在西伯利亚西部分布的北部边界上的叶状植物和树木繁茂的沼泽和沼泽的植被

Q4 Agricultural and Biological Sciences
G. Ganasevich, E. Lapshina
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The class Alnetea glutinosae Br.-Bl. et Tx. ex Weshoff et al. 1946 of coniferous and small-leaved forests of Eurasia includes the order Calamagrostio purpureae–Piceetalia obovatae Lapshina 2010 combining forest-like swamp communities with dark coniferous species in the tree layer, called “sogra” in Siberia, with two associations within 2 alliances in the study area. Ass. Mnio stellari–Pinetum sibiricae Lapshina 2010 (Fig. 2) of the alliance Carici cespitosae–Piceion obovatae Lapshina 2010 includes communities of the dark coniferous sogra. Their considerable geographical remoteness from the main distribution area in the south of the forest zone of Western Siberia and noticeable differences in the species composition allowed to establish within it var. Viola epipsila. Ass. Carici appropinquatae–Pinetum sylvestris Lapshina 2010 (Fig. 3) of the alliance Carici appropinquatae–Laricion sibiricae Lapshina 2010 combines birch–pine herb-tussock sedge communities, rich in soil nutrition, dominated by Carex apropinquata, Thelypteris palustris. The class Scheuchzeria palustris–Caricetea nigrae Tx. 1937 is represented by the alliance Saxifrago-Tomentypnion Lapshina 2010 in the study area. Diverse communities of sedge-hypnum and Menyanthes-low sedge-hypnum fens, which are visually well distinguished in the vegetation cover by the dominance of different sedge species (Сarex diandra, C. dioica, C. limosa, C. rostrata) and Menyanthes, correspond well in their floristic composition to the diagnosis of the ass. Brachythecio mildeanae–Caricetum limosae Lapshina 2010 (Fig. 6) described on the hypnum fens in the southeast of Western Siberia. With the distance from the Tobolsk slope and gradual reduction of the groundwater influence, the domination in Menyanthes-low sedge-hypnum communities gradually flows from the ass. Brachythecio mildeanae–Caricetum limosae to Carex lasiocarpa — ass. Hamatocauli vernicosae–Caricetum lasiocarpae ass. Nov (Fig. 7). A characteristic feature of the studied mire is the wide distribution of sedge-fern and fern communities among low sedge-hypnum fens dominated by Carex lasiocarpa and Thelypteris palustris, which are assigned to associations Thelypterido–Caricetum lasiocarpae Lapshina 2010 (Fig. 8) and Thelypteridetum palustris Lapshina et al. 2018 (Fig. 9). The latter is established as subass. brachythecietosum mildeanae subass. nov. Comparison of the of mire habitats is made based on L. G. Ramenskiy ecological scales (Ramensky et al., 1956). Ecological indices (grades) of water supply and nutrient condition for each relevé are calculated. The ecological ordination of mire habitats (Fig. 10) shows values for mineral nutrition (Y-axis), and for water supply (wetness) (X-axis). According to the scale of mineral nutrition, the t communities exist in a narrow ecological range corresponding to mesotrophic conditions (6.5–9.0 grades). This is due to the fact that at high values of electrical conductivity and a medium close to neutral (EC=180–430; pH=6.5–7.5), peat soils rich in ground nutrition are poor in nitrogen and phosphorus (Wassen et al., 2005). According to the humidity scale, the