富斯杜科-溴酸藓类Br.-Bl.群落。et txex Soó 1947 Mesyagutovskaya和Krasnoufimskaya森林草原(中顺乌拉尔地区)

Q4 Agricultural and Biological Sciences
N. Zolotareva, A. Korolyuk, S. Yamalov
{"title":"富斯杜科-溴酸藓类Br.-Bl.群落。et txex Soó 1947 Mesyagutovskaya和Krasnoufimskaya森林草原(中顺乌拉尔地区)","authors":"N. Zolotareva, A. Korolyuk, S. Yamalov","doi":"10.31111/vegrus/2019.37.29","DOIUrl":null,"url":null,"abstract":"There is a series of forest-steppe islands in the forest zone of the Middle Cis-Ural region. Two of these (Krasnoufimskaya and Mesyagutovskaya forest-steppes) of the considerable size and are of great interest for the study of steppe and meadow-steppe vegetation diversity in the northern locations of the Cis-Urals region. In the recent decades the studies of Mesyagutovskaya forest-steppe herbaceous vegetation with their syntaxonomy were done (Yamalov, Kucherova, 2009; Yamalov et al., 2013). For Krasno­ufimskaya forest-steppe such research was not carried out. Our aim was to make the revision of previously described syntaxa on this territory using the new data and to determine their position within the class Festuco-Brometea according to modern views. Existence of the forest-steppe landscape in the forest zone of Middle Cis-Urals region is due tothebarrier effect of the Ufa Plateau, intercepting part of the rainfall coming from the Atlantic transport. The climate of the study area is continental with moderately cold winter and moderately warm summer. Bedrocks here are limestones, sandstones and slates. The extrazonal northern forest-steppe extends for two degrees in the latitudinal direction. Mountainousness increases from the north to the south, while the climate becomes drier and warmer (Table 1). The central part of Krasnoufimskaya forest-steppe is flat; its agricultural development began in 17th century, so therefore the steppe areas were preserved only on the slopes of river valleys and hills. The territory of Mesyagutovskaya forest-steppe is more mountainous, therefore, the number of preserved steppe plots here is greater than in the Krasnoufimsk area (Fig. 2, 8). The initial dataset includes 295 relevés collected in the course of the field study in 2007–2014 in some locations of the Sverdlovsk Region and the Bashkor­tostan Republic. After the revision according to EuroVegChecklist Expert System (Mucina et al., 2016) the relevés previously assigned to the class Moli­nio-Arrhenatheretea were excluded, thus the data of this paper are based on the analysis of 260 relevés. All relevés were classified using the modified TWINSPAN algorithm (Roleček et al., 2009) in JUICE 7.0 (Tichý, 2002). According to TWINSPAN results the dataset was divided into 9 groups which formed two clusters (Fig. 1). Each of them is differentiated by group of species: cluster A — by the meso-xerophyte species of meadow steppes and xeric meadows, including 18 diagnostic species of the order Brachypodietalia pinnati (syn. Brometalia erecti) (Willner et al., 2017, 2019): Amoria montana, Brachypodium pinnatum, Carex caryophyllea, Dactylis glomerata, Festuca pratensis, Lathyrus pratensis, Leucanthemum vulgare, Ranunculus polyanthemos, Trifolium pratense, Vicia cracca, etc.; cluster B — by the widespread steppe