Classification of communities with alien species in the South Urals. IV. Communities with species of Solidago genus, Lupinus polyphyllus and Phalacroloma annuum

Q4 Agricultural and Biological Sciences
L. Abramova, Y. Golovanov
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The wide distribution of species and their naturalization in the meadow and semi-natural communities of the Southern Urals are noted (Abramova, 2011, 2014; Abramova et al., 2016; Abramova, Golovanov, 2018). In the centers of invasion of the studied species, 83 geobotanical relevés of communities were performed on sample areas of 10–100 mІ. Location, date, area of the described area, total cover, mean and maximum height of grass layer were indicated for each sample plot. The classification of communities involving these invasive species was carried according to Braun-Blanquet method with Kopecký–Hejný approach (Kopecký, Hejný, 1974). The identified syntaxa were compared with the units previously described in the studied area and other regions. Ecological regimes of communities are determined using the weighted average of the Landolt’s optimum ecological scales by IBIS 6.2 software (Zverev, 2007). The weighted average values are calculated according to the following scales: moisture (F), acidity (R), soil richness with mineral nutrients (N), humus content (H), light (L) and continentality (K). The Detrended correspondence analysis (DCA-ordination) method was applied using the CANOCO 4.5 software package to identify the patterns of ecological differentiation of invasive communities. Herbaceous perennials plants Solidago canadensis and S. gigantea left the decorative culture and now are naturalized in meadows along roadsides, forest edges, wastelands, fallow lands, around gardens near large cities. The most common species is S. canadensis, common in the vicinity of human settlements. S. gigantea is first recorded only in 2017 in the North-West of the republic, where it formed monodominant communities on the territory of abandoned garden plots. The ass. Rudbeckio laciniatae–Solidaginetum canadensis Tüxen et Raabe ex Anioł-Kwiatkowska 1974 (Tables 2, 3) with 2 variants: Solidago canadensis (Fig. 1) and Solidago gigantea and the derivate community Solidago canadensis–Poa angustifolia [Molinio-Arrhenatheretea/Artemisietea vulgaris] (Table 4, Fig. 2) is described. Association variants reflect the dominance of Solidago canadensis or S. gigantea, the derivative community is characterized by the presence of two large groups of species: meadow species of the class Molinio-Arrhenatheretea Tx. 1937 and sinanthropic two- and long-term species of the class Artemisietea vulgaris Lohmeyer et al. in Tx. ex von Rochow 1951. Lupinus polyphyllus is an ornamental herbaceous plant, also dissapeared fr om culture and naturalized in meadow communities. Within the studied area it is sporadically recorded in the Cis-Urals, but invasive populations of sufficiently large in size form only in the north-western districts of the republic on the territories of abandoned horticultural plots, along the roads on the meadows, occasionally on abandoned fields. A derivative community Lupinus polyphyllus[Arrhenatheretalia elatioris] (Tables 6, 7) with 2 variants: typica (Fig. 3) and Convolvulus arvensis, which represent meadow or ruderalized communities, has been identified. The annual Phalacroloma annuum is confined to the areas of the northern Cis-Urals, wh ere it is widely naturalized in meadows, but has no a transforming effect on the meadow coenoflora. Thay is why var. Phalacroloma annuum as part of the association of low-grass meadows of the hay and pasture use within ass. Agrostio tenuis–Festucetum pratensis Yamalov 2015 (Table 9) as well as derivate community Phalacroloma annuum–Cirsium setosum [Arrhenatheretalia elatioris/Artemisietea vulgaris] (Table 10) for semi-natural communities in abandoned garden plots and fields with a large proportion of synanthropic species in floristic composition are suggested. All four invasive species are intruded and naturalized in meadows of varying degrees of anthropogenic disturbance, as well as in semi-natural phytocenoses of the final stages of succession. The ordination analysis (DCA-ordination) confirmed the suggested floristic classification (Fig. 4). The first axis is associated with two differently directed factors — soil acidity (correlation coefficient — 0.10) and humus content (correlation coefficient — –0.29). The distribution of communities along the second axis is associated with the substrate moistening (correlation coefficient is 0.10) and the community light conditions (correlation coefficient is –0.57), these vectors also have different directions. All communities with these species are well differentiated in the space of the two main ordination axes, which indirectly confirms the correctness of the syntaxonomic decision, and also indicates the wide ecological amplitude of the species and their use of different ecological niches in similar types of meadow and semi-natural communities of the Southern Urals. The leading factors in the community distribution are both those characterizing the soil properties (moisture, acidity, humus content) and habitat ones (light conditions). 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引用次数: 2

Abstract

