Synanthropic communities with Dactylis glomerata L. in the Kursk Region

The results of the studies of synanthropic vegetation in Kursk Region (area is 29 800 sq. km), that is located between 50°54′–52°26′ N and 34°05′–38°31′ E, are given. Zonal vegetation is represented by broad-leaved forests on dark-gray forest soils and meadow steppes on chernozems. Synanthropic vegetation was being studied since 2003. 58 relevés were performed in the city of Kursk and few district centers of Kursk Region. The data were treated by IBIS 7.2 software package (Zverev, 2007). Classification is carried out according to Braun-Blanquet approach, the names of the higher syntaxa follow to «Vegetation of Europe…» (Mucina et al., 2016). Ecological conditions, such as soil moisture, richness in mineral nitrogen, light were assessed with the use of average values by H. Ellenberg et al. (1992) ecological scales while hemero­biality with use of average values of N. G. Ilminskikh (1993) ecological scale and processed by IBIS software (Zverev, 2007). As a result, 2 new associations of synanthropic ve­getation were described. Their communities are widely distributed in anthropogenic habitats within the study area. Ass. Arrhenathero elatioris–Dactylidetum glomeratae (Arepieva 2015) ass. nov. et stat. nov. hoc loco (Table 2, relevés 1–35; nomenclature type (holo­typus) is relevé 19 in the paper by L. A. Arepieva (2015: 102, Table 34), it corresponds to relevé 4 ­(author’s number — 37) in Table 2 in this article) refers to the alliance Convolvulo arvensis–Agropyrion repentis Görs 1967, order Agropyretalia intermedio–repentis T. Müller et Görs 1969, class Artemisietea vulgaris Lohmeyer et al. in Tx. ex von Rochow 1951. Diagnostic species are Arrhenatherum elatius and Dactylis glomerata. Two variants are distinguished within the association. Communities of var. typica (Table 2, rele­vés 1–19; Fig. 1) are described on sunny sites. Communities of var. Glechoma hederacea (Table 2, relevés 20–35; Fig. 2) are often formed in partially shaded habitats under strong anthropogenic impact, that’s why species of the order Arctio lappae–Artemisietalia­ ­vulgaris Dengler 2002 and the class Sisymbrietea Gutte et Hilbig 1975 are more common there. Previously (Arepieva, 2015) we considered this association decribed in the Kursk city as subass. Convolvulo arvensis–Elytrigietum repentis Felföldy 1943 dactylidetosum glomeratae Arepieva 2015. Presently, its rank is rised up to the аssociation for the following reasons: this syntaxon has a wide area of distribution, as the studied communities are common throughout the region, and it good enough differs of the other syntaxa of the alliance Convolvulo arvensis–Agropyrion repentis that are known in our region. Synoptic table (Table 3), value ranges of ecological factors for аssociations (Fig. 3) and DCA-ordination diagram (Fig. 4) demonstrate the differentiation of the syntaxa. The differences of this аssociation of those close to it in composition known in other regions (ass. Convolvulo arvensis–Elytrigietum repentis in Czech Republic, ass. Agropyro repentis–Dactylidetum glomeratae Ubaldi 1976 em. Ubaldi, Puppi et Speranza 1983 in Italy, ass. Geranio tuberosae–Dactylidetum Korzh. et Kljukin 1990 in Ukraine) are discussed. Among syntaxa of the meadow vegetation the most similar in species composition to it is subass. Arrhenatheretum elatioris dactylidetosum glomeratae Nowiński 1967 (alliance Arrhenatherion elatioris Luquet 1926, order Arrhenatheretalia elatioris Tx. 1931, class Molinio-Arrhenatheretea Tx. 1937) in Poland. The syntaxon differentiations are shown in Table 4. In Kursk Region close to the described association is ass. Anthoxantho–Agrostietum tenuis Sillinger 1933 (alliance Cynosurion cristati Tx. 1947, order Arrhenatheretalia elatioris Tx. 1931, class Molinio-Arrhenatheretea Tx. 1937). Ass. Glechomo hederaceae–Dactylidetum glomeratae ass. nov. hoc loco (Table 2, relevés 36–58; nomenclature type (holotypus hoc loco) — relevé 41 (author’s number — 650); Fig. 5) belongs to the alliance Arction lappae Tx. 1937, order Arctio lappae–Artemisietalia vulgaris Dengler 2002, class Epilobietea angustifolii Tx. et Preising ex von Rochow 1951. Diagnostic species are Carex contigua, Dactylis glomerata, Elsholtzia ciliata, Glechoma hederacea, Xantho­xalis stricta. Its communities, that occur in parks and gardens, were described in shaded habitats. The differences between this association and those of synanthropic vegetation close to it in the species composition are shown: ass. Leonuro–Arctietum tomentosi Lohmeyer in Tx. 1950 in Kursk Region and ass. Arctio tomentosi–Rumicetum obtusifolii Passarge 1959 in Slovakia (Table 5; Fig. 6, 7). Identified syntaxa, described within different orders and classes, have high floristic similarity because their communities are directed series with gradually changing conditions (the DCA-ordination diagram on Fig. 8). There is a change of impact of some ecological factors (light, moisture, reaction and richness in mineral nitrogen of soils and substrates) along axis 1. On this axis the communities of var. Glechoma hederacea of the ass. Arrhenathero elatioris–Dactylidetum glomeratae occupy an intermediate position and species, that have high constancy in ass. Glechomo hederaceae–Dactylidetum glomeratae, also occur in these. In all likelihood, the axis 2 is a change in degree of anthropogenic impact, which does not significantly influence on the syntaxon differentiation. The results of DCA-ordination are confirmed by the value ranges of ecological factors (Fig. 9).