species, including diagnostic ones of the class Festuco-Brometea (Anemone sylvestris, Artemisia latifolia, Campanula sibirica, Koeleria cristata, Scabiosa ochroleuca, Stipa capillata) and the order Helictotricho-Stipetalia (Helictotrichon desertorum, Onosma simplicissima, Oxy­tropis pilosa, Pilosella echioides, Potentilla humifusa, Salvia stepposa) (Korolyuk, 2017). Thus, cluster A combines meadow steppes and xeric meadows on rich soil habitats, and these communities correspond to the order Brachypodietalia pinnati. Cluster B combines petrophytic steppes on dry rocky habitats of insolated slopes, and these communities correspond to the order Helictotricho-Stipetalia. Ordination showed that such ecological factors as habitat moisture, soil fertility and rockiness are important in differentiation of syntaxa of the class Festuco-Brometea (Fig. 13). The vegetation of the class Festuco-Brometea in the northern forest-steppe of the Cis-Urals region belongs to 2 orders, 6 associations, 9 subassociations, 2 variants and 3 communities. Among them 1 association (Centaureo sibiricae–Stipetum pulcherrimae Yamalov ass. nov. hoc loco), 9 subassociations (Leucanthemo vulgaris–Stipetum pennatae typicum subass. nov. hoc loco, L. v.–S. p. festucetosum pratensis subass. nov. hoc loco, L. v.–S. p. vicietosum tenuifoliae subass. nov. hoc loco, Drabo sibiricae–Primu­letum macrocalycis typicum subass. nov. hoc loco, D. s.–P. m. potentilletosum humifusae subass. nov. hoc loco, Fragario viridis–Caraganetum fruticis poetosum angustifoliae Yamalov subass. nov. hoc loco, Stipo pennatae–Centauretum sibiricae typicum subass. nov. hoc loco, S. p.–C. s. polygonatetosum odorati subass. nov. hoc loco, S. p.–C. s. polygaletosum sibiricae subass. nov. hoc loco) and 3 communities (Spiraea crenata, Festuca valesiaca–Alyssum tortuosum, Anthemis subtinctoria–Aster alpinus) are new. One association (Stipo pennatae–Centauretum sibiricae Yamalov et al. ex Zolotareva, Korolyuk, Yamalov ass. nov. hoc loco) has been validated. Syntaxa of the order Brachypodietalia pinnati represent the base of the class Festuco-Brometea in the study area. Currently, only meadow steppes of the ass. Leucanthemo vulgaris–Stipetum pennatae are widespread throughout the extrazonal forest-steppe. Steppe-meadows of the ass. Drabo sibiricae–Primuletum macrocalycis) are found in the Mesyagutovskaya area; in the northern part the same landscape positions are occupied by communities of the class Molinio-Arrhenatheretea. The steppe shrubs in the northern and the southern parts of the forest-steppe area are also different: in the south these are dominated by Caragana frutex and corresponds to the ass. Fragario viridis–Caraganetum fruticis, in the north (Krasnoufimskaya area) Caragana frutex is not found and shrub communitiesaredominated by Spiraea crenata (Fig. 2). Syntaxa of the order Helictotricho-Stipetalia occur on limestones exposures. Currently, the petrophytic steppes of the ass. Stipo pennatae–Centauretum sibiri­cae are known overall in the extrazonal forest-steppe, while the communities of the ass. Centaureo sibiricae–Stipetum pulcherrimae are registered only in the southern part of Mesyagutovskaya forest-steppe; northwards