studied vegetation may be divided into 3 groups: communities of hydromesophilic (77–88 degrees), subhydrophilic (89–94 degrees), and aerohydrophilic (95–103 degrees) habitats corresponding to the main classes of mire vegetation. The first group includes syntaxa of two alliances of wooded swamps of the class Alnetea glutinosae, which occur in moderately humid habitats. The low birch swamps communities of the class Alnetea glutinosae are common in higher water saturated habitats. Syntaxa of low sedge-hypnum, fern, and sedge-fern fens of the class Scheuchzerio–Caricetea nigrae are common to the most wet fen habitats, often associated with high level of water horizons buried in peat deposits. The classification results and ordination of syntaxa are confirmed by the t-SNE method, which allows displaying multidimensional hyperspaces on the plane. The right side of the ordination diagram (Fig. 11) shows well-differentiated low sedge-hypnum fens communities of the class Scheuchzerio–Caricetea. The rare sedge-hypnum communities with the Paludella squarrosa dominance are located somewhat apart, bonded to the exits of springs. The opposite part of the diagram shows well-differentiated communities of wooded swamps within the class Alnetea glutinosae. They are adjoined by communities of the ass. Thelypterido palustris–Betuletum pubescentis, within of the class Alnetea glutinosae. The most difficult challenging was to determine the position of Carex lasiocarpa-dominated fern, sedge-fern and sedge-hypnum communities within the higher units of classification. They occur in ecologically similar habitats as low sedge-hypnum communities of the alliance Saxifrago-Tomentypnion with well-represented diagnostic species in these. Due to that and the presence of hypnum moss layer, we assigned these communities to the alliance Saxifrago-Tomentypnion of the class Scheuchzeria-Caricetea.","PeriodicalId":37606,"journal":{"name":"Rastitel''nost'' Rossii","volume":"1 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2023-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Vegetation of segde-hypnum and wooded rich fens and swamps on the north border of their distribution in Western Siberia\",\"authors\":\"G. Ganasevich, E. 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The class Alnetea glutinosae Br.-Bl. et Tx. ex Weshoff et al. 1946 of coniferous and small-leaved forests of Eurasia includes the order Calamagrostio purpureae–Piceetalia obovatae Lapshina 2010 combining forest-like swamp communities with dark coniferous species in the tree layer, called “sogra” in Siberia, with two associations within 2 alliances in the study area. Ass. Mnio stellari–Pinetum sibiricae Lapshina 2010 (Fig. 2) of the alliance Carici cespitosae–Piceion obovatae Lapshina 2010 includes communities of the dark coniferous sogra. Their considerable geographical remoteness from the main distribution area in the south of the forest zone of Western Siberia and noticeable differences in the species composition allowed to establish within it var. Viola epipsila. Ass. Carici appropinquatae–Pinetum sylvestris Lapshina 2010 (Fig. 3) of the alliance Carici appropinquatae–Laricion sibiricae Lapshina 2010 combines birch–pine herb-tussock sedge communities, rich in soil nutrition, dominated by Carex