This article continues the series of publications devoted to the classification of communities with invasive plant species in the Southern Urals (Abramova, 2011, 2015; Abramova, Golovanov, 2016b). The information on communities with four aggressive neophytes of North American origin Solidago canadensis L., S. gigantea Ait., Lupinus polyphyllus Lindl. and Phalacroloma annuum (L.) Dumort. s. l. (Table 1) is given. All species are included in the «black list» of the Republic of Bashkortostan (Abramova, Golovanov, 2016a), and the «Black book of the flora of Central Russia» (Vinogradova et al., 2010). The studies was conducted in the period 2016–2018 on the republic territory. The wide distribution of species and their naturalization in the meadow and semi-natural communities of the Southern Urals are noted (Abramova, 2011, 2014; Abramova et al., 2016; Abramova, Golovanov, 2018). In the centers of invasion of the studied species, 83 geobotanical relevés of communities were performed on sample areas of 10–100 mІ. Location, date, area of the described area, total cover, mean and maximum height of grass layer were indicated for each sample plot. The classification of communities involving these invasive species was carried according to Braun-Blanquet method with Kopecký–Hejný approach (Kopecký, Hejný, 1974). The identified syntaxa were compared with the units previously described in the studied area and other regions. Ecological regimes of communities are determined using the weighted average of the Landolt’s optimum ecological scales by IBIS 6.2 software (Zverev, 2007). The weighted average values are calculated according to the following scales: moisture (F), acidity (R), soil richness with mineral nutrients (N), humus content (H), light (L) and continentality (K). The Detrended correspondence analysis (DCA-ordination) method was applied using the CANOCO 4.5 software package to identify the patterns of ecological differentiation of invasive communities. Herbaceous perennials plants Solidago canadensis and S. gigantea left the decorative culture and now are naturalized in meadows along roadsides, forest edges, wastelands, fallow lands, around gardens near large cities. The most common species is S. canadensis, common in the vicinity of human settlements. S. gigantea is first recorded only in 2017 in the North-West of the republic, where it formed monodominant communities on the territory of abandoned garden plots. The ass. Rudbeckio laciniatae–Solidaginetum canadensis Tüxen et Raabe ex Anioł-Kwiatkowska 1974 (Tables 2, 3) with 2 variants: Solidago canadensis (Fig. 1) and Solidago gigantea and the derivate community Solidago canadensis–Poa angustifolia [Molinio-Arrhenatheretea/Artemisietea vulgaris] (Table 4, Fig. 2) is described. Association variants reflect the dominance of Solidago canadensis or S. gigantea, the derivative community is characterized by the presence of two large groups of species: meadow species of the class Molinio-Arrhenatheretea Tx. 1937 and sinanthropic two- and long-term species of the class Artemisietea vulgaris Lohmeyer et al. in Tx. ex von Rochow 1951. Lupinus polyphyllus is an ornamental herbaceous plant, also dissapeared fr om culture and naturalized in meadow communities. Within the studied area it is sporadically recorded in the Cis-Urals, but invasive populations of sufficiently large in size form only in the north-western districts of the republic on the territories of abandoned horticultural plots, along the roads on the meadows, occasionally on abandoned fields. A derivative community Lupinus polyphyllus[Arrhenatheretalia elatioris] (Tables 6, 7) with 2 variants: typica (Fig. 3) and Convolvulus arvensis, which represent meadow or ruderalized communities, has been identified. The annual Phalacroloma annuum is confined to the areas of the northern Cis-Urals, wh ere it is widely naturalized in meadows, but has no a transforming effect on the meadow coenoflora. Thay is why var. Phalacroloma annuum as part of the association of low-grass meadows of the hay and pasture use within ass. Agrostio tenuis–Festucetum pratensis Yamalov 2015 (Table 9) as well as derivate community Phalacroloma annuum–Cirsium setosum [Arrhenatheretalia elatioris/Artemisietea vulgaris] (Table 10) for semi-natural communities in abandoned garden plots and fields with a large proportion of synanthropic species in floristic composition are suggested. All four invasive species are intruded and naturalized in meadows of varying degrees of anthropogenic disturbance, as well as in semi-natural phytocenoses of the final stages of succession. The ordination analysis (DCA-ordination) confirmed the suggested floristic classification (Fig. 4). The first axis is associated with two differently directed factors — soil acidity (correlation coefficient — 0.10) and humus content (correlation coefficient — –0.29). The distribution of communities along the second axis is associated with the substrate moistening (correlation coefficient is 0.10) and the community light conditions (correlation coefficient is –0.57), these vectors also have different directions. All communities with these species are well differentiated in the space of the two main ordination axes, which indirectly confirms the correctness of the syntaxonomic decision, and also indicates the wide ecological amplitude of the species and their use of different ecological niches in similar types of meadow and semi-natural communities of the Southern Urals. The leading factors in the community distribution are both those characterizing the soil properties (moisture, acidity, humus content) and habitat ones (light conditions). The high invasive potential of these neophytes makes possible to predict their further distribution over the territory of the Republic of Bashkortostan.
