Uniform Water Potential Induced by Salt, Alkali, and Drought Stresses Has Different Impacts on the Seedling of Hordeum jubatum: From Growth, Photosynthesis, and Chlorophyll Fluorescence

Hordeum jubatum is a halophyte ornamental plant wildly distributed in the Northeast of China, where the low water potential induced by various abiotic stresses is a major factor limiting plant growth and development. However, little is known about the comparative effects of salt, alkali, and drought stresses at uniform water potential on the plants. In the present study, the growth, gas exchange parameters, photosynthetic pigments, and chlorophyll fluorescence in the seedlings of H. jubatum under three low water potentials were measured. The results showed that the growth and photosynthetic parameters under these stresses were all decreased except for carotenoid (Car) with the increasing of stress concentration, and alkali stress caused the most damaging effects on the seedlings. The decreased net photosynthetic rate (Pn), stomatal conductance (Gs), and intercellular CO2 concentrations (Ci) values under salt stress were mainly attributed to stomatal factors, while non-stomatal factors were dominate under drought and alkali stresses. The reduced chlorophyll and slightly increased Car contents occurred under these stresses, and most significant changed under alkali stress. In addition, the maximum photochemical efficiency (Fv/Fm), actual photochemical efficiency (ΦPSII), and photochemical quenching coefficient (qP) under the stresses were all decreased, indicating that salt, alkali, and drought stresses all increased susceptibility of PSII to photoinhibition, reduced the photosynthetic activity by the declined absorption of light for photochemistry, and increased PSII active reaction centers. Moreover, the non-photochemical quenching coefficient (NPQ) of alkali stress was different from salt and drought stresses, showing that the high pH of alkali stress caused more damaging effects on the photoprotection mechanism depending on the xanthophyll cycle. The above results suggest that the H. jubatum has stronger tolerance of salt than drought and alkali stresses, and the negative effects of alkali stress on the growth and photosynthetic performance of this species was most serious.

The version of microevolutionary relationships between biotypes close to Elymus caninus (Poaceae) according to the sequencing of the nuclear gene GBSS1 (waxy)

A comparative study of the sequences of the GBSS1 gene fragment in accessions of species close to Elymus caninus:E. prokudinii, E. viridiglumis, E. goloskokovii, as well as a number of morphologically deviating forms (MDF) from the territoryof Russia and Kazakhstan was carried out. The StH-genomic constitution was established or confirmed in all studied taxa andMDF, and the microevolutionary relationships between species were assessed by constructing separate NJ dendrograms based onexons and introns together and exons only. Differences in the location of Y subgenomes in reference StY-genomic species on twotypes of constructed dendrograms were noted. Possible evolutionary reasons for these differences are discussed. A characteristicfeature of all taxa close to E. caninus is the presence of only St2clones of the St subgenome, which are closer in composition tothe North American ancestral line Pseudoroegneria spicata than to the Asiatic line ascending to P. strigosa. The reference Polishaccession E. caninus can_5274 is farthest from the Asian accessions in the St2subgenome, but closer to the diploid carrier ofthe St genome P. spicata. According to the levels of differentiation of the H subgenome, all putative relatives of E. caninus havevariants of the H1subgenome around the Asian diploid host Hordeum jubatum, while being divided into two distinct subgroups.Only the accessions of four reference species gravitate towards the North American species Hordeum californicum – the carrierof the H2gene variant. It should be noted that the gene variants of the Ural endemic E. uralensis are close to the main group ofE. caninus accessions in both subgenomes. Together with the results of sexual hybridization, this fact gives grounds to considerE. uralensis as closely related to the main group of taxa deserving the intraspecific rank of E. caninus s. l.