apropinquata, Thelypteris palustris. The class Scheuchzeria palustris–Caricetea nigrae Tx. 1937 is represented by the alliance Saxifrago-Tomentypnion Lapshina 2010 in the study area. Diverse communities of sedge-hypnum and Menyanthes-low sedge-hypnum fens, which are visually well distinguished in the vegetation cover by the dominance of different sedge species (Сarex diandra, C. dioica, C. limosa, C. rostrata) and Menyanthes, correspond well in their floristic composition to the diagnosis of the ass. Brachythecio mildeanae–Caricetum limosae Lapshina 2010 (Fig. 6) described on the hypnum fens in the southeast of Western Siberia. With the distance from the Tobolsk slope and gradual reduction of the groundwater influence, the domination in Menyanthes-low sedge-hypnum communities gradually flows from the ass. Brachythecio mildeanae–Caricetum limosae to Carex lasiocarpa — ass. Hamatocauli vernicosae–Caricetum lasiocarpae ass. Nov (Fig. 7). A characteristic feature of the studied mire is the wide distribution of sedge-fern and fern communities among low sedge-hypnum fens dominated by Carex lasiocarpa and Thelypteris palustris, which are assigned to associations Thelypterido–Caricetum lasiocarpae Lapshina 2010 (Fig. 8) and Thelypteridetum palustris Lapshina et al. 2018 (Fig. 9). The latter is established as subass. brachythecietosum mildeanae subass. nov. Comparison of the of mire habitats is made based on L. G. Ramenskiy ecological scales (Ramensky et al., 1956). Ecological indices (grades) of water supply and nutrient condition for each relevé are calculated. The ecological ordination of mire habitats (Fig. 10) shows values for mineral nutrition (Y-axis), and for water supply (wetness) (X-axis). According to the scale of mineral nutrition, the t communities exist in a narrow ecological range corresponding to mesotrophic conditions (6.5–9.0 grades). This is due to the fact that at high values of electrical conductivity and a medium close to neutral (EC=180–430; pH=6.5–7.5), peat soils rich in ground nutrition are poor in nitrogen and phosphorus (Wassen et al., 2005). According to the humidity scale, the studied vegetation may be divided into 3 groups: communities of hydromesophilic (77–88 degrees), subhydrophilic (89–94 degrees), and aerohydrophilic (95–103 degrees) habitats corresponding to the main classes of mire vegetation. The first group includes syntaxa of two alliances of wooded swamps of the class Alnetea glutinosae, which occur in moderately humid habitats. 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引用次数: 0

摘要

本文研究了位于托博尔斯克市近郊额尔齐斯河河谷左岸低阶地(58.25°-58.09°N, 68.15°-68.34°E)的“Chistoe Boloto”(开放沼泽)中土壤营养丰富的莎草沼和森林沼泽植被。共描述了7个群落、2个亚群落、1个变异群落和1个群落类型,其中新介绍了1个群落(Hamatocauli vernicosae-Caricetum lasiocarpae)和2个亚群落(Telypterido palustri - betuletum pubescentis inops和Thelypteridetum palustris brachythecettosum mildeanae)。社区被分配到3个命令和2个类的4个联盟中。谷氨酸茶属Br.-Bl。et txx . ex Weshoff etal . 1946对欧亚大陆针叶林和小叶林的研究包括Calamagrostio purpureae-Piceetalia obovatae Lapshina 2010目,该目将森林状沼泽群落与树层中的深色针叶林物种(西伯利亚称为“sogra”)结合在一起,在研究区域的2个联盟中有两个协会。2010年的黑松林-西伯利亚松林(图2)包括暗针叶草群落。它们在地理上远离西伯利亚西部森林带南部的主要分布区域,并且在物种组成上有明显的差异,这使得在其中建立了Viola epipsila.Ass.变种。加林区-西伯利亚松林(laricion sibiricae Lapshina 2010)联盟的加林区-西林松林(Carici appinquatae - pinetum sylvestris Lapshina 2010)(图3)结合了桦木-松草-毛毡莎草群落,土壤营养丰富,以加林区毛草(Carex appropinquata)、palustris Thelypteris为主。