Low-sedge vegetation of waterlogged bog hollows and fens in the north of Western Siberia

Q4 Agricultural and Biological Sciences
E. Lapshina, I. Filippov, G. Ganasevich
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This paper presents the classification results for the low-sedge vegetation of waterlogged hollows and Sphagnum lawns, within flat palsa-bogs, ombrotrophic raised bogs and transitional mire complexes, which is assigned to two alliances — Stygio–Caricion limosae Nordhagen 1943 and Scheuchzerion palustris Nordhagen ex Tx. 1937 of the class Scheuchzerio–Caricetea nigrae Tx. 1937. The classification is based on 422 relevés performed in 2004–2019 at 22 plots located between 63° and 75° N in the northern taiga, forest tundra, and southern tundra subzones of West Siberia (Fig. 1). In the most recent summary “Vegetation of Europe…” (Mucina et. al., 2016), the alliance Stygio–Caricion limosae is assigned to the order Sphagno watnstorfii–Tomentypnetalia Lapshina 2010, however this does not seem conclusive. Communities of this order are closely associated with rich fens, often spring fens fed by ground water, which does not correspond to the real conditions in which communities of this alliance are developed. Ecologically, in the current structure of the class Scheuchzetio–Caricetea nigrae (Peterka et al, 2017), the alliance Stygio–Caricion limosae has taken the true place of the alliance Rhynchosporion albae Koch 1926 (ICPN, Art. 36), which was initially unambiguously associated with the order Caricetalia nigrae Koch 1926 based on the original relevés and diagnostic species (Rhynchspora alba, Agrostis canina, sphagnum mosses of sec. Subsecunda). Therefore, we also consider the alliance Stygio–Caricion limosae belonging to the order Caricetalia nigrae, where it fits better judging by its ecological and floristic features. The differential species combination of the alliance Stygio–Caricion limosae in the northern part of West Siberia includes Carex limosa, Drosera obovata, Juncus stygius, Gymnocolea inflata, Sphagnum perfoliatum, S. platyphyllum, S. subsecundum, Utricularia minor, U. ochroleuca, Warnstorfia exannulata, and W. fluitans. Within this alliance, two new associations with subassociations have been described: Utricularo ochroleucae–Caricetum limosae and Sphagno perfoliati–Caricetum rotundatae, of which the first one occurs in the northern taiga mires, while the second one in the forest tundra and southern tundra subzones. The order Scheuchzerietalia palustris Nordhagen ex Tx. 1937 comprises ombrotrophic vegetation of Sphagnum lawns and bog hollows (Mucina et al., 2016) and currently includes the only alliance Scheuchzerion palustris. Its typical boreal suballiance Scheuchzerienion palustris suball. nov. (nomenclature type — lectotypus hoc. loco: ass. Scheuchzerietum palustris Tüxen, 1937: 61) is represented by two associations: Eriophoro vaginati–Sphagnetum baltici and Carici limosae–Sphagnetum jenseni. Their distribution to the north is limited by the mire complexes of the northern taiga. Further north similar habitats are occupied mainly by communities of the predominantly subarctic suballiance Caricion rariflorae. Within this suballiance, two associations — Carici rotundatae–Sphagnetum baltici and Carici rotundatae–Sphagnetum lindbergii — are widely distributed over the entire gradient from the northern taiga to the southern tundra. The ass. Carici rariflorae–Sphagnetum baltici occurs only occasionally and is bound to the forest tundra and southern tundra. Statistical processing of the entire data set was performed to confirm the classification results and make a number of syntaxonomic decisions. The results of t-SNE ordination (t-distributed stochastic neighbor embedding method) (van der Maaten, Hinton, 2008) confirmed the validity and expediency of separating oligotrophic and mesooligotrophic low-sedge communities of hollows and fens not only at the alliance level, but also at the order level. Despite certain physiognomic and floristic similarities, the location points of the two alliances in multidimensional space are well differentiated and do not overlap with each other (Fig. 10). Calculation of the floristic similarity degree of relevés with regard to species abundance and visualization of the statistical processing results have clearly demonstrated that the entire relevé array of oligotrophic sphagnum lawns in the alliance Scheuchzerion palustris can be divided by the dominant sphagnum moss species into separate clusters, within which dominant grass layer clusters could also be distinguished. Given that, in the future, the formal statistical processing of large sets of geobotanical data will become an increasingly important tool to underpin syntaxonomic decisions, this fact cannot be ignored. In this connection, we propose to review the current practice of identifying associations of mire vegetation by the dominant species of vascular plants and sub-associations by the dominant moss species. 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引用次数: 3

Abstract

