{"title":"西伯利亚西部平原的森林草甸与西伯利亚草原阔叶林目的修正","authors":"A. Korolyuk, M. P. Tishchenko, S. Yamalov","doi":"10.31111/vegrus/2016.29.67","DOIUrl":null,"url":null,"abstract":"Forest meadows is a characteristic vegetation type of the forest landscapes fr om the Altai-Sayan mountains on the east to the Southern Urals on the west. Communities inhabit open sites that were formed during natural or anthropogenic dynamic of zonal forests. It is the main reason of the floristic originality of the meadows, as reflected by the presence of numerous forest species. Our study is based on the analysis of 573 relevés from 27 associations represented in the previous publications. All forest meadows of the Southern Siberia and Southern Urals are included in the order Carici macrourae–Crepidetalia sibiricae Ermakov et al. 1999 (Ermakov et al., 1999). Among the differential species (d. s.) are common forest herbs: Aegopodium podagraria, Brachypodium pinnatum, Bupleurum aureum, Calamagrostis arundinacea, Crepis sibirica, Dracocephalum ruyschiana, Geranium pseudosibiricum, Hieracium umbellatum, Lilium pilosiusculum, Lupinaster pentaphyllus, Pulmonaria mollis, Rubus saxatilis. CA-ordination shows that the moisture and geographical position are the most important factors influencing the differentiation of forest meadows. Strict dissimilarity in species composition is found between 3 regions — the Altai-Sayan mountains, West Siberian Plain and Southern Urals. The order Carici macrourae–Crepidetalia sibiricae includes three regional alliances. The alliance Crepidion sibiricae Mirkin ex Ermakov, Maltseva et Makunina 1999 (d. s.: Aegopodium podagraria, Brachypodium pinnatum, Bupleurum aureum, Calamagrostis arundinacea, Crepis sibirica, Dracocephalum ruyschiana, Geranium pseudosibiricum, Hieracium umbellatum, Lilium pilosiusculum, Lupinaster pentaphyllus, Pulmonaria mollis, Rubus saxatilis) unites meadows of piedmonts and low mountains of the Altai, Kuznetsk Alatau and Salair. The alliance Heracleo sibirici–Geranion bifolii all. nov. (d.s.: Cirsium setosum, Geranium bifolium, Heracleum sibiricum, Poa palustris, Populus tremula, Veronica longifolia, Vicia megalotropis) occurs almost all over the southern part of the West Siberian Plain (Lashchinsky, Tishchenko, 2011; Tishchenko, 2015). The coenoses inhabit the edges of the deciduous forests. The alliance Polygonion krascheninnikovii Kashapov 1985 (d. s.: Bistorta major, Geum rivale, Hylotelephium triphyllum, Rumex acetosa, Stachys officinalis, Trifolium medium, Veronica chamaedrys, Viola tricolor) represents communities of the Southern Urals forest belt (Kashapov, 1985; Filinov et al., 2002; Yamalov et al., 2012). Three regional alliances of forest meadows well correspond to the syntaxonomy structure of the class Brachypodio pinnati–Betuletea pendulae Ermakov et al. 1991 with three orders — Carici macrourae–Pinetalia sylvestris Ermakov et al. 1991 (mostly Altai-Sayan mountains), Calamagrostio epigeii–Betuletalia pendulae Korolyuk ex Ermakov et al. 2000 (West Siberian Plain) and Chamaecytiso ruthenici–Pinetalia sylvestris Solomeshch et Ermakov in Ermakov et al. 2000 (Southern Ural). Ranges of this forest orders overlap the areas of corresponding meadow alliances in general. The coniferous and deciduous forests are replaced by grasslands in natural or anthropogenic chronosequences leading to a floristic similarity between forest and meadow communities. The moisture gradient is significant for the species composition of meadows. It determines the division of alliances into suballiances of moderately moist and dry forest meadows. Many of xeromesophytes of the class Festuco-Brometea Br.