Pine forests (Pineta kochianae) in the Republic of Daghestan

Q4 Agricultural and Biological Sciences
Z. I. Abdurakhmanova, V. Yu. Neshataev, V. Neshataeva
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Koch) forests, which occupy about 75 000 hectares (17 % of the forest area of the Daghestan), were studied poorly.\nThe present study is based on the data of field study by the authors in several districts of foothill Daghestan, internal mountain Daghestan and high mountain Daghestan in 2012–2016 within key-areas. The releves were carried out using the standard methods (Methods…, 2002) on 99 sample plots of 20×20 m. In addition, relevйs collected by Tumadzhanov (1938) and Magomedmirzayev (1965) were used for the syntaxa characteristic. Totally 140 relevйs were included into analysis. The classification of Pinus kochiana communities was made using the dominant-determinant approach of Russian geobotanical school founded by V. N. Sukachev. Syntaxa names are given according to the «Draft Code of Phytocoenological Nomenclature» (Neshataev, 2001).\nThe Prodromus and the diagnostic features of the syntaxa are presented. The entire set of 140 releves was referred to the formation Pineta kochianae differing fr om Pineta sylvestris, not only by dominant species, but also by species composition and community structure. The most constant species occuring in the majority of associations are Juniperus oblonga in the shrub layer; Calamagrostis arundinacea, Fraga­ria vesca, Galium valantioides, Thalictrum foetidum in the herb and dwarf-shrub layer; Rhytidiadelphus triquetrus in the moss one. Six groups of associations and 28 associations were distinguished. The main diagnostic features of association groups (Table 1), phytocoenotic and synoptic tables for associations (tables 2–13) are presented.\nThe density of tree layer in Pinus kochiana stands varied from 0.3 to 0.9. The pine trees at the age of 100 years have a height from 5 to 25 m (usually 10–15). The Pinus kochiana stand yield class (bonitet) varies from Va to III class; stands of IV class predominate. In the tree layer the following species occur in different associations: Acer platanoides, A. trautvetteri, Armeniaca vulgaris, Betula litwinowii, B. pendula, B. raddeana, Carpinus caucasica, Fagus orientalis, Fraxinus excelsior, Juniperus oblonga, Malus orientalis, Populus tremula, Pyrus caucasica, Quercus macranthera, Q. petraea, Q. pubescens, Q. robur, Salix caprea, Sorbus aucuparia, Taxus baccata, Tilia begoniifolia, T. cordata. In the understory the young growth of Betula litwinowii, B. pendula, B. raddeana, Juniperus oblonga, Sorbus aucuparia, Taxus baccata, Ulmus glabra occur. The shrub layer is usually well developed; its density is up to 60 %. The most constant species of the shrub layer in different associations are Berberis vulgaris, Cotinus coggygria, Cotoneaster integerrimus, Daphne glome­rata, D. mezereum, Juniperus oblonga, Lonicera xylosteum, Rhododendron caucasicum, R. luteum, Rosa oxyodon, R. pimpinellifolia. On the upper border of forest belt wild raspberry (Rubus idaeus) and dwarf-shrubs (Empetrum caucasicum, Vaccinium myrtillus, V. vitis-idaea) often occur.\nAltogether 487 species of herbaceous plants were found in studied communities. Perennial forbs and grasses predominate. Ecological-cenotic groups of species (mesophytes, xerophytes and mesoxerophytes) are represented equally. 107 species of Bryopsida and 3 of Marchantiophyta are found, the moss cover varies from single individuals to 90 %. Only few species of epiphytic lichens and single lichens on wind fallen trunks are met.\nKoch pine forests which are widely spread on the northern slopes at the altitude more than 1200 m above the sea level, occur mainly on rocky slopes, formed by sandstones, limestones or clay slates in regions with different climatic conditions — from the dry climate of the foothills to the humid and cold climate of the high mountain Daghestan. Their species composition, set of dominants and community structure depend on the soil type, altitudinal position and the type of underlying rock. Three ecological groups are distinguished: 1) mesophytic pine forests, including moss-rich, rhododendron-rich and mesophytic-grass-herb-rich, 2) xeromesophytic ones with Carex humilis and Brachypodium pinnatum and 3) mezoxerophytic with Quercus pubescens, Cotinus coggygria, Poa bulbosa, etc. (Abdurakhmanova et al., 2015).