Database of anthropogenic vegetation of the Urals and adjacent territories

The main data on the geobotanical database – Database of antropogenic vegetation of Urals and adjacent territories registered in the Global Index of Vegetation-Plot Databases and the European Vegetation Archive are presented. The database includes more than 4,000 complete geobotanical relevés made between 1984 and 2020. The database contains the territories of 3 subjects of the Russian Federation (the Republic of Bashkortostan, Orenburg, Chelyabinsk regions) and 1 - the Republic of Kazakhstan (Aktobe region). For each relevés, a complete list of species with indication of abundance in points on the Braun-Blanquet scale. The main indicators (total cover, average height of the grass, etc.). For most descriptions, GPS coordinates and location are given. The ecological conditions were assessed with use of average values of E. Landolt scale. In the J. Braun-Blanquet classification system, all communities included in the database belong to nine vegetation classes (7 anthropogenic and 2 semi-natural), 75 associations and various types of communities. Geobotanical relevés with the dominance of such aggressive invasive species (Acer negundo, Ambrosia psylostachya, Echinocystis lobata, Elodea canadensis, Solidago canadensis, Heracleum sosnowskyi, Hordeum jubatum, Xanthium albinum etc.) are also included in the database.

The urban flora of the Yanaul city (Republic of Bashkortostan)

The work is based on the data of field studies carried out by the route method during 2017–2018 within the ad-ministrative boundaries of Yanaul city (Republic of Bashkortostan). According to research results, the flora of Yanaul includes 485 species of vascular plants from 286 genera and 81 families; 174 species are adventive, of which 38 can be classified as invasive and potentially invasive species. Among the most aggressive invasive species are Acer negundo, Echinocystis lobata, Elodea canadensis, Heracleum sosnowskyi, Hordeum jubatum, Lupinus polyphyllus, Xanthium album. Also, large areas within the city are occupied by an invasive species Soli-dago gigantea. 1 relict species (Campanula trachelium) was recorded, growing in the preserved areas with natu-ral vegetation. For each species, the attachment to certain habitats and the frequency of occurrence are given. For adventive species, information on the time, way of invasion and degree of naturalization are indicated. For inva-sive species, their status is indicated.

To syntaxonomy and ecology of communities with participation of alien species Hordeum jubatum L. in the South Urals

The synthaxonomy and ecology of communities with predominance of Hordeum jubatum L., included in the «black list» of the Republic of Bashkortostan (Abramova, Golovanov, 2016a), the preliminary «black list» of the Orenburg Region (Abramova et al., 2017) and the «Black book of flora of Middle Russia» (Vinogradova et al., 2010), are discussed in the article, which continues a series of publications on the classification of communities with alien species in the South Urals (Abramova, 2011, 2016; Abramova, Golovanov, 2016b). H. jubatum was first found in the South Urals in 1984 as an adventive plant occurring along streets in the town of Beloretsk, as well as in gardens where it was grown as an ornamental plant. During the 1980s, it was met also at some railway stations and in several rural localities. Its active distribution throughout the South Urals started in XXI century (Muldashev et al., 2017). Currently, H. jubatum, most naturalized in the native salted habitats of the steppe zone, is often found in disturbed habitats in all natural zones within the region. The short vegetating period and resistance to drought allowed it to be naturalized also in dry steppes, where it increasingly acts as the main weed on broken pastures. The aim of the work, conducted during 2011–2017, was further finding the centers of H. jubatum invasion in 3 regions adjacent to the South Urals — the Republic of Bashkortostan and the Chelyabinsk and Orenburg Regions (Fig. 1). In the main sites of H. jubatum invasion 71 relevès were performed on 10–100 m² sample plots with the information of location, date, the plot size, the total cover, average and maximum height of herb layer. Classification was carried out following the Braun-Blanquet method (Braun-Blanquet, 1964) with using the Kopecký–Hejný approach (Kopecký, Hejný, 1974). The community ecology was assessed by weighted average values according to the optimal ecological scales by E. Landolt with usfge of the software of IBIS (Zverev, 2007). PCA-ordination method with usage CANOCO 4.5 software package was applied to identify patterns of environmental differentiation of invasive communities. The current wide distribution area of H. jubatum and its naturalization in synanthropic, meadow and saline communities in the South Urals, as well as its occurrence within mountain-forest belt, forest-steppe and steppe zones both in the Cis- and Trans-Urals, indicates species wide ecological amplitude, high adaptive capability and invasive potential. Its vast thickets are known in the steppe zone, both in disturbed steppes around settlements and along the banks of water bodies. The invasion sites are smaller in the northern regions and mountain forest belt, where these are located in settlements or along communication lines. Therefore, the steppe zone is more favorable for invasive populations, and their distribution will continue from the south to the north. Communities with predominance of H. jubatum, described earlier (Abramova, Golovanov, 2016b) in the Cis-Urals as two derivative communities (associations Hordeum jubatum [Scorzonero–Juncetea gerardii], Hordeum jubatum [Artemisietea]) and Polygono avicularis–Hordeetum jubati, were met in other regions of the South Urals. Also a new derivative community Hordeum jubatum–Poa pratensis [Cynosurion cristati], occuring in the northern part of the Cis-Urals and Trans-Urals, was established. In new habitats this species forms three types of communities: ass. Polygono avicularis–Hordeetum jubati (Fig. 2) the most widespread in anthropogenic habitats throughout the South Urals; derivative community Hordeum jubatum–Juncus gerardii [Scorzonero–Juncetalia gerardii] (Fig. 5) which replaces saline meadows mainly in the steppe zone of the region; derivative community Hordeum jubatum–Poa pratensis [Cynosurion cristati] (Fig. 4) which y replaces low-herb meadows in the forest-steppe zone and mountain-forest belt. PCA ordination (Fig. 6) shows that moisture (H) and soil richness-salinization (S) factors are in priority in differentiation of communities with predominance H. jubatum. The first axis is mainly related to the salinization and soil richness. The community pattern along the second axis is associated with wetting factor. The cenoses of the derivative community Hordeum jubatum–Poa pratensis [Cynosurion cristati] (less salted substrates in drier conditions in the northern part of the forest-steppe zone and the mountain forest belt) are grouped in the upper part of the ordination diagram, while communities of ass. Polygono avicularis–Hordeetum jubati (drier conditions in settlements, the steppe zone) in its low left part. Thus, axis 1 also reflects the intensity of trampling. Another group is formed by cenoses of the derivate community Hordeum jubatum–Juncus gerardii [Scorzonero–Juncetalia gerardii], (salt substrates with a high level of moisturization, on not very damaged water body banks). All communities with H. jubatum are well differentiated in the space of the main ordination axes that indirectly confirms the correctness of our syntaxonomic decision. Undoubted is further expansion of H. jubatum with its entering both anthropogenic and natural plant communities within the South Urals that suggests a constant monitoring in centers of species invasion.