The classification of West Siberian mire vegetation is more or less well developed in the southern part of the forest zone (Lapshina, 2010) while in the northern part of the West Siberian Plain it has received much less study. There are only a small number of publications containing descriptions of mire types and plant communities (Pyavchenko, 1955; Boch et al., 1971; Kirpotin et al., 1995; Smagin, 2003; Neshatayev et al., 2002). This paper presents the classification results for the low-sedge vegetation of waterlogged hollows and Sphagnum lawns, within flat palsa-bogs, ombrotrophic raised bogs and transitional mire complexes, which is assigned to two alliances — Stygio–Caricion limosae Nordhagen 1943 and Scheuchzerion palustris Nordhagen ex Tx. 1937 of the class Scheuchzerio–Caricetea nigrae Tx. 1937. The classification is based on 422 relevés performed in 2004–2019 at 22 plots located between 63° and 75° N in the northern taiga, forest tundra, and southern tundra subzones of West Siberia (Fig. 1). In the most recent summary “Vegetation of Europe…” (Mucina et. al., 2016), the alliance Stygio–Caricion limosae is assigned to the order Sphagno watnstorfii–Tomentypnetalia Lapshina 2010, however this does not seem conclusive. Communities of this order are closely associated with rich fens, often spring fens fed by ground water, which does not correspond to the real conditions in which communities of this alliance are developed. Ecologically, in the current structure of the class Scheuchzetio–Caricetea nigrae (Peterka et al, 2017), the alliance Stygio–Caricion limosae has taken the true place of the alliance Rhynchosporion albae Koch 1926 (ICPN, Art. 36), which was initially unambiguously associated with the order Caricetalia nigrae Koch 1926 based on the original relevés and diagnostic species (Rhynchspora alba, Agrostis canina, sphagnum mosses of sec. Subsecunda). Therefore, we also consider the alliance Stygio–Caricion limosae belonging to the order Caricetalia nigrae, where it fits better judging by its ecological and floristic features. The differential species combination of the alliance Stygio–Caricion limosae in the northern part of West Siberia includes Carex limosa, Drosera obovata, Juncus stygius, Gymnocolea inflata, Sphagnum perfoliatum, S. platyphyllum, S. subsecundum, Utricularia minor, U. ochroleuca, Warnstorfia exannulata, and W. fluitans. Within this alliance, two new associations with subassociations have been described: Utricularo ochroleucae–Caricetum limosae and Sphagno perfoliati–Caricetum rotundatae, of which the first one occurs in the northern taiga mires, while the second one in the forest tundra and southern tundra subzones. The order Scheuchzerietalia palustris Nordhagen ex Tx. 1937 comprises ombrotrophic vegetation of Sphagnum lawns and bog hollows (Mucina et al., 2016) and currently includes the only alliance Scheuchzerion palustris. Its typical boreal suballiance Scheuchzerienion palustris suball. nov. (nomenclature type — lectotypus hoc. loco: ass. Scheuchzerietum palustris Tüxen, 1937: 61) is represented by two associations: Eriophoro vaginati–Sphagnetum baltici and Carici limosae–Sphagnetum jenseni. Their distribution to the north is limited by the mire complexes of the northern taiga. Further north similar habitats are occupied mainly by communities of the predominantly subarctic suballiance Caricion rariflorae. Within this suballiance, two associations — Carici rotundatae–Sphagnetum baltici and Carici rotundatae–Sphagnetum lindbergii — are widely distributed over the entire gradient from the northern taiga to the southern tundra. The ass. Carici rariflorae–Sphagnetum baltici occurs only occasionally and is bound to the forest tundra and southern tundra. Statistical processing of the entire data set was performed to confirm the classification results and make a number of syntaxonomic decisions. The results of t-SNE ordination (t-distributed stochastic neighbor embedding method) (van der Maaten, Hinton, 2008) confirmed the validity and expediency of separating oligotrophic and mesooligotrophic low-sedge communities of hollows and fens not only at the alliance level, but also at the order level. Despite certain physiognomic and floristic similarities, the location points of the two alliances in multidimensional space are well differentiated and do not overlap with each other (Fig. 10). Calculation of the floristic similarity degree of relevés with regard to species abundance and visualization of the statistical processing results have clearly demonstrated that the entire relevé array of oligotrophic sphagnum lawns in the alliance Scheuchzerion palustris can be divided by the dominant sphagnum moss species into separate clusters, within which dominant grass layer clusters could also be distinguished. Given that, in the future, the formal statistical processing of large sets of geobotanical data will become an increasingly important tool to underpin syntaxonomic decisions, this fact cannot be ignored. In this connection, we propose to review the current practice of identifying associations of mire vegetation by the dominant species of vascular plants and sub-associations by the dominant moss species. The latters are of primary importance in the poor-species plant communities of waterlogged hollows and fens, because they are more sensitive to ecological conditions of habitats, which ultimately determine the entire floristic composition and community structure.