-Bl. et Tx. ex Klika et Hadać 1944 and the order Galietalia veri Mirkin et Naumova 1986 are used as differential species of dry forest meadow suballiances. In diagnosis of moderately moist communities we use forest hygromesophytes. The suballiance Crepidenion sibiricae suball. nov. unites moderately moist forest meadows of humid and subhumid regions of the Altai-Sayan mountains. The associations of Aconito barbati–Vicenion unijugae suball. nov. prefer drier habitats. The alliance Anthrisco sylvestris–Aconitenion volubilis suball. nov. is restricted to the Ob-Irtysh watershed (south-eastern regions of the West Siberian Plain). The communities are located at the edges of wet deciduous forests. The west siberian suballiance Heracleo sibirici–Artemisenion macranthae suball. nov. is widespread in southern part of forest zone and northern part of forest-steppe zone. The suballiance Polygonenion krasсheninnikovii Mukhamediarova ex Yamalov et Sultangareeva 2010 represents moderately moist meadows of the Southern Ural mountain forest belt. Communities are common both on gentle slopes and in river valleys wh ere they occupy edges and clearings in pine and pine-birch forests. Dry variants of forest meadows are included in the suballiance Amoriо montanae–Polygonenion krasсheninnikovii Yamalov suball. nov. These communities are common both on convex slopes and hilltops as well as in dry habitats of river valleys in forest belt along the Southern Urals and forest-steppe belt of the South-Eastern Urals. The analysis of moisture conditions using species indicator values (Korolyuk, 2006) shows similar borderlines between the moderately moist and dry forest meadows: near 61 grade in the Altai-Sajan and Ural mountains, 62 grade — for the West Siberian Plain with wide distribution of the waterlogged landscapes. The analysis of forest meadows demonstrates the necessity in the revision of some associations and subassociations. Formally defined differential species in many cases differ from ones proposed by authors of syntaxa. Some associations are represented by a few relevés and need an additional data. Ecological ranges of some syntaxa along the moisture gradient are overlapped that explains the importance of ecological and geographical analysis of associations and subassociations.","PeriodicalId":37606,"journal":{"name":"Rastitel''nost'' Rossii","volume":"1 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2016-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"4","resultStr":"{\"title\":\"Forest meadows of the West Siberian Plain and revision of the order Carici macrourae–Crepidetalia sibiricae\",\"authors\":\"A. Korolyuk, M. P. Tishchenko, S. Yamalov\",\"doi\":\"10.31111/vegrus/2016.29.67\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Forest meadows is a characteristic vegetation type of the forest landscapes fr om the Altai-Sayan mountains on the east to the Southern Urals on the west. Communities inhabit open sites that were formed during natural or anthropogenic dynamic of zonal forests. It is the main reason of the floristic originality of the meadows, as reflected by the presence of numerous forest species. Our study is based on the analysis of 573 relevés from 27 associations represented in the previous publications. All forest meadows of the Southern Siberia and Southern Urals are included in the order