locations of this association diagnostic species are rare, some of these are absent in the Krasnoufimskaya forest-steppe area. The other syntaxa of petrophytic steppes with many relict and endemic species occur locally on the slopes of ancient reeves due to the unique combination of factors (Fig. 8).","PeriodicalId":37606,"journal":{"name":"Rastitel''nost'' Rossii","volume":"1 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2019-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"6","resultStr":"{\"title\":\"Communities of the class Festuco-Brometea Br.-Bl. et Tx. ex Soó 1947 in Mesyagutovskaya and Krasnoufimskaya forest-steppes (the Middle Cis-Ural region)\",\"authors\":\"N. Zolotareva, A. Korolyuk, S. Yamalov\",\"doi\":\"10.31111/vegrus/2019.37.29\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"There is a series of forest-steppe islands in the forest zone of the Middle Cis-Ural region. Two of these (Krasnoufimskaya and Mesyagutovskaya forest-steppes) of the considerable size and are of great interest for the study of steppe and meadow-steppe vegetation diversity in the northern locations of the Cis-Urals region. In the recent decades the studies of Mesyagutovskaya forest-steppe herbaceous vegetation with their syntaxonomy were done (Yamalov, Kucherova, 2009; Yamalov et al., 2013). For Krasno­ufimskaya forest-steppe such research was not carried out. Our aim was to make the revision of previously described syntaxa on this territory using the new data and to determine their position within the class Festuco-Brometea according to modern views. Existence of the forest-steppe landscape in the forest zone of Middle Cis-Urals region is due tothebarrier effect of the Ufa Plateau, intercepting part of the rainfall coming from the Atlantic transport. The climate of the study area is continental with moderately cold winter and moderately warm summer. Bedrocks here are limestones, sandstones and slates. The extrazonal northern forest-steppe extends for two degrees in the latitudinal direction. Mountainousness increases from the north to the south, while the climate becomes drier and warmer (Table 1). The central part of Krasnoufimskaya forest-steppe is flat; its agricultural development began in 17th century, so therefore the steppe areas were preserved only on the slopes of river valleys and hills. The territory of Mesyagutovskaya forest-steppe is more mountainous, therefore, the number of preserved steppe plots here is greater than in the Krasnoufimsk area (Fig. 2, 8). The initial dataset includes 295 relevés collected in the course of the field study in 2007–2014 in some locations of the Sverdlovsk Region and the Bashkor­tostan Republic. After the revision according to EuroVegChecklist Expert System (Mucina et al., 2016) the relevés previously assigned to the class Moli­nio-Arrhenatheretea were excluded, thus the data of this paper are based on the analysis of 260 relevés. All relevés were classified using the modified TWINSPAN algorithm (Roleček et al., 2009) in JUICE 7.0 (Tichý, 2002). According to TWINSPAN results the dataset was divided into 9 groups which formed two clusters (Fig. 1). Each of them is differentiated by group of species: cluster A — by the meso-xerophyte species of meadow steppes and xeric meadows, including 18 diagnostic species of the order Brachypodietalia pinnati (syn. Brometalia erecti) (Willner et al., 2017, 2019): Amoria montana, Brachypodium pinnatum, Carex caryophyllea, Dactylis glomerata, Festuca pratensis, Lathyrus pratensis, Leucanthemum vulgare, Ranunculus polyanthemos, Trifolium pratense, Vicia cracca, etc.; cluster B — by the widespread steppe species, including diagnostic ones of the class Festuco-Brometea (Anemone sylvestris, Artemisia latifolia, Campanula sibirica, Koeleria cristata, Scabiosa ochroleuca, Stipa capillata) and the order Helictotricho-Stipetalia (Helictotrichon desertorum, Onosma simplicissima, Oxy­tropis pilosa, Pilosella echioides, Potentilla humifusa, Salvia stepposa) (Korolyuk, 2017). Thus, cluster A combines meadow steppes and xeric meadows on rich soil habitats, and these communities correspond to the order Brachypodietalia pinnati. Cluster B combines petrophytic steppes on dry rocky habitats of insolated slopes, and these communities correspond to the order Helictotricho-Stipetalia. Ordination showed that such ecological factors as habitat moisture, soil fertility and rockiness are important in differentiation of syntaxa of the class Festuco-Brometea (Fig. 13). The vegetation of the class Festuco-Brometea in the northern forest-steppe of the Cis-Urals region belongs to 2 orders, 6 associations, 9 subassociations, 2 variants and 3 communities. Among them 1 association (Centaureo sibiricae–Stipetum pulcherrimae Yamalov ass. nov. hoc loco), 9 subassociations (Leucanthemo vulgaris–Stipetum pennatae typicum subass. nov. hoc loco, L. v.–S. p. festucetosum pratensis subass. nov. hoc loco, L. v.–S. p. vicietosum tenuifoliae subass. nov. hoc loco, Drabo sibiricae–Primu­letum macrocalycis typicum subass. nov. hoc loco, D. s.–P. m. potentilletosum humifusae subass. nov. hoc loco, Fragario viridis–Caraganetum fruticis poetosum angustifoliae Yamalov subass. nov. hoc loco, Stipo pennatae–Centauretum sibiricae typicum subass. nov. hoc loco, S. p.–C. s. polygonatetosum odorati subass. nov. hoc loco, S. p.–C. s. polygaletosum sibiricae subass. nov. hoc loco) and 3 communities (Spiraea crenata, Festuca valesiaca–Alyssum tortuosum, Anthemis subtinctoria–Aster alpinus) are new. One association (Stipo pennatae–Centauretum sibiricae Yamalov et al. ex Zolotareva, Korolyuk, Yamalov ass. nov. hoc loco) has been validated. Syntaxa of the order Brachypodietalia pinnati represent the base of the class Festuco-Brometea in the study area. Currently, only meadow steppes of the ass. Leucanthemo vulgaris–Stipetum pennatae are widespread throughout the extrazonal forest-steppe. Steppe-meadows of the ass. Drabo sibiricae–Primuletum macrocalycis) are found in the Mesyagutovskaya area; in the northern part the same landscape positions are occupied by communities of the class Molinio-Arrhenatheretea. The steppe shrubs in the northern and the southern parts of the forest-steppe area are also different: in the south these are dominated by Caragana frutex and corresponds to the ass. Fragario viridis–Caraganetum fruticis, in the north (Krasnoufimskaya area) Caragana frutex is not found