西伯利亚西部北部浸水沼泽洼地和沼泽的低莎草植被
西西伯利亚沼泽植被的分类在森林带的南部或多或少比较发达(Lapshina, 2010),而在西西伯利亚平原的北部却很少得到研究。只有少数出版物载有对沼泽类型和植物群落的描述(Pyavchenko, 1955年;Boch et al., 1971;Kirpotin et al., 1995;Smagin, 2003;Neshatayev et al., 2002)。本文介绍了水淹洼地和Sphagnum草坪的低苔草植被的分类结果,在平坦的palsa-bogs, ombrotrophic raised bogs和过渡沼泽复群中,将其划分为两个联盟- Stygio-Caricion limosae Nordhagen 1943和Scheuchzerion palustris Nordhagen ex Tx. 1937的Scheuchzerio-Caricetea nigrae Tx. 1937。该分类是基于2004-2019年在北针叶林、森林冻土带和西西伯利亚南部冻土带亚区北纬63°至75°之间的22个样地进行的422次相关的<s:1> <s:1>生长和生长数据(图1)。在最近的摘要“欧洲植被……”(Mucina etal ., 2016)中,Stygio-Caricion limosae联盟被分配到Sphagno watnstorfii-Tomentypnetalia Lapshina 2010,然而这似乎并不是结论性的。这一目的群落与丰富的沼泽密切相关,通常是由地下水喂养的泉水沼泽,这与该联盟社区发展的实际条件不符。在生态学上,在Scheuchzetio-Caricetea nigrae类的当前结构中(Peterka etal, 2017), Stygio-Caricion limosae联盟已经取代了Rhynchosporion albae Koch 1926 (ICPN, Art. 36),该联盟最初明确地与Caricetalia nigrae Koch 1926基于原始相关和诊断物种(Rhynchspora alba, Agrostis canina, sphagnum moss of sec. Subsecunda)相关联。因此,我们也认为Stygio-Caricion limosae联盟属于Caricetalia nigrae目,从其生态和植物区系特征来看,它更适合于此。西西伯利亚北部的海陆-海陆联盟的差异种组合包括:海陆Carex limosa, Drosera obovata, junus stygius, Gymnocolea inflata, Sphagnum perfoliatum, S. platyphyllum, S. subsecundum, Utricularia minor, U. ochroleuca, Warnstorfia exannulata和W. fluitans。在这个联盟中,描述了两个新的亚类群:Utricularo ochroleucae-Caricetum limmosae和Sphagno perfoliatim - caricetum rotundatae,其中第一个类群出现在北部针叶林沼泽,第二个类群出现在森林冻土带和南部冻土带亚带。Scheuchzerietalia palustris Nordhagen ex Tx. 1937包括Sphagnum草坪和沼泽洼地的营养型植被(Mucina etal ., 2016),目前包括唯一的Scheuchzerietalia palustris联盟。其典型的北方亚联盟Scheuchzerienion古陆亚群。11月命名类型-卵形斑痣。[中文]:ass. Scheuchzerietum palustris txen, 1937: 61)由两个协会代表:Eriophoro vaginati-Sphagnetum baltici和Carici limosa - sphagnetum jenseni。它们在北方的分布受北部针叶林泥沼复合体的限制。再往北,类似的栖息地主要被亚北极亚联盟的杂花群落所占据。在这一亚联盟中,两个群落——圆形沼泽群落-波罗地沼泽群落和圆形沼泽群落-林德贝沼泽群落——广泛分布于从北部针叶林到南部冻土带的整个梯度上。稀有花斑蝶-波罗的海斑蝶只偶尔出现,并且局限于森林苔原和南部冻土带。对整个数据集进行统计处理,以确认分类结果并做出一些句法决策。t-SNE排序(t-分布随机邻居嵌入法)(van der Maaten, Hinton, 2008)的结果不仅在联盟水平上,而且在顺序水平上证实了将洼地和沼泽低草群落分离为寡营养和中寡营养的有效性和便捷性。尽管在地貌和植物区系上有一定的相似性,但两个联盟在多维空间上的位置点分化良好,互不重叠(图10)。统计处理结果的可视化计算和物种丰度相似度的计算表明,在Scheuchzerion palustris联盟中,整个低营养化泥鳅草坪的相关阵列可以被优势泥鳅苔藓物种划分为不同的簇,在这些簇中也可以区分出优势草层簇。 西西伯利亚沼泽植被的分类在森林带的南部或多或少比较发达(Lapshina, 2010),而在西西伯利亚平原的北部却很少得到研究。只有少数出版物载有对沼泽类型和植物群落的描述(Pyavchenko, 1955年;Boch et al., 1971;Kirpotin et al., 1995;Smagin, 2003;Neshatayev et al., 2002)。