\nWithin the area of shale part of high mountain Daghestan most common are moss-rich and herb-rich pine forests with boreal, nemoral and Caucasian mesophilic species dominance, which occur at the upper forest lim it. The petrophyte group of associations on rocky sites was first revealed. The Salvia-Onobrychis-rich Koch pine forests (with Salvia canscens and Onobrychis cornuta) are similar to the phryganoid communities on limestone rocks influenced by overgrazing and selective cutting. Koch pine forests of Southern and Foothill Daghestan are characterized by the absence of boreal species common for the forests of high mountain Daghestan.\nThe replacement of pine by other tree species mostly depends on soil conditions and altitudinal position. In the broad-leave forest belt pine is replaced by deciduous tree species better on deep fertile soils than on the shallow soils with low humus content. In contrast to the Western Caucasus, the replacement of pine by spruce (Picea orientalis) and fir (Abies nordmanniana) is never observed in Daghestan due to the absence of these species in it flora.\nCurrently, the climate conditions of Daghestan are quite favorable for the distribution of pine forests. In comparison with other tree species the expansion of Pinus kochiana, supported by a decrease in livestock grazing and decrease in agricultural use, has increased.","PeriodicalId":37606,"journal":{"name":"Rastitel''nost'' Rossii","volume":" ","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2018-12-23","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Rastitel''nost'' Rossii","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.31111/VEGRUS/2018.34.3","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: 2

Abstract

The study of the floristic and coenotic diversity of Daghestan forests was being conducted for about a century. It was started by N. A. Bush (1905) and N. I. Kuznetsov (1911). Later A. A. Grossheim (1925) gave a brief description of birch, pine and mixed forests in the limestone region of internal mountain Daghestan. A significant contribution to the study of these forests was done by I. I. Tumadzhanov (1938), M. M. Magomedmirzayev (1965) and P. L. Lvov (1964). However, despite of the large number of papers on the forest vegetation of Daghestan, the Koch pine (Pinus kochiana Klotzsch. ex C. Koch) forests, which occupy about 75 000 hectares (17 % of the forest area of the Daghestan), were studied poorly. The present study is based on the data of field study by the authors in several districts of foothill Daghestan, internal mountain Daghestan and high mountain Daghestan in 2012–2016 within key-areas. The releves were carried out using the standard methods (Methods…, 2002) on 99 sample plots of 20×20 m. In addition, relevйs collected by Tumadzhanov (1938) and Magomedmirzayev (1965) were used for the syntaxa characteristic. Totally 140 relevйs were included into analysis. The classification of Pinus kochiana communities was made using the dominant-determinant approach of Russian geobotanical school founded by V. N. Sukachev. Syntaxa names are given according to the «Draft Code of Phytocoenological Nomenclature» (Neshataev, 2001). The Prodromus and the diagnostic features of the syntaxa are presented. The entire set of 140 releves was referred to the formation Pineta kochianae differing fr om Pineta sylvestris, not only by dominant species, but also by species composition and community structure. The most constant species occuring in the majority of associations are Juniperus oblonga in the shrub layer; Calamagrostis arundinacea, Fraga­ria vesca, Galium valantioides, Thalictrum foetidum in the herb and dwarf-shrub layer; Rhytidiadelphus triquetrus in the moss one. Six groups of associations and 28 associations were distinguished. The