and shrub communitiesaredominated by Spiraea crenata (Fig. 2). Syntaxa of the order Helictotricho-Stipetalia occur on limestones exposures. Currently, the petrophytic steppes of the ass. Stipo pennatae–Centauretum sibiri­cae are known overall in the extrazonal forest-steppe, while the communities of the ass. Centaureo sibiricae–Stipetum pulcherrimae are registered only in the southern part of Mesyagutovskaya forest-steppe; northwards locations of this association diagnostic species are rare, some of these are absent in the Krasnoufimskaya forest-steppe area. The other syntaxa of petrophytic steppes with many relict and endemic species occur locally on the slopes of ancient reeves due to the unique combination of factors (Fig. 8).\",\"PeriodicalId\":37606,\"journal\":{\"name\":\"Rastitel''nost'' Rossii\",\"volume\":\"1 1\",\"pages\":\"\"},\"PeriodicalIF\":0.0000,\"publicationDate\":\"2019-01-01\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"6\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"Rastitel''nost'' Rossii\",\"FirstCategoryId\":\"1085\",\"ListUrlMain\":\"https://doi.org/10.31111/vegrus/2019.37.29\",\"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/2019.37.29","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: 6

摘要

在中乌拉尔地区的森林地带有一系列的森林草原岛屿。其中两个(Krasnoufimskaya和Mesyagutovskaya森林草原)具有相当大的规模,对于研究顺乌拉尔地区北部地区的草原和草甸草原植被多样性具有很大的兴趣。近几十年来,人们对Mesyagutovskaya森林草原草本植被及其分类学进行了研究(Yamalov, Kucherova, 2009;Yamalov et al., 2013)。对于克拉斯诺-乌菲姆斯卡亚森林草原,没有进行这样的研究。我们的目的是利用这些新资料对这一地区先前描述的句法类群进行修订,并根据现代观点确定它们在Festuco-Brometea纲中的位置。中顺乌拉尔林区森林草原景观的存在是由于乌法高原的屏障作用,拦截了部分来自大西洋输送的降雨。研究区气候为大陆性气候,冬中偏冷,夏中偏暖。这里的基岩是石灰石、砂岩和板岩。北部的温带森林草原在纬度方向上延伸2度。从北到南山地增加,而气候变得干燥和温暖(表1)。克拉斯诺菲姆斯卡亚森林草原的中部是平坦的;它的农业发展始于17世纪,因此草原地区只保留在河谷和山丘的斜坡上。Mesyagutovskaya森林草原的领土多山,因此,这里保存的草原地块数量比克拉斯诺菲斯克地区多(图2,8)。最初的数据集包括2007-2014年在斯维尔德洛夫斯克地区和巴什戈尔-托斯坦共和国的一些地方的实地研究过程中收集的295个相关的样本。根据EuroVegChecklist Expert System (Mucina et al., 2016)进行修订后,排除了之前分配给Moli-nio-Arrhenatheretea类的相关<s:1> <s:1>细胞转移瘤,因此本文的数据是基于对260个相关<s:1>细胞转移瘤的分析。在JUICE 7.0 (Tichý, 2002)中,使用改进的TWINSPAN算法(role<e:1>等人,2009)对所有相关的<s:1> <s:1>数据交换器进行分类。根据TWINSPAN结果,将数据集划分为9个类群,形成2个聚类(图1),每个类群按物种类群进行区分:类群A -由草甸草原和干性草甸中旱生物种划分,包括brachypoditalia pinnati目(syn. Brometalia erecti)的18种诊断物种(Willner etal ., 20117,2019);蒙大拿、凤尾草、石竹花、短尾草、短尾草、茅茅、草地草、白菊花、多花毛茛、三叶草、金缕梅等;B群-由广泛分布的草原物种组成,包括诊断性的羊毛茛纲(银莲花、latifolia、西伯利亚风铃草、冠木草、黄斑草、毛针草)和毛毛茛纲(荒漠毛毛茛、单根草、毛毛茛、毛毛茛、毛毛茛、毛毛茛)(Korolyuk, 2017)。因此,聚类A在土壤丰富的生境上结合了草甸草原和干性草甸,这些群落对应于短叶草目。B类群在日照斜坡的干岩生境上组合了岩生草原,这些群落对应于赤毛目-尖柄目。排序结果表明,生境湿度、土壤肥力、岩石度等生态因子对羊茅属(Festuco-Brometea)纲合成类的分化有重要影响(图13)。顺乌拉尔地区北部森林草原羊茅-凤梨属植被分属2目、6属、9亚属、2变异体和3个群落。其中1个联系系(Centaureo sibiricae-Stipetum pulcherrimae Yamalov ass. nov. hoc loco), 9个亚联系系(Leucanthemo vulgaris-Stipetum pennatae typum subbass)。11月临时火线,l.v.s。草原假羊尾草亚种。11月临时火线,l.v.s p。细叶蓼亚。nov. hoc loco, Drabo sibiricae - prima - letum macrocalycis典型亚基。11月,特别火线,d.s.p.m。潜草。11 .特殊的植物,青花锦鸡儿属植物。11 .特别的loco, Stipo pennatae-Centauretum sibiricae典型亚种。11月临时火线,s.p.c。花蓼子。十一月特别火线,s.p.c.s。西伯利亚蓼亚种。11 . hoc loco)和3个新群落(绣线菊、羊茅-花楸、洋菊-高山紫菀)。一种关联(Stipo pennatae-Centauretum sibiricae Yamalov et al. ex Zolotareva, Korolyuk, Yamalov ass. nov. hoc loco)已得到证实。短足植物纲(brachypoditalia pinnati)是研究区短足植物纲(Festuco-Brometea)的基础。 在中乌拉尔地区的森林地带有一系列的森林草原岛屿。