本文介绍了水淹洼地和Sphagnum草坪的低苔草植被的分类结果,在平坦的palsa-bogs, ombrotrophic raised bogs和过渡沼泽复群中,将其划分为两个联盟- Stygio-Caricion limosae Nordhagen 1943和Scheuchzerion palustris Nordhagen ex Tx. 1937的Scheuchzerio-Caricetea nigrae Tx. 1937。该分类是基于2004-2019年在北针叶林、森林冻土带和西西伯利亚南部冻土带亚区北纬63°至75°之间的22个样地进行的422次相关的<s:1> <s:1>生长和生长数据(图1)。在最近的摘要“欧洲植被……”(Mucina etal ., 2016)中,Stygio-Caricion limosae联盟被分配到Sphagno watnstorfii-Tomentypnetalia Lapshina 2010,然而这似乎并不是结论性的。这一目的群落与丰富的沼泽密切相关,通常是由地下水喂养的泉水沼泽,这与该联盟社区发展的实际条件不符。在生态学上,在Scheuchzetio-Caricetea nigrae类的当前结构中(Peterka etal, 2017), Stygio-Caricion limosae联盟已经取代了Rhynchosporion albae Koch 1926 (ICPN, Art. 36),该联盟最初明确地与Caricetalia nigrae Koch 1926基于原始相关和诊断物种(Rhynchspora alba, Agrostis canina, sphagnum moss of sec. Subsecunda)相关联。因此,我们也认为Stygio-Caricion limosae联盟属于Caricetalia nigrae目,从其生态和植物区系特征来看,它更适合于此。西西伯利亚北部的海陆-海陆联盟的差异种组合包括:海陆Carex limosa, Drosera obovata, junus stygius, Gymnocolea inflata, Sphagnum perfoliatum, S. platyphyllum, S. subsecundum, Utricularia minor, U. ochroleuca, Warnstorfia exannulata和W. fluitans。在这个联盟中,描述了两个新的亚类群:Utricularo ochroleucae-Caricetum limmosae和Sphagno perfoliatim - caricetum rotundatae,其中第一个类群出现在北部针叶林沼泽,第二个类群出现在森林冻土带和南部冻土带亚带。Scheuchzerietalia palustris Nordhagen ex Tx. 1937包括Sphagnum草坪和沼泽洼地的营养型植被(Mucina etal ., 2016),目前包括唯一的Scheuchzerietalia palustris联盟。其典型的北方亚联盟Scheuchzerienion古陆亚群。11月命名类型-卵形斑痣。[中文]:ass. Scheuchzerietum palustris txen, 1937: 61)由两个协会代表:Eriophoro vaginati-Sphagnetum baltici和Carici limosa - sphagnetum jenseni。它们在北方的分布受北部针叶林泥沼复合体的限制。再往北,类似的栖息地主要被亚北极亚联盟的杂花群落所占据。在这一亚联盟中,两个群落——圆形沼泽群落-波罗地沼泽群落和圆形沼泽群落-林德贝沼泽群落——广泛分布于从北部针叶林到南部冻土带的整个梯度上。稀有花斑蝶-波罗的海斑蝶只偶尔出现,并且局限于森林苔原和南部冻土带。对整个数据集进行统计处理,以确认分类结果并做出一些句法决策。t-SNE排序(t-分布随机邻居嵌入法)(van der Maaten, Hinton, 2008)的结果不仅在联盟水平上,而且在顺序水平上证实了将洼地和沼泽低草群落分离为寡营养和中寡营养的有效性和便捷性。尽管在地貌和植物区系上有一定的相似性,但两个联盟在多维空间上的位置点分化良好,互不重叠(图10)。统计处理结果的可视化计算和物种丰度相似度的计算表明,在Scheuchzerion palustris联盟中,整个低营养化泥鳅草坪的相关阵列可以被优势泥鳅苔藓物种划分为不同的簇,在这些簇中也可以区分出优势草层簇。 考虑到,在未来,对大量地理数据的正式统计处理将成为支持句法决策的越来越重要的工具,这一事实不容忽视。在此基础上,综述了目前通过维管植物优势种和苔藓优势种识别沼泽植被关联的研究现状。后者对生境的生态条件更为敏感,最终决定了整个区系的组成和群落结构,因此在渍水洼地和沼泽区物种贫乏的植物群落中具有重要意义。 考虑到,在未来,对大量地理数据的正式统计处理将成为支持句法决策的越来越重要的工具,这一事实不容忽视。在此基础上,综述了目前通过维管植物优势种和苔藓优势种识别沼泽植被关联的研究现状。后者对生境的生态条件更为敏感,最终决定了整个区系的组成和群落结构,因此在渍水洼地和沼泽区物种贫乏的植物群落中具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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