The adaptation of alien Siberian and Euro-Siberian vascular plant species in conditions of Nizhegorod region

The results of observations on adaptation of cultivated and imported alien Siberian and Euro-Siberian vascular plant species to Nizhny Novgorod Region conditions are presented. 33 out of 46 species are on different stages ofsuccessful naturalization. Hippophaё rhamnoides L., Hordeum jubatum L. and Ulmus pumila L. are most successful naturalized species. They formed temporary communities in breaking ecosystems. It is assumed that the success of adaptationis due to the ecological plasticity of species and little depends on the similarity of soil-edaphic and climatic conditions ofSiberia and Nizhny Novgorod region.

FEATURES OF THE COENOFLORA OF LAWNS IN UFA

Lawns are the most important element of the modern urban landscape. They are made by planting grasses at specially prepared homogeneous plots. The coenoflora of Ufa lawns currently includes 112 species of higher plants from 90 genera and 26 families. The characteristic of coenoflora is given on the basis of the performed geobotanical descriptions. Classical floristical analysis of coenoflora is carried out for various floristic spectra: family-genus, biomorphological, horological, ecological, and phytosociological. An assessment of the economic significance of the species was also given. The adventive component of the coenoflora consisting of 29 species was analyzed individually. It accounts for 25.9 % of the total species composition. It is specified that indexes of adventization of coenoflora are relatively low in Ufa in comparison with many other coenofloras of large cities. It can be connected with nature of habitats (absence of soil cover movement and relatively dense cover of lawn grasses and, consequently, absence of soil areas not occupied by plants. Such conditions prevent growing of adventive species). Particularly aggressive invasive plant species (Erigeron annuus, Hordeum jubatum, Solidago canadensis ) are recorded in the group of adventive species. The research proves that in large cities with great disruption of vegetation cover there is an increasing necessity of arranging high-quality lawn ground covers of different types, based on the correct selection of lawn species, optimal agricultural techniques. Ongoing processes that take place in the lawn plant communities should be considered.