其中两个(Krasnoufimskaya和Mesyagutovskaya森林草原)具有相当大的规模,对于研究顺乌拉尔地区北部地区的草原和草甸草原植被多样性具有很大的兴趣。近几十年来,人们对Mesyagutovskaya森林草原草本植被及其分类学进行了研究(Yamalov, Kucherova, 2009;Yamalov et al., 2013)。对于克拉斯诺-乌菲姆斯卡亚森林草原,没有进行这样的研究。我们的目的是利用这些新资料对这一地区先前描述的句法类群进行修订,并根据现代观点确定它们在Festuco-Brometea纲中的位置。中顺乌拉尔林区森林草原景观的存在是由于乌法高原的屏障作用,拦截了部分来自大西洋输送的降雨。研究区气候为大陆性气候,冬中偏冷,夏中偏暖。这里的基岩是石灰石、砂岩和板岩。北部的温带森林草原在纬度方向上延伸2度。从北到南山地增加,而气候变得干燥和温暖(表1)。克拉斯诺菲姆斯卡亚森林草原的中部是平坦的;它的农业发展始于17世纪,因此草原地区只保留在河谷和山丘的斜坡上。Mesyagutovskaya森林草原的领土多山,因此,这里保存的草原地块数量比克拉斯诺菲斯克地区多(图2,8)。最初的数据集包括2007-2014年在斯维尔德洛夫斯克地区和巴什戈尔-托斯坦共和国的一些地方的实地研究过程中收集的295个相关的样本。根据EuroVegChecklist Expert System (Mucina et al., 2016)进行修订后,排除了之前分配给Moli-nio-Arrhenatheretea类的相关<s:1> <s:1>细胞转移瘤,因此本文的数据是基于对260个相关<s:1>细胞转移瘤的分析。在JUICE 7.0 (Tichý, 2002)中,使用改进的TWINSPAN算法(role<e:1>等人,2009)对所有相关的<s:1> <s:1>数据交换器进行分类。根据TWINSPAN结果,将数据集划分为9个类群,形成2个聚类(图1),每个类群按物种类群进行区分:类群A -由草甸草原和干性草甸中旱生物种划分,包括brachypoditalia pinnati目(syn. Brometalia erecti)的18种诊断物种(Willner etal ., 20117,2019);蒙大拿、凤尾草、石竹花、短尾草、短尾草、茅茅、草地草、白菊花、多花毛茛、三叶草、金缕梅等;B群-由广泛分布的草原物种组成,包括诊断性的羊毛茛纲(银莲花、latifolia、西伯利亚风铃草、冠木草、黄斑草、毛针草)和毛毛茛纲(荒漠毛毛茛、单根草、毛毛茛、毛毛茛、毛毛茛、毛毛茛)(Korolyuk, 2017)。因此,聚类A在土壤丰富的生境上结合了草甸草原和干性草甸,这些群落对应于短叶草目。B类群在日照斜坡的干岩生境上组合了岩生草原,这些群落对应于赤毛目-尖柄目。排序结果表明,生境湿度、土壤肥力、岩石度等生态因子对羊茅属(Festuco-Brometea)纲合成类的分化有重要影响(图13)。顺乌拉尔地区北部森林草原羊茅-凤梨属植被分属2目、6属、9亚属、2变异体和3个群落。其中1个联系系(Centaureo sibiricae-Stipetum pulcherrimae Yamalov ass. nov. hoc loco), 9个亚联系系(Leucanthemo vulgaris-Stipetum pennatae typum subbass)。11月临时火线,l.v.s。草原假羊尾草亚种。11月临时火线,l.v.s p。细叶蓼亚。nov. hoc loco, Drabo sibiricae - prima - letum macrocalycis典型亚基。11月,特别火线,d.s.p.m。潜草。11 .特殊的植物,青花锦鸡儿属植物。11 .特别的loco, Stipo pennatae-Centauretum sibiricae典型亚种。11月临时火线,s.p.c。花蓼子。十一月特别火线,s.p.c.s。西伯利亚蓼亚种。11 . hoc loco)和3个新群落(绣线菊、羊茅-花楸、洋菊-高山紫菀)。一种关联(Stipo pennatae-Centauretum sibiricae Yamalov et al. ex Zolotareva, Korolyuk, Yamalov ass. nov. hoc loco)已得到证实。短足植物纲(brachypoditalia pinnati)是研究区短足植物纲(Festuco-Brometea)的基础。 目前,在跨地带性森林草原上广泛分布的只有白菊-冠毛菊的草甸草原。在Mesyagutovskaya地区发现了sibiricae-Primuletum macrocalycis)的草原草地;在北部,同样的景观位置被molinio - arrhenathertea类社区占据。森林-草原区北部和南部的草原灌木也不同:南部以锦鸡儿为主导,对应于Fragario viriis - caraganetum fruticis,北部(Krasnoufimskaya地区)没有锦鸡儿,灌木群落以绣线菊为主(图2)。在石灰岩暴露处出现了helictotrico - stipetalia目合群。目前,在带外森林草原中,已知的石生草原主要有pennatae-Centauretum sibiri-cae,而Centaureo sibiricae-Stipetum pulcherrimae的群落仅在Mesyagutovskaya森林草原的南部;这种联合诊断种在北部分布的位置很少见,其中一些在克拉斯诺菲姆斯卡亚森林草原地区没有。由于各种因素的独特组合,具有许多遗留物和特有物种的岩生草原的其他syntaxa局部出现在古珊瑚礁的斜坡上(图8)。 目前,在跨地带性森林草原上广泛分布的只有白菊-冠毛菊的草甸草原。在Mesyagutovskaya地区发现了sibiricae-Primuletum macrocalycis)的草原草地;在北部,同样的景观位置被molinio - arrhenathertea类社区占据。森林-草原区北部和南部的草原灌木也不同:南部以锦鸡儿为主导,对应于Fragario viriis - caraganetum fruticis,北部(Krasnoufimskaya地区)没有锦鸡儿,灌木群落以绣线菊为主(图2)。在石灰岩暴露处出现了helictotrico - stipetalia目合群。目前,在带外森林草原中,已知的石生草原主要有pennatae-Centauretum sibiri-cae,而Centaureo sibiricae-Stipetum pulcherrimae的群落仅在Mesyagutovskaya森林草原的南部;这种联合诊断种在北部分布的位置很少见,其中一些在克拉斯诺菲姆斯卡亚森林草原地区没有。由于各种因素的独特组合,具有许多遗留物和特有物种的岩生草原的其他syntaxa局部出现在古珊瑚礁的斜坡上(图8)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Communities of the class Festuco-Brometea Br.-Bl. et Tx. ex Soó 1947 in Mesyagutovskaya and Krasnoufimskaya forest-steppes (the Middle Cis-Ural region)