南乌拉尔地区外来物种群落的分类。IV、 与Solidago属、Lupinus polyphyllus和Phalacroloma annuum物种的群落
本文延续了一系列致力于乌拉尔南部入侵植物群落分类的出版物(Abramova, 2011, 2015;Abramova, Golovanov, 2016b)。北美产加拿大一枝黄花(Solidago canadensis L.)、巨型一枝黄花(S. gigantea Ait.)四种侵略性新生植物群落资料。;多叶狼;和蝴蝶结瘤(L.)Dumort。s. 1(表1)所有物种都被列入巴什科尔托斯坦共和国的“黑名单”(Abramova, Golovanov, 2016a)和“俄罗斯中部植物区系黑皮书”(Vinogradova et al., 2010)。这些研究是在2016-2018年期间在共和国境内进行的。注意到物种在南乌拉尔草甸和半自然群落中的广泛分布及其归化(Abramova, 2011, 2014;Abramova et al., 2016;Abramova, Golovanov, 2018)。在研究种入侵中心,在10 ~ 100 mІ的样区进行了83个群落的地学调查。每个样地的位置、日期、所描述区域的面积、总覆盖度、草层平均高度和最大高度。采用Braun-Blanquet方法,采用Kopecký-Hejný方法对涉及这些入侵物种的群落进行分类(Kopecký, Hejný, 1974)。所鉴定的句法群与研究区和其他地区以前描述的单位进行了比较。利用IBIS 6.2软件对Landolt最优生态尺度进行加权平均,确定群落的生态制度(Zverev, 2007)。根据水分(F)、酸度(R)、土壤矿质养分丰富度(N)、腐殖质含量(H)、光照(L)和大陆性(K)等尺度计算加权平均值。利用CANOCO 4.5软件包,采用去趋势对应分析(DCA-ordination)方法识别入侵群落的生态分化模式。草本多年生植物加拿大Solidago canada和S. gigantea离开了装饰文化,现在被引入到路边的草地,森林边缘,荒地,休耕地,大城市附近的花园周围。最常见的种类是S. canadensis,常见于人类住区附近。S. gigantea于2017年在共和国西北部首次被记录,在那里,它在废弃的花园地块上形成了垄断的社区。描述了Rudbeckio laciniatae-Solidaginetum canadensis t<s:1> xen et Raabe ex Anioł-Kwiatkowska 1974(表2、3)2个变种:Solidago canadensis(图1)和Solidago gigantea以及衍生群落Solidago canadensis - poa angustifolia [molinio - arrhenathertea /Artemisietea vulgaris](表4、图2)。关联变异反映了加拿大一枝Solidago canadensis或S. gigantea的优势,衍生群落的特点是存在两大类群:Molinio-Arrhenatheretea Tx. 1937和Artemisietea vulgaris Lohmeyer et al. in Tx. ex von Rochow 1951。多叶羽扇豆是一种观赏草本植物,也是一种在草甸群落中消失和归化的植物。在研究区域内,在cis -乌拉尔偶尔有记录,但只有在共和国西北部地区的废弃园地上,沿着草地上的道路,偶尔在废弃的田野上形成足够大的入侵种群。已鉴定出一个衍生群落,即多叶狼(Lupinus polyphyllus[arrhenathertalia elatioris])(表6,7),具有2个变体:典型(typica)(图3)和Convolvulus arvensis,它们代表草原化或粗糙化的群落。一年生植物年轮草(Phalacroloma annuum)仅分布于顺乌拉尔北部地区,广泛归化于草甸,但对草甸群落没有改造作用。这就是为什么我们建议在植物区系组成中有很大比例共生物种的废弃园地和原野的半自然群落中,作为干草和牧草利用的低草草地关联的一部分,var. Phalacroloma annuum。Agrostio tennus - festucetum pratensis Yamalov 2015(表9)以及衍生群落Phalacroloma - cirsium setosum [arrhenathetalia elatioris/Artemisietea vulgaris](表10)。所有四种入侵物种均在不同程度人为干扰的草甸以及演替最后阶段的半自然植物群落中入侵和归化。排序分析(DCA-ordination)证实了建议的区系分类(图4)。第一个轴与两个不同的定向因子相关——土壤酸度(相关系数- 0.10)和腐殖质含量(相关系数- - 0.29)。 群落沿第二轴的分布与基质湿润度(相关系数为0.10)和群落光照条件(相关系数为-0.57)相关,这些矢量方向也不同。这些物种所在的群落在两个主要排序轴的空间上都有很好的分异,这间接证实了分类学判定的正确性,也表明在南乌拉尔地区相似类型的草甸和半自然群落中,这些物种的生态幅度和生态位都很广。影响群落分布的主要因素是土壤特性(水分、酸度、腐殖质含量)和生境特性(光照条件)。这些新生植物具有很高的入侵潜力,因此有可能预测它们在巴什科尔托斯坦共和国领土上的进一步分布。
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来源期刊
Rastitel''nost'' Rossii
Rastitel''nost'' Rossii Agricultural and Biological Sciences-Plant Science
CiteScore
1.20
自引率
0.00%
发文量
5
期刊介绍: The scientific journal Rastitel''nost'' Rossii is included in the Scopus database. Publisher country is Russia. The main subject areas of published articles are Ecology, Evolution, Behavior and Systematics, Plant Science, Общая биология.
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