研究区域的Scheuchzeria palustris-Caricetea nigrae Tx. 1937类以Saxifrago-Tomentypnion Lapshina 2010为代表。不同的莎草种类(Сarex diandra, C. dioica, C. limosa, C. rostrata)和Menyanthes在植被覆盖上的优势可以很好地区分出莎草和Menyanthes-low sedge-hypnum fens的不同群落,它们的区系组成与在西西伯利亚东南部hypnum fens上描述的Brachythecio mildeanae-Caricetum limosae Lapshina 2010(图6)的诊断非常吻合。随着离Tobolsk边坡距离的增加和地下水影响的逐渐减弱,menyanthus -low莎草群落的优势逐渐由Brachythecio mildeanae caricetum limosae向Carex lasiocarpa -转移研究沼泽的一个特征是在以苔草和palyteris palustris为主的低苔草沼中广泛分布苔类植物和蕨类群落,并将其归属于thelypterididum - carictum lasiocarpae Lapshina 2010(图8)和Thelypteridetum palustris Lapshina et al. 2018(图9)。后者被建立为亚底。短蛸亚目。11 .根据L. G. Ramenskiy生态尺度(Ramensky et al., 1956)对沼泽生境进行了比较。计算了各相关区域的供水生态指标(等级)和营养状况。沼泽生境的生态排序(图10)显示了矿物营养(y轴)和供水(湿度)(x轴)的值。根据矿质营养的尺度,t个群落存在于一个狭窄的生态范围内,对应于中营养化条件(6.5 ~ 9.0级)。这是由于在高电导率值和接近中性的介质(EC= 180-430;pH= 6.5-7.5),土壤营养丰富的泥炭土氮磷含量较低(Wassen et al., 2005)。根据湿度尺度,研究植被可分为亲水(77 ~ 88度)、亚亲水(89 ~ 94度)和亲气(95 ~ 103度)3类生境群落,与泥沼植被的主要类别相对应。第一组包括两个联盟的木本沼泽的Alnetea glutinosae类的句法,它们出现在适度潮湿的栖息地。低桦树沼泽群落的类Alnetea glutinosae是常见的高水饱和的栖息地。Scheuchzerio-Caricetea nigrae类的低莎草类、蕨类和莎草类沼泽的句法群在最潮湿的沼泽栖息地中很常见,通常与泥炭沉积物中埋有高水位的水平面有关。使用t-SNE方法对分类结果和句法排序进行确认,该方法允许在平面上显示多维超空间。排序图的右侧(图11)显示了分化良好的Scheuchzerio-Caricetea类低莎草沼沼群落。具有白刺草优势的罕见莎草群落分布较远,与泉水出口相连。 本文研究了位于托博尔斯克市近郊额尔齐斯河河谷左岸低阶地(58.25°-58.09°N, 68.15°-68.34°E)的“Chistoe Boloto”(开放沼泽)中土壤营养丰富的莎草沼和森林沼泽植被。共描述了7个群落、2个亚群落、1个变异群落和1个群落类型,其中新介绍了1个群落(Hamatocauli vernicosae-Caricetum lasiocarpae)和2个亚群落(Telypterido palustri - betuletum pubescentis inops和Thelypteridetum palustris brachythecettosum mildeanae)。社区被分配到3个命令和2个类的4个联盟中。谷氨酸茶属Br.-Bl。et txx . ex Weshoff etal . 1946对欧亚大陆针叶林和小叶林的研究包括Calamagrostio purpureae-Piceetalia obovatae Lapshina 2010目,该目将森林状沼泽群落与树层中的深色针叶林物种(西伯利亚称为“sogra”)结合在一起,在研究区域的2个联盟中有两个协会。2010年的黑松林-西伯利亚松林(图2)包括暗针叶草群落。它们在地理上远离西伯利亚西部森林带南部的主要分布区域,并且在物种组成上有明显的差异,这使得在其中建立了Viola epipsila.Ass.变种。加林区-西伯利亚松林(laricion sibiricae Lapshina 2010)联盟的加林区-西林松林(Carici appinquatae - pinetum sylvestris Lapshina 2010)(图3)结合了桦木-松草-毛毡莎草群落,土壤营养丰富,以加林区毛草(Carex appropinquata)、palustris Thelypteris为主。研究区域的Scheuchzeria palustris-Caricetea nigrae Tx. 1937类以Saxifrago-Tomentypnion Lapshina 2010为代表。不同的莎草种类(Сarex diandra, C. dioica, C. limosa, C. rostrata)和Menyanthes在植被覆盖上的优势可以很好地区分出莎草和Menyanthes-low sedge-hypnum fens的不同群落,它们的区系组成与在西西伯利亚东南部hypnum fens上描述的Brachythecio mildeanae-Caricetum limosae Lapshina 2010(图6)的诊断非常吻合。随着离Tobolsk边坡距离的增加和地下水影响的逐渐减弱,menyanthus -low莎草群落的优势逐渐由Brachythecio mildeanae caricetum limosae向Carex lasiocarpa -转移研究沼泽的一个特征是在以苔草和palyteris palustris为主的低苔草沼中广泛分布苔类植物和蕨类群落,并将其归属于thelypterididum - carictum lasiocarpae Lapshina 2010(图8)和Thelypteridetum palustris Lapshina et al. 2018(图9)。后者被建立为亚底。短蛸亚目。11 .根据L. G. Ramenskiy生态尺度(Ramensky et al., 1956)对沼泽生境进行了比较。计算了各相关区域的供水生态指标(等级)和营养状况。沼泽生境的生态排序(图10)显示了矿物营养(y轴)和供水(湿度)(x轴)的值。根据矿质营养的尺度,t个群落存在于一个狭窄的生态范围内,对应于中营养化条件(6.5 ~ 9.0级)。这是由于在高电导率值和接近中性的介质(EC= 180-430;pH= 6.5-7.5),土壤营养丰富的泥炭土氮磷含量较低(Wassen et al., 2005)。根据湿度尺度,研究植被可分为亲水(77 ~ 88度)、亚亲水(89 ~ 94度)和亲气(95 ~ 103度)3类生境群落,与泥沼植被的主要类别相对应。第一组包括两个联盟的木本沼泽的Alnetea glutinosae类的句法,它们出现在适度潮湿的栖息地。低桦树沼泽群落的类Alnetea glutinosae是常见的高水饱和的栖息地。Scheuchzerio-Caricetea nigrae类的低莎草类、蕨类和莎草类沼泽的句法群在最潮湿的沼泽栖息地中很常见,通常与泥炭沉积物中埋有高水位的水平面有关。使用t-SNE方法对分类结果和句法排序进行确认,该方法允许在平面上显示多维超空间。排序图的右侧(图11)显示了分化良好的Scheuchzerio-Caricetea类低莎草沼沼群落。