Carici macrourae–Crepidetalia sibiricae Ermakov et al. 1999 (Ermakov et al., 1999). Among the differential species (d. s.) are common forest herbs: Aegopodium podagraria, Brachypodium pinnatum, Bupleurum aureum, Calamagrostis arundinacea, Crepis sibirica, Dracocephalum ruyschiana, Geranium pseudosibiricum, Hieracium umbellatum, Lilium pilosiusculum, Lupinaster pentaphyllus, Pulmonaria mollis, Rubus saxatilis. CA-ordination shows that the moisture and geographical position are the most important factors influencing the differentiation of forest meadows. Strict dissimilarity in species composition is found between 3 regions — the Altai-Sayan mountains, West Siberian Plain and Southern Urals. The order Carici macrourae–Crepidetalia sibiricae includes three regional alliances. The alliance Crepidion sibiricae Mirkin ex Ermakov, Maltseva et Makunina 1999 (d. s.: Aegopodium podagraria, Brachypodium pinnatum, Bupleurum aureum, Calamagrostis arundinacea, Crepis sibirica, Dracocephalum ruyschiana, Geranium pseudosibiricum, Hieracium umbellatum, Lilium pilosiusculum, Lupinaster pentaphyllus, Pulmonaria mollis, Rubus saxatilis) unites meadows of piedmonts and low mountains of the Altai, Kuznetsk Alatau and Salair. The alliance Heracleo sibirici–Geranion bifolii all. nov. (d.s.: Cirsium setosum, Geranium bifolium, Heracleum sibiricum, Poa palustris, Populus tremula, Veronica longifolia, Vicia megalotropis) occurs almost all over the southern part of the West Siberian Plain (Lashchinsky, Tishchenko, 2011; Tishchenko, 2015). The coenoses inhabit the edges of the deciduous forests. The alliance Polygonion krascheninnikovii Kashapov 1985 (d. s.: Bistorta major, Geum rivale, Hylotelephium triphyllum, Rumex acetosa, Stachys officinalis, Trifolium medium, Veronica chamaedrys, Viola tricolor) represents communities of the Southern Urals forest belt (Kashapov, 1985; Filinov et al., 2002; Yamalov et al., 2012). Three regional alliances of forest meadows well correspond to the syntaxonomy structure of the class Brachypodio pinnati–Betuletea pendulae Ermakov et al. 1991 with three orders — Carici macrourae–Pinetalia sylvestris Ermakov et al. 1991 (mostly Altai-Sayan mountains), Calamagrostio epigeii–Betuletalia pendulae Korolyuk ex Ermakov et al. 2000 (West Siberian Plain) and Chamaecytiso ruthenici–Pinetalia sylvestris Solomeshch et Ermakov in Ermakov et al. 2000 (Southern Ural). Ranges of this forest orders overlap the areas of corresponding meadow alliances in general. The coniferous and deciduous forests are replaced by grasslands in natural or anthropogenic chronosequences leading to a floristic similarity between forest and meadow communities. The moisture gradient is significant for the species composition of meadows. It determines the division of alliances into suballiances of moderately moist and dry forest meadows. Many of xeromesophytes of the class Festuco-Brometea Br.-Bl. et Tx. ex Klika et Hadać 1944 and the order Galietalia veri Mirkin et Naumova 1986 are used as differential species of dry forest meadow suballiances. In diagnosis of moderately moist communities we use forest hygromesophytes. The suballiance Crepidenion sibiricae suball. nov. unites moderately moist forest meadows of humid and subhumid regions of the Altai-Sayan mountains. The associations of Aconito barbati–Vicenion unijugae suball. nov. prefer drier habitats. The alliance Anthrisco sylvestris–Aconitenion volubilis suball. nov. is restricted to the Ob-Irtysh watershed (south-eastern regions of