There is a series of forest-steppe islands in the forest zone of the Middle Cis-Ural region. Two of these (Krasnoufimskaya and Mesyagutovskaya forest-steppes) of the considerable size and are of great interest for the study of steppe and meadow-steppe vegetation diversity in the northern locations of the Cis-Urals region. In the recent decades the studies of Mesyagutovskaya forest-steppe herbaceous vegetation with their syntaxonomy were done (Yamalov, Kucherova, 2009; Yamalov et al., 2013). For Krasno­ufimskaya forest-steppe such research was not carried out. Our aim was to make the revision of previously described syntaxa on this territory using the new data and to determine their position within the class Festuco-Brometea according to modern views. Existence of the forest-steppe landscape in the forest zone of Middle Cis-Urals region is due tothebarrier effect of the Ufa Plateau, intercepting part of the rainfall coming from the Atlantic transport. The climate of the study area is continental with moderately cold winter and moderately warm summer. Bedrocks here are limestones, sandstones and slates. The extrazonal northern forest-steppe extends for two degrees in the latitudinal direction. Mountainousness increases from the north to the south, while the climate becomes drier and warmer (Table 1). The central part of Krasnoufimskaya forest-steppe is flat; its agricultural development began in 17th century, so therefore the steppe areas were preserved only on the slopes of river valleys and hills. The territory of Mesyagutovskaya forest-steppe is more mountainous, therefore, the number of preserved steppe plots here is greater than in the Krasnoufimsk area (Fig. 2, 8). The initial dataset includes 295 relevés collected in the course of the field study in 2007–2014 in some locations of the Sverdlovsk Region and the Bashkor­tostan Republic. After the revision according to EuroVegChecklist Expert System (Mucina et al., 2016) the relevés previously assigned to the class Moli­nio-Arrhenatheretea were excluded, thus the data of this paper are based on the analysis of 260 relevés. All relevés were classified using the modified TWINSPAN algorithm (Roleček et al., 2009) in JUICE 7.0 (Tichý, 2002). According to TWINSPAN results the dataset was divided into 9 groups which formed two clusters (Fig. 1). Each of them is differentiated by group of species: cluster A — by the meso-xerophyte species of meadow steppes and xeric meadows, including 18 diagnostic species of the order Brachypodietalia pinnati (syn. Brometalia erecti) (Willner et al., 2017, 2019): Amoria montana, Brachypodium pinnatum, Carex caryophyllea, Dactylis glomerata, Festuca pratensis, Lathyrus pratensis, Leucanthemum vulgare, Ranunculus polyanthemos, Trifolium pratense, Vicia cracca, etc.; cluster B — by the widespread steppe species, including diagnostic ones of the class Festuco-Brometea (Anemone sylvestris, Artemisia latifolia, Campanula sibirica, Koeleria cristata, Scabiosa ochroleuca, Stipa capillata) and the order Helictotricho-Stipetalia (Helictotrichon desertorum, Onosma simplicissima, Oxy­tropis pilosa, Pilosella echioides, Potentilla humifusa, Salvia stepposa) (Korolyuk, 2017). Thus, cluster A combines meadow steppes and xeric meadows on rich soil habitats, and these