具有白刺草优势的罕见莎草群落分布较远,与泉水出口相连。 图的另一部分显示了Alnetea glutinosae类中分化良好的树木沼泽群落。它们毗邻的群落的驴。短毛蕨之间的短毛蕨,在纲内的Alnetea glutinosae。最具挑战性的是确定以苔草为主的蕨类、苔类和苔类植物群落在高等分类单位中的位置。它们出现在生态上相似的栖息地,与低莎草-水草群落相似,在这些群落中有代表性的诊断物种。因此,我们将这些群落划分为沙棘藓属(Saxifrago-Tomentypnion),属于沙棘藓属(Scheuchzeria-Caricetea)纲。 图的另一部分显示了Alnetea glutinosae类中分化良好的树木沼泽群落。它们毗邻的群落的驴。短毛蕨之间的短毛蕨,在纲内的Alnetea glutinosae。最具挑战性的是确定以苔草为主的蕨类、苔类和苔类植物群落在高等分类单位中的位置。它们出现在生态上相似的栖息地,与低莎草-水草群落相似,在这些群落中有代表性的诊断物种。因此,我们将这些群落划分为沙棘藓属(Saxifrago-Tomentypnion),属于沙棘藓属(Scheuchzeria-Caricetea)纲。
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Vegetation of segde-hypnum and wooded rich fens and swamps on the north border of their distribution in Western Siberia
The vegetation of sedge-hypnum and forest swamps rich in soil nutrition was studied in “Chistoe Boloto” (Open Mire), located in the low left-bank terrace of the Irtysh River valley in the environs of Tobolsk city (58.25°–58.09°N, 68.15°–68.34°E) near the northern limit of this mire type distribution in Western Siberia. A total of 7 associations, 2 subassociations, 1 variant, and 1 community type are described, of which one association (Hamatocauli vernicosae–Caricetum lasiocarpae) and 2 subassociations (Telypterido palustris–Betuletum pubescentis inops and Thelypteridetum palustris brachythecietosum mildeanae) are introduced as new ones. Communities are assigned to 4 alliances of 3 orders and 2 classes. The class Alnetea glutinosae Br.-Bl. et Tx. ex Weshoff et al. 1946 of coniferous and small-leaved forests of Eurasia includes the order Calamagrostio purpureae–Piceetalia obovatae Lapshina 2010 combining forest-like swamp communities with dark coniferous species in the tree layer, called “sogra” in Siberia, with two associations within 2 alliances in the study area. Ass. Mnio stellari–Pinetum sibiricae Lapshina 2010 (Fig. 2) of the alliance Carici cespitosae–Piceion obovatae Lapshina 2010 includes communities of the dark coniferous sogra. Their considerable geographical remoteness from the main distribution area in the south of the forest zone of Western Siberia and noticeable differences in the species composition allowed to establish within it var. Viola epipsila. Ass. Carici appropinquatae–Pinetum sylvestris Lapshina 2010 (Fig. 3) of the alliance Carici appropinquatae–Laricion sibiricae Lapshina 2010 combines birch–pine herb-tussock sedge communities, rich in soil nutrition, dominated by Carex apropinquata, Thelypteris palustris. The class Scheuchzeria palustris–Caricetea nigrae Tx. 1937 is represented by the alliance Saxifrago-Tomentypnion Lapshina 2010 in the study area. Diverse communities of sedge-hypnum and Menyanthes-low sedge-hypnum fens, which are visually well distinguished in the vegetation cover by the dominance of different sedge species (Сarex diandra, C. dioica, C. limosa, C. rostrata) and Menyanthes, correspond well in their floristic composition to the diagnosis of the ass. Brachythecio mildeanae–Caricetum limosae Lapshina 2010 (Fig. 6) described on the hypnum fens in the southeast of Western Siberia. With the distance from the Tobolsk slope and gradual reduction of the groundwater influence, the domination in Menyanthes-low sedge-hypnum communities gradually flows from the ass. Brachythecio mildeanae–Caricetum limosae to Carex lasiocarpa — ass. Hamatocauli vernicosae–Caricetum lasiocarpae ass. Nov (Fig. 7). A characteristic feature of the studied mire is the wide distribution of sedge-fern and fern communities among low sedge-hypnum fens dominated by Carex lasiocarpa and Thelypteris palustris, which are assigned to associations Thelypterido–Caricetum lasiocarpae Lapshina 2010 (Fig. 8) and Thelypteridetum palustris Lapshina et al. 2018 (Fig. 9). The latter is established as subass. brachythecietosum mildeanae subass. nov. Comparison of the of mire habitats is made based on L. G. Ramenskiy ecological scales (Ramensky et al., 1956). Ecological indices (grades) of water supply and nutrient condition for each relevé are calculated. The ecological ordination of mire habitats (Fig. 10) shows values for mineral nutrition (Y-axis), and for water supply (wetness) (X-axis). According to the scale of mineral nutrition, the t communities exist in a narrow ecological range corresponding to mesotrophic conditions (6.5–9.0 grades). This is due to the fact that at high values of electrical conductivity and a medium close to neutral (EC=180–430; pH=6.5–7.5), peat soils rich in ground nutrition are poor in nitrogen and phosphorus (Wassen et al., 2005). According to the humidity scale, the studied vegetation may be divided into 3 groups: communities of hydromesophilic (77–88 degrees), subhydrophilic (89–94 degrees), and aerohydrophilic (95–103 degrees) habitats corresponding to the main classes of mire vegetation. The first group includes syntaxa of two alliances of wooded swamps of the class Alnetea glutinosae, which occur in moderately humid habitats. The low birch swamps communities of the class Alnetea glutinosae are common in higher water saturated habitats. Syntaxa of low sedge-hypnum, fern, and sedge-fern fens of the class Scheuchzerio–Caricetea nigrae are common to the most wet fen habitats, often associated with high level of water horizons buried in peat deposits. The classification results and ordination of syntaxa are confirmed by the t-SNE method, which allows displaying multidimensional hyperspaces on the plane. The right side of the ordination diagram (Fig. 11) shows well-differentiated low sedge-hypnum fens communities of the class Scheuchzerio–Caricetea. The rare sedge-hypnum communities with the Paludella squarrosa dominance are located somewhat apart, bonded to the exits of springs. The opposite part of the diagram shows well-differentiated communities of wooded swamps within the class Alnetea glutinosae. They are adjoined by communities of the ass. Thelypterido palustris–Betuletum pubescentis, within of the class Alnetea glutinosae. The most difficult challenging was to determine the position of Carex lasiocarpa-dominated fern, sedge-fern and sedge-hypnum communities within the higher units of classification. They occur in ecologically similar habitats as low sedge-hypnum communities of the alliance Saxifrago-Tomentypnion with well-represented diagnostic species in these. Due to that and the presence of hypnum moss layer, we assigned these communities to the alliance Saxifrago-Tomentypnion of the class Scheuchzeria-Caricetea.
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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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