the West Siberian Plain). The communities are located at the edges of wet deciduous forests. The west siberian suballiance Heracleo sibirici–Artemisenion macranthae suball. nov. is widespread in southern part of forest zone and northern part of forest-steppe zone. The suballiance Polygonenion krasсheninnikovii Mukhamediarova ex Yamalov et Sultangareeva 2010 represents moderately moist meadows of the Southern Ural mountain forest belt. Communities are common both on gentle slopes and in river valleys wh ere they occupy edges and clearings in pine and pine-birch forests. Dry variants of forest meadows are included in the suballiance Amoriо montanae–Polygonenion krasсheninnikovii Yamalov suball. nov. These communities are common both on convex slopes and hilltops as well as in dry habitats of river valleys in forest belt along the Southern Urals and forest-steppe belt of the South-Eastern Urals. The analysis of moisture conditions using species indicator values (Korolyuk, 2006) shows similar borderlines between the moderately moist and dry forest meadows: near 61 grade in the Altai-Sajan and Ural mountains, 62 grade — for the West Siberian Plain with wide distribution of the waterlogged landscapes. The analysis of forest meadows demonstrates the necessity in the revision of some associations and subassociations. Formally defined differential species in many cases differ from ones proposed by authors of syntaxa. Some associations are represented by a few relevés and need an additional data. Ecological ranges of some syntaxa along the moisture gradient are overlapped that explains the importance of ecological and geographical analysis of associations and subassociations.\",\"PeriodicalId\":37606,\"journal\":{\"name\":\"Rastitel''nost'' Rossii\",\"volume\":\"1 1\",\"pages\":\"\"},\"PeriodicalIF\":0.0000,\"publicationDate\":\"2016-01-01\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"4\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"Rastitel''nost'' Rossii\",\"FirstCategoryId\":\"1085\",\"ListUrlMain\":\"https://doi.org/10.31111/vegrus/2016.29.67\",\"RegionNum\":0,\"RegionCategory\":null,\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"Q4\",\"JCRName\":\"Agricultural and Biological Sciences\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"Rastitel''nost'' Rossii","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.31111/vegrus/2016.29.67","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q4","JCRName":"Agricultural and Biological Sciences","Score":null,"Total":0}
引用次数: 4
摘要
森林草甸是东起阿尔泰-萨彦山,西至南乌拉尔的森林景观的特色植被类型。社区居住在自然或人为地带性森林动态过程中形成的开放地点。这是草甸植物区系原创性的主要原因,反映在大量森林物种的存在上。我们的研究是基于先前出版物中27个协会的573份相关数据的分析。西伯利亚南部和乌拉尔南部的所有森林草甸都包括在Ermakov etal . 1999 (Ermakov etal ., 1999)。在不同的种类中,有常见的森林草本植物:马尾草、短尾草、柴胡、黄菖蒲、西伯利亚山菖蒲、龙头草、西伯利亚天竺葵、伞形叶菖蒲、百合、五叶莲子、毛菖蒲、沙菖蒲。ca排序表明,湿度和地理位置是影响森林草甸分异的最重要因素。阿尔泰-萨彦山、西西伯利亚平原和乌拉尔南部3个地区在物种组成上存在明显差异。大加勒比骑士团-西伯利亚骑士团包括三个区域联盟。Mirkin ex Ermakov, Maltseva et Makunina 1999(博士论文:马尾草,短尾草,柴胡,菖蒲,西伯利亚菖蒲,龙脑草,假西伯利亚天竺葵,伞形叶,百合,狼皮草,长尾草,鹅毛草)联合了阿尔泰,库兹涅茨克阿拉托和萨尔莱的山前和低山上的草地。赫拉克利奥-西伯利亚- geranion bifolii联盟。11月(论文:卷叶卷叶,两叶天竺葵,西伯利亚天竺葵,palustris, tremula, Veronica longifolia, Vicia megalotropis)几乎遍布西西伯利亚平原南部(Lashchinsky, Tishchenko, 2011;Tishchenko, 2015)。它们栖息在落叶林的边缘。联盟Polygonion krascheninnikovii Kashapov 1985 (d.s s: Bistorta major, Geum rive, Hylotelephium triphyllum, Rumex acetosa, Stachys officinalis, Trifolium medium, Veronica chamaedrys, Viola tricolor)代表了乌拉尔南部森林带的群落(Kashapov, 1985;Filinov et al., 2002;Yamalov et al., 2012)。