communities correspond to the order Brachypodietalia pinnati. Cluster B combines petrophytic steppes on dry rocky habitats of insolated slopes, and these communities correspond to the order Helictotricho-Stipetalia. Ordination showed that such ecological factors as habitat moisture, soil fertility and rockiness are important in differentiation of syntaxa of the class Festuco-Brometea (Fig. 13). The vegetation of the class Festuco-Brometea in the northern forest-steppe of the Cis-Urals region belongs to 2 orders, 6 associations, 9 subassociations, 2 variants and 3 communities. Among them 1 association (Centaureo sibiricae–Stipetum pulcherrimae Yamalov ass. nov. hoc loco), 9 subassociations (Leucanthemo vulgaris–Stipetum pennatae typicum subass. nov. hoc loco, L. v.–S. p. festucetosum pratensis subass. nov. hoc loco, L. v.–S. p. vicietosum tenuifoliae subass. nov. hoc loco, Drabo sibiricae–Primu­letum macrocalycis typicum subass. nov. hoc loco, D. s.–P. m. potentilletosum humifusae subass. nov. hoc loco, Fragario viridis–Caraganetum fruticis poetosum angustifoliae Yamalov subass. nov. hoc loco, Stipo pennatae–Centauretum sibiricae typicum subass. nov. hoc loco, S. p.–C. s. polygonatetosum odorati subass. nov. hoc loco, S. p.–C. s. polygaletosum sibiricae subass. nov. hoc loco) and 3 communities (Spiraea crenata, Festuca valesiaca–Alyssum tortuosum, Anthemis subtinctoria–Aster alpinus) are new. One association (Stipo pennatae–Centauretum sibiricae Yamalov et al. ex Zolotareva, Korolyuk, Yamalov ass. nov. hoc loco) has been validated. Syntaxa of the order Brachypodietalia pinnati represent the base of the class Festuco-Brometea in the study area. Currently, only meadow steppes of the ass. Leucanthemo vulgaris–Stipetum pennatae are widespread throughout the extrazonal forest-steppe. Steppe-meadows of the ass. Drabo sibiricae–Primuletum macrocalycis) are found in the Mesyagutovskaya area; in the northern part the same landscape positions are occupied by communities of the class Molinio-Arrhenatheretea. The steppe shrubs in the northern and the southern parts of the forest-steppe area are also different: in the south these are dominated by Caragana frutex and corresponds to the ass. Fragario viridis–Caraganetum fruticis, in the north (Krasnoufimskaya area) Caragana frutex is not found and shrub communitiesaredominated by Spiraea crenata (Fig. 2). Syntaxa of the order Helictotricho-Stipetalia occur on limestones exposures. Currently, the petrophytic steppes of the ass. Stipo pennatae–Centauretum sibiri­cae are known overall in the extrazonal forest-steppe, while the communities of the ass. Centaureo sibiricae–Stipetum pulcherrimae are registered only in the southern part of Mesyagutovskaya forest-steppe; northwards locations of this association diagnostic species are rare, some of these are absent in the Krasnoufimskaya forest-steppe area. The other syntaxa of petrophytic steppes with many relict and endemic species occur locally on the slopes of ancient reeves due to the unique combination of factors (Fig. 8).
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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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