The new associations of sinanthropic vegetation of classes Artemisietea vulgaris and Galio-Urticetea in the Bashkortostan Republic

The most widespread types of vegetation of the urbanized territories are coenosis of synanthropic and, in narrower sense, ruderal plant species. Ruderal communities are developing on garbage and dumps (Reymers, 1991), but presently this term is used much more widely, and is applied also to vegetation in various habitats arising under man impact. For example, W. Holzner (1982) includes abandoned fields and fellings in this type. So, the concepts of synanthropic and ruderal vegetation are rather close now. Synanthropic and ruderal communities are mostly found in the urban locations. The study of synanthropic vegetation in the Republic of Bashkortostan was being conducted since 1980s (Ishbirdin, etc., 1988; Golovanov, Abramova, 2012, 2013 etc.). The given paper presents results of the long-term (2008–2015) research of vegetation of 5 towns (Sterlitamak, Salavat, Ishimbay, Meleuz, Kumertau) located in Cis-Urals. More than 1500 relevés of synanthropic vegetation which were accumulated in the database using TURBOVEG software (Hennekens, 1995), 71 complete relevés of communities, new to the studied area, are presented in this paper. Classification is carried out according to Braun-Blanquet method. The ecological conditions were assessed with use of average values of E. Landolt (1977) ecological scales and processed by IBIS software (Zverev, 2007). According to «Prodrome of plant associations of the Republic of Bashkortostan» (Yamalov et al., 2012), synanthropic vegetation includes 8 classes, 14 orders, 21 unions, 62 associations and 6 communities. New for this region are one union and 9 associations, 2 of which are firstly described in the Southern Urals, while the other 7 were previously known in other regions of Russia or Europe. New to Bashkortostan Republic and Russian Federation, are associations of 2 classes Artemisietea vulgaris and Galio-Urticetea. There are 5 associations (Tanaceto vulgaris–Artemisietum vulgaris, Artemisio vulgaris–Echinopsietum sphaerocephali, Melico transsilvanicae–Agropyretum repentis, Falcario vulgaris–Elytrigietum repentis, and new Convolvulo arvensis–Agropyretum pectinati confined to the driest habitats in steppe and southern part of forest-steppe zone of the Southern Urals) within the class Artemisietea vulgaris. Within the class Galio-Urticetea 4 associations (Geo urbani–Chelidonietum majoris, Calystegio sepium–Epilobietum hirsuti, Calystegio sepium–Eupatorietum cannabini and new Urtico dioicae–Rubetum caesii) were described. New syntaxa occur mainly in Sterlitamak and Kumertau. Sterlitamak is the second largest city of Bashkortostan with the diverse anthropogenic habitats. The town of Kumertau, located in the south part of forest-steppe zone, is rich by various fragments of natural vegetation from forests to steppes.

The potential importance of synanthropic vegetation to bumblebees in urban ecosystems on the example of Lublin

This study was an attempt to show synanthropic phytocoenoses of the city of Lublin which are potentially valuable to pollinating insects such as bumblebees. <em>B. terrestris </em>and <em>B. lapidarius </em>as well as <em>B. lucorum</em>, <em>B. hypnorum </em>and <em>B. pascuorum </em>were found to occur in Lublin<em>. Artemisio-Tanacetetum</em>, <em>Bunietum orientalis</em>, and <em>Berteroëtum incanae </em>were shown to be most valuable to bumblebees due to a high number of polleniferous and nectariferous species in these communities. The present study also allowed us to determine that the size of communities and their occurrence in a mosaic with parks and green spaces had an effect on the distribution of bumblebees.

Roślinność synantropijna Bolimowskiego Parku Krajobrazowego [The synanthropic vegetation of Bolimów Nature Park]

This paper present the result of researches on the synanthropic vegetation of the Bolimów Nature Park. In the study area 25 synanthropic associations and 1 community, of the <em>Secalietea, Chenopodietea, Artemisietea</em> and <em>Planlaginetea</em> classes, were identified. Species richness and the structure of communities were stated on the basis of the published material and field observations. Its phytosociological characteristics and conditions of occurrence arę given. Moreover, local habitat variability and distribution as well as causes of threat and possibility of protection of the associations were presented.

Vegetation of Salavat town (Bashkortostan Republic). IV. Synanthropic vegetation (classes Polygono arenastri–Poёtea annuae, Galio-Urticetea and Robinietea)

At present the ruderal vegetation of Salavat town (Baschkortostan Republic) (classes Polygono arenastri–Poёtea annuae, Galio-Urticetea and Robinietea) is presented by 4 associations, 2 subassociations, 2 communities of 4 alliances (1 derivate and 1 basal) belonging to 3 orders. The plant coenosis of the class Polygono arenastri–Poёtea annuae have the greatest distribution among the considered vegetation classes. They are most actively developed n an urban environment due to continuous existence of a trampling factor. Coenosis of the class Galio-Urticetea occupy small patches I which is connected with geographical position of the studied town. It a fact that the greatest variety of communities of the class Galio-Urticetea is connected with natural forests. However these forests are not many in the town and the forest vegetation is presented mainly by artificial plantations (particularly the plant communities of the class Robinietea).