main diagnostic features of association groups (Table 1), phytocoenotic and synoptic tables for associations (tables 2–13) are presented. The density of tree layer in Pinus kochiana stands varied from 0.3 to 0.9. The pine trees at the age of 100 years have a height from 5 to 25 m (usually 10–15). The Pinus kochiana stand yield class (bonitet) varies from Va to III class; stands of IV class predominate. In the tree layer the following species occur in different associations: Acer platanoides, A. trautvetteri, Armeniaca vulgaris, Betula litwinowii, B. pendula, B. raddeana, Carpinus caucasica, Fagus orientalis, Fraxinus excelsior, Juniperus oblonga, Malus orientalis, Populus tremula, Pyrus caucasica, Quercus macranthera, Q. petraea, Q. pubescens, Q. robur, Salix caprea, Sorbus aucuparia, Taxus baccata, Tilia begoniifolia, T. cordata. In the understory the young growth of Betula litwinowii, B. pendula, B. raddeana, Juniperus oblonga, Sorbus aucuparia, Taxus baccata, Ulmus glabra occur. The shrub layer is usually well developed; its density is up to 60 %. The most constant species of the shrub layer in different associations are Berberis vulgaris, Cotinus coggygria, Cotoneaster integerrimus, Daphne glome­rata, D. mezereum, Juniperus oblonga, Lonicera xylosteum, Rhododendron caucasicum, R. luteum, Rosa oxyodon, R. pimpinellifolia. On the upper border of forest belt wild raspberry (Rubus idaeus) and dwarf-shrubs (Empetrum caucasicum, Vaccinium myrtillus, V. vitis-idaea) often occur. Altogether 487 species of herbaceous plants were found in studied communities. Perennial forbs and grasses predominate. Ecological-cenotic groups of species (mesophytes, xerophytes and mesoxerophytes) are represented equally. 107 species of Bryopsida and 3 of Marchantiophyta are found, the moss cover varies from single individuals to 90 %. Only few species of epiphytic lichens and single lichens on wind fallen trunks are met. Koch pine forests which are widely spread on the northern slopes at the altitude more than 1200 m above the sea level, occur mainly on rocky slopes, formed by sandstones, limestones or clay slates in regions with different climatic conditions — from the dry climate of the foothills to the humid and cold climate of the high mountain Daghestan. Their species composition, set of dominants and community structure depend on the soil type, altitudinal position and the type of underlying rock. Three ecological groups are distinguished: 1) mesophytic pine forests, including moss-rich, rhododendron-rich and mesophytic-grass-herb-rich, 2) xeromesophytic ones with Carex humilis and Brachypodium pinnatum and 3) mezoxerophytic with Quercus pubescens, Cotinus coggygria, Poa bulbosa, etc. (Abdurakhmanova et al., 2015). Within the area of shale part of high mountain Daghestan most common are moss-rich and herb-rich pine forests with boreal, nemoral and Caucasian mesophilic species dominance, which occur at the upper forest lim it. The petrophyte group of associations on rocky sites was first revealed. The Salvia-Onobrychis-rich Koch pine forests (with Salvia canscens and Onobrychis cornuta) are similar to the phryganoid communities on limestone rocks influenced by overgrazing and selective cutting. Koch pine forests of Southern and Foothill Daghestan are characterized by the absence of boreal species common for the forests of high mountain Daghestan. The replacement of pine by other tree species mostly depends on soil conditions and altitudinal position. In the broad-leave forest belt pine is replaced by deciduous tree species better on deep fertile soils than on the shallow soils with low humus content. In contrast to the Western Caucasus, the replacement of pine by spruce (Picea orientalis) and fir (Abies nordmanniana) is never observed in Daghestan due to the absence of these species in it flora. Currently, the climate conditions of Daghestan are quite favorable for the distribution of pine forests. In comparison with other tree species the expansion of Pinus kochiana, supported by a decrease in livestock grazing and decrease in agricultural use, has increased.