3个森林草草地区域联盟与Brachypodio pinnatia - betuletea pendulae Ermakov等人1991年(主要是阿尔泰-萨伊安山)、Calamagrostio epigeii-Betuletalia pendulae Korolyuk ex Ermakov等人2000年(西西伯利亚平原)和Chamaecytiso rumakov等人2000年(乌拉尔南部)的分类结构很好地对应。这一森林目的范围通常与相应的草甸联盟重叠。在自然或人为的时间序列中,针叶林和落叶林被草地取代,导致森林和草甸群落之间的植物区系相似。水分梯度对草甸的物种组成有重要影响。它决定了联盟分为中度湿润和干燥森林草甸亚联盟。羊茅科干生植物Br.-Bl.;Klika et hadaki 1944和Galietalia veri Mirkin et Naumova 1986分别作为干林草甸亚系的鉴别种。在中度湿润群落的诊断中,我们使用森林湿生植物。亚联盟西伯利亚虎属亚联盟。11月联合阿尔泰-萨彦山湿润和半湿润地区的适度潮湿的森林草甸。乌头与乌头的结社。11月喜欢干燥的生境。Anthrisco sylvestris-Aconitenion volubilis suball联盟。11月仅限于鄂-额尔齐斯河流域(西西伯利亚平原东南部地区)。这些群落位于潮湿的落叶森林的边缘。西伯利亚西部亚联盟西伯利亚蒿亚联盟。11月广布于森林带南部和森林草原带北部。Polygonenion krasvereheninnikovii Mukhamediarova ex Yamalov et Sultangareeva 2010代表了乌拉尔南部山地林带的中度湿润草甸。社区在缓坡和河谷中都很常见,它们占据了松树和松桦林的边缘和空地。森林草甸的干变异体被包括在阿莫里莫纳-多戈尼翁krasvereheninnikovii Yamalov亚群中。11月。 这些群落在凸坡和山顶以及沿乌拉尔南部森林带和乌拉尔东南部森林草原带的河谷干燥生境中都很常见。利用物种指示值(Korolyuk, 2006)对湿度条件进行分析,显示了中度湿润和干燥森林草甸之间的相似界线:阿尔泰-萨扬和乌拉尔山脉接近61级,西西伯利亚平原为62级,涝渍景观分布广泛。通过对森林草甸的分析,说明了对某些类群和亚类群进行修正的必要性。在许多情况下,正式定义的差异种与句法作者提出的不同。一些关联是由几个相关的组织代表的,需要额外的数据。在水分梯度上,一些句法群的生态范围是重叠的,这说明了群落和亚群落的生态和地理分析的重要性。
Forest meadows of the West Siberian Plain and revision of the order Carici macrourae–Crepidetalia sibiricae
Forest meadows is a characteristic vegetation type of the forest landscapes fr om the Altai-Sayan mountains on the east to the Southern Urals on the west. Communities inhabit open sites that were formed during natural or anthropogenic dynamic of zonal forests. It is the main reason of the floristic originality of the meadows, as reflected by the presence of numerous forest species. Our study is based on the analysis of 573 relevés from 27 associations represented in the previous publications. All forest meadows of the Southern Siberia and Southern Urals are included in the order Carici macrourae–Crepidetalia sibiricae Ermakov et al. 1999 (Ermakov et al., 1999). Among the differential species (d. s.) are common forest herbs: Aegopodium podagraria, Brachypodium pinnatum, Bupleurum aureum, Calamagrostis arundinacea, Crepis sibirica, Dracocephalum ruyschiana, Geranium pseudosibiricum, Hieracium umbellatum, Lilium pilosiusculum, Lupinaster pentaphyllus, Pulmonaria mollis, Rubus saxatilis. CA-ordination shows that the moisture and geographical position are the most important factors influencing the differentiation of forest meadows. Strict dissimilarity in species composition is found between 3 regions — the Altai-Sayan mountains, West Siberian Plain and Southern Urals. The order Carici macrourae–Crepidetalia sibiricae includes three regional alliances. The alliance Crepidion sibiricae Mirkin ex Ermakov, Maltseva et Makunina 1999 (d. s.: Aegopodium podagraria, Brachypodium pinnatum, Bupleurum aureum, Calamagrostis arundinacea, Crepis sibirica, Dracocephalum ruyschiana, Geranium pseudosibiricum, Hieracium umbellatum, Lilium pilosiusculum, Lupinaster pentaphyllus, Pulmonaria mollis, Rubus saxatilis) unites meadows of piedmonts and low mountains of the Altai, Kuznetsk Alatau and Salair. The alliance Heracleo sibirici–Geranion bifolii all. nov. (d.s.: Cirsium setosum, Geranium bifolium, Heracleum sibiricum, Poa palustris, Populus tremula, Veronica longifolia, Vicia megalotropis) occurs almost all over the southern part of the West Siberian Plain (Lashchinsky, Tishchenko, 2011; Tishchenko, 2015). The coenoses inhabit the edges of the deciduous forests. The alliance Polygonion krascheninnikovii Kashapov 1985 (d. s.: Bistorta major, Geum rivale, Hylotelephium triphyllum, Rumex acetosa, Stachys officinalis, Trifolium