mettre en évidence l'impact des conditions environnementales sur les variables biologiques et écologiques étudiées chez ces espèces en milieu tempéré comme en milieu tropical ; ii) d'identifier l'acide turbinarique comme étant un chimiomarqueur de l'espèce T. conoides et de mettre en évidence l'existence d'écotypes chez B. bifurcata ; iii) de rapporter l'activité anti-phospholipase A2 d'acides gras issus d'algues du Pacifique Sud et l'activité antiradicalaire et antioxydante de l'éléganolone isolée chez B. bifurcata.

[SDV:OT] Life Sciences/Other

[SDV:OT] Sciences du Vivant/Autre

Bifurcaria

Cystoseira

Sargassum

Turbinaria

Bretagne

Pacifique Sud

Ecologie chimique

Composés phénoliques

Fucoxanthine

Acide Turbinarique

Ecotypes

Acides gras

Eleganolone

Activité antioxydante

Activité antiradicalaire

Activité anti-inflammatoire

Activité cytotoxique

Activité neurotoxique

Biosystematic studies in the family Cyperaceae / Biosystematic studies in the family Cyperaceae

KOŠNAR, Jan

January 2013

The thesis was focused on the microevolutionary mechanisms that contribute to morphological diversity in selected members of the sedge family (Cyperaceae). Natural hybridization, evidenced from both morphological characters and molecular markers, was revealed to be a potentially important source of diversification in the tropical spikerushes of Eleocharis subgenus Limnochloa. High levels of phenotypic plasticity of clonal growth but rare genetic (ecotypic) differentiation among contrasting morphotypes were found in the polymorphic species Carex nigra, which implied that taxonomic splitting of the species was unreasonable.

Exploration de la variabilité phénotypique d'Arabidopsis thaliana (L.) Heynh et caractérisation de l'effet d'un déficit hydrique sur la photosynthèse et le contenu glucidique foliaire des écotypes Col-0, Mt-0 et Shahdara / Investigation of Arabidopsis thaliana (L.) Heynh phenotypic variability and characterization of drought stress effects on photosynthesis and leaf sugar content of Col-0, Mt-0 and Shahdara ecotypes

Abadie, Cyril

26 October 2012

Compte tenu des changements climatiques annoncés, les végétaux risquent d'être confrontés, dans un proche avenir, à des épisodes de sécheresse sévères de plus en plus fréquents. Afin de prédire l'impact de telles contraintes sur la productivité et le rendement des plantes cultivées, il convient d'étudier l'effet du manque d'eau sur l'activité photosynthétique, le transport et l'accumulation des sucres. Dans un premier temps, la croissance, le développement, la biomasse et la photosynthèse de huit écotypes d'Arabidopsis thaliana ont été caractérisés. Trois de ces écotypes (Col-0, Mt-0 et Shahdara) ont ensuite été soumis à une période de déficit hydrique. Une chute du contenu relatif en eau des rosettes (RWC), de la conductance stomatique (gs) et de l'assimilation nette (AN) a été observée précocement chez Mt-0, écotype initialement caractérisé par une très faible efficience de l'utilisation de l'eau (AN/E). En réponse au stress, l'analyse des courbes AN/Ci de chaque écotype montrait que la limitation stomatique s'accompagne rapidement de limitations métaboliques (baisse de la Vcmax). En fin de stress hydrique, une diminution des réserves en amidon a conduit dans tous les cas à une accumulation de saccharose dans les feuilles. Les expressions des gènes codant les principaux transporteurs foliaires de sucres (polyols, hexoses et saccharose) étaient quant à eux différemment affectés par le manque d'eau. Shahdara, qui est parvenu à conserver un RWC relativement élevé, est l'écotype qui a le mieux toléré la contrainte hydrique. À l'opposé, Mt-0 présentait, en fin de stress, une inhibition de l'AN couplée à des altérations majeures et irréversibles des photosystèmes II (chutes de qP et de Fv/Fm). / Considering the predicted climate changes, plants are likely to face, in the future, severe and frequent droughts. In order to evaluate the impact of such stress on productivity and crop yield, the effect of water shortage on photosynthetic activity, sugar transport and accumulation was investigated. Firstly, growth, development, biomass and photosynthesis of eight Arabidopsis thaliana ecotypes have been characterised. Secondly, three of them (Col-0, Mt-0 and Shahdara) were subjected to drought stress. The relative water content (RWC), the stomatal conductance (gs) and the net assimilation (AN) decreased early in rosette leaves of Mt-0 which was initially characterized by a very low water use efficiency (AN/E). In response to drought, AN/Ci curves analysis for each ecotype showed that stomatal limitation was quickly related with metabolic limitations (lower Vcmax). At the end of the stress, reduced starch content always led to a sucrose accumulation in leaves. The expression of genes encoding the main leaf sugar carriers (polyols, hexoses and sucrose) was differently impaired by the water shortage. Shahdara, that managed to maintain a relatively high RWC, was the most tolerant ecotype to water stress. In contrast, at the end of the stress, Mt-0 exhibited an AN inhibition together with significant and irreversible photosystem II alterations (drop of both qP and Fv/Fm).

Amidon

Arabidopsis thaliana

Biomasse

Écotypes

Courbes AN/Ci

Croissance

Échanges gazeux

Fluorescence chlorophyllienne

Photosynthèse

Stress hydrique

Sucres solubles

Transporteurs de sucres

AN/Ci curves

Arabidopsis thaliana

Biomass

Chlorophyll fluorescence

Drought stress

Ecotypes

Gas exchanges

Growth

Photosynthesis

Soluble sugars

Starch

Sugar transporters

572.46

Využití laboratorní a obrazové spektroskopie pro hodnocení odolnosti borovice lesní vůči suchu a rozlišení jejich ekotypů / Use of laboratory and image spectroscopy to evaluate drought resistance of Scots pine and to distinguish its ecotypes

Raasch, Filip

January 2021

The aim of this study was to propose a non-destructive method for measuring Pinus sylvestris seedlings, to determine whether water stress would be evident in laboratory spectra of pines, to compare whether the response of pines would differ by ecotype, and to investigate whether two ecotypes of Pinus sylvestris could be distinguished using laboratory and image spectroscopy. For these purposes, hyperspectral images of seed orchards from August 2020 were processed and a three-month laboratory experiment was conducted, in which stress from water deficit was induced in two-year-old pine seedlings from the upland and hilly ecotypes. Spectral data were analysed using mixed statistical models, analysis of variance, principal component analysis, training of supervised pixel classifiers, vegetation indices, and linear regression. Based on the analyses, it was found that water stress can be detected in severely stressed Pinus sylvestris seedlings. The most sensitive spectral bands to water content were observed in the region between 1000-2500 nm. The initial response to water stress did not differ by ecotype, but a faster recovery was observed at the upland ecotype after the period of draught. The two Pinus sylvestris ecotypes were distinguished with high accuracy from both laboratory and image spectral...