达吉斯坦共和国的松林
对达赫斯坦森林的区系和群落多样性的研究已经进行了大约一个世纪。它是由N.A.Bush(1905)和N.I.Kuznetsov(1911)创立的。后来,A.A.Grossheim(1925)简要描述了达吉斯坦内山石灰岩地区的桦树、松树和混交林。I.I.Tumadzhanov(1938)、M.M.Magomedmirzayev(1965)和P.L.Lvov(1964)对这些森林的研究做出了重大贡献。然而,尽管有大量关于达吉斯坦森林植被的论文,但对约75000公顷(占达吉斯坦林区17%)的科赫松(Pinus kochiana Klotzsch.ex C.Koch)森林的研究却很少。本研究基于作者2012-2016年在重点地区内的山麓-达赫斯坦、内山-达赫斯坦和高山-达赫坦几个地区的实地研究数据。使用标准方法(methods…,2002)在99个20×20m的样地上进行了相关研究。此外,使用Tumadzhanov(1938)和Magomedmirzayev(1965)收集的relevйs进行句法特征分析。共纳入140个相关因素进行分析。利用苏卡切夫建立的俄罗斯地植物学校的优势行列式方法对中国松群落进行了分类。根据《植物群落命名法草案》(Neshataev,2001)给出了新分类群的名称。介绍了syntaxa的Prodromus和诊断特征。整个140个亲缘关系是指与樟子松不同的松科的形成,不仅在优势种方面,而且在物种组成和群落结构方面。大多数群落中最常出现的物种是灌木层的圆柏;草本和矮生灌木层中的Calamagrostis arundinacea、Fraga­ria vesca、Galium valantioides、Thalictrum foetidum;Rhytidiadelphus triquetrus在苔藓中的一个。区分了6组协会和28个协会。介绍了关联组的主要诊断特征(表1)、关联的植物群落学和天气学表(表2-13)。赤松林分乔木层密度在0.3~0.9之间。100年树龄的松树的高度为5至25米(通常为10至15米)。赤松林分产量等级(bonitet)从Va级到III级不等;以IV级林分为主。在乔木层中,以下物种以不同的组合出现:Acer platanoides、A.trautvetteri、Armeniica vulgaris、Betula litwinowii、B.pendula、B.raddeana、Carpinus caucasica、Fagus orientalis、Fraxinus excelsior、Juniperus oblonga、Malus orientalis,Populus tremula、Pyrus caucasica,Quercus macranthera、Q.petraea、Q,红豆杉,秋海棠,T.cordata。林下生长着小桦、垂枝桦、拉德德纳桦、欧龙杜松、奥氏花楸、巴卡红豆杉、光榆等幼树。灌木层通常发育良好;其密度高达60%。不同群落中灌木层中最常出现的物种是小檗、黄檗、油桐、达芙妮、梅泽兰、圆柏、木忍冬、高加索杜鹃、木犀、氧齿蔷薇、皮条菊。在林带的上缘,经常出现野生树莓(Rubus idaeus)和矮生灌木(Empetrum caucasicum,Vaccinium myrtillus,V.vitis idaea)。在研究的群落中共发现487种草本植物。多年生草本植物和草本植物占主导地位。物种的生态群落(中生植物、旱生植物和中旱生植物)具有同等的代表性。苔藓目有107种,马钱藻目有3种,苔藓覆盖率从单个个体到90%不等。只有少数附生地衣和风倒树干上的单生地衣。Koch松林广泛分布在海拔1200米以上的北坡,主要分布在不同气候条件地区的砂岩、石灰石或粘土板岩形成的岩石斜坡上,从山麓的干燥气候到达赫斯坦高山的潮湿寒冷气候。它们的物种组成、优势类群和群落结构取决于土壤类型、海拔位置和下伏岩石类型。区分了三个生态群:1)中生松林,包括富含苔藓、杜鹃花和中生草本植物的中生松林;2)具有苔草和羽状短柄草的中生干生松林;3)具有毛栎、黄檗、球墨栎等的中生中生干植松林(Abdurakhmanova et al.,2015)。
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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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