medium, Veronica chamaedrys, Viola tricolor) represents communities of the Southern Urals forest belt (Kashapov, 1985; Filinov et al., 2002; Yamalov et al., 2012). Three regional alliances of forest meadows well correspond to the syntaxonomy structure of the class Brachypodio pinnati–Betuletea pendulae Ermakov et al. 1991 with three orders — Carici macrourae–Pinetalia sylvestris Ermakov et al. 1991 (mostly Altai-Sayan mountains), Calamagrostio epigeii–Betuletalia pendulae Korolyuk ex Ermakov et al. 2000 (West Siberian Plain) and Chamaecytiso ruthenici–Pinetalia sylvestris Solomeshch et Ermakov in Ermakov et al. 2000 (Southern Ural). Ranges of this forest orders overlap the areas of corresponding meadow alliances in general. The coniferous and deciduous forests are replaced by grasslands in natural or anthropogenic chronosequences leading to a floristic similarity between forest and meadow communities. The moisture gradient is significant for the species composition of meadows. It determines the division of alliances into suballiances of moderately moist and dry forest meadows. Many of xeromesophytes of the class Festuco-Brometea Br.-Bl. et Tx. ex Klika et Hadać 1944 and the order Galietalia veri Mirkin et Naumova 1986 are used as differential species of dry forest meadow suballiances. In diagnosis of moderately moist communities we use forest hygromesophytes. The suballiance Crepidenion sibiricae suball. nov. unites moderately moist forest meadows of humid and subhumid regions of the Altai-Sayan mountains. The associations of Aconito barbati–Vicenion unijugae suball. nov. prefer drier habitats. The alliance Anthrisco sylvestris–Aconitenion volubilis suball. nov. is restricted to the Ob-Irtysh watershed (south-eastern regions of the West Siberian Plain). The communities are located at the edges of wet deciduous forests. The west siberian suballiance Heracleo sibirici–Artemisenion macranthae suball. nov. is widespread in southern part of forest zone and northern part of forest-steppe zone. The suballiance Polygonenion krasсheninnikovii Mukhamediarova ex Yamalov et Sultangareeva 2010 represents moderately moist meadows of the Southern Ural mountain forest belt. Communities are common both on gentle slopes and in river valleys wh ere they occupy edges and clearings in pine and pine-birch forests. Dry variants of forest meadows are included in the suballiance Amoriо montanae–Polygonenion krasсheninnikovii Yamalov suball. nov. These communities are common both on convex slopes and hilltops as well as in dry habitats of river valleys in forest belt along the Southern Urals and forest-steppe belt of the South-Eastern Urals. The analysis of moisture conditions using species indicator values (Korolyuk, 2006) shows similar borderlines between the moderately moist and dry forest meadows: near 61 grade in the Altai-Sajan and Ural mountains, 62 grade — for the West Siberian Plain with wide distribution of the waterlogged landscapes. The analysis of forest meadows demonstrates the necessity in the revision of some associations and subassociations. Formally defined differential species in many cases differ from ones proposed by authors of syntaxa. Some associations are represented by a few relevés and need an additional data. Ecological ranges of some syntaxa along the moisture gradient are overlapped that explains the importance of ecological and geographical analysis of associations and subassociations.
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.