Diversity of aquatic plant communities in the lakes of the Ob-Irtysh interfluve (West Siberia)

Q4 Agricultural and Biological Sciences
L. Kipriyanova
{"title":"Diversity of aquatic plant communities in the lakes of the Ob-Irtysh interfluve (West Siberia)","authors":"L. Kipriyanova","doi":"10.31111/vegrus/2022.43.60","DOIUrl":null,"url":null,"abstract":"The information on the syntaxonomic diversity of aquatic vegetation in the Ob-Irtysh interfluve (south of West Siberia), which was revealed using the ecological-floristic approach (Braun-Blanquet, 1964) is summarized. Lake ecosystems of the studied region are exposed to cyclical changes in accordance with the cyclicity of the hydrological regime of the lakes. Periodic fluctuations in the water level in lakes are accompanied by changes in mineralization, and therefore the biological regime of the lakes is unstable. The studies were carried out from 2001 to 2014 in Novosibirsk Region and Altai Territory. 164 complete geobotanical relevés made by the author on 80 lakes are used (Fig. 1, table 1); a list of studied lakes is given. Field work was carried out during the period of the lowest water level (summer dry season) — July–August. The following scale was used for abundance estimation: r — the species is extremely rare; + — rare, small cover; 1 — the number of individuals is large, the cover is small or individuals are sparse, but the cover is large; 2 —cover of 5–25 %; 3 — 26–50 %; 4 — 51–75 %; 5 — more than 75 %. Computer programs Turboveg for Windows 2.117 (Hennekens, Schaminée, 2001) and Juice 7.0.45 (Tichý, 2002) were used for data treatment. The syntaxonomic affiliation of phytocenoses was determined using modern literature (Bobrov, Chemeris, 2006; Vegetace…, 2011; Chepinoga, 2015; Landucci et al. 2015; Mucina, 2016). The coenotic diversity of aquatic vegetation in the studied lakes is 43 associations and 2 communities from 12 alliances, 6 orders, 5 classes (Tables 2–11). Eight associations belong to the class Lemnetea; 18 associations — Potamogetonetea; 3 associations and 2 communities — Stigeoclonietea tenuis; 9 associations — Charetea intermediae; 5 associations — Ruppietea maritimae. This rather high value of phytocenotic diversity is due to the high diversity of ecological conditions of specific lakes, in turn, determined by the different origin of lakes, the nature and composition of soils, salinity and chemical composition of waters, and temperature regime. Two new associations – Najadetum majoris ass. nov. and Ranunculetum subrigidi ass. nov. — are described. Table 10 shows the values of the frequency of associations (aquatic communities) in the lakes of the Novosibirsk region. We have identified phytocenotic complexes on the basis of data on the ranges of halotolerance of associations and in accordance with the frequency of associations in the lakes of different mineralization. Four phytocenotic complexes can be distinguished for the studied lakes of the Baraba Lowland and Kulunda Plain: freshwater, oligo-mesohaline, meso-hyperhaline, and euryhaline (Fig. 12). As for the ranges of halotoleration of lake communities, it is obvious that it is impossible to establish the universal ranges of halotolerance of species and communities of macrophytes for a number of reasons 1) regional differences in the salt composition of waters, 2) seasonal fluctuations in water salinity; 3) varying methods of mineralization measuring (ionometrically or analytically and also different analytical methods — by the sum of ions, and by the dry residual). However, several general trends can be distinguished. The main trend is a decrease in the species and coenotic diversity of aquatic and semi-aquatic vegetation with mineralization growth (Hammer, 1988; Williams, 1998; our data, etc.) This universal pattern is true for all groups of biota (Hammer, 1986; Williams, 1998; Kipriyanova et al., 2007, etc.). Communities of the assosiations Lemnetum trisulcae, Lemno–Utricularietum vulgaris, Potamogetono–Ceratophylletumsubmersi, Najadetum marinae, Potamogetonetum perfoliati were more resistant to high mineralization (up to 5 g/dm3 according to our data). The highest halotolerance among aquatic plant communities is found for the associations Ruppietum maritimae and Ruppietum drepanensis, as well as for Cladophoretum fractae. Based on the results of our research, it has been shown that in the continental lakes of the southeast of Western Siberia, such specific cenoses of continental water bodies of Siberia, as the communities of the assosiations Stuckenietum macrocarpae and Cladophoro fractae–Stuckenietum chakassiensis (Kipriyanova, 2017), mainly occur in oligo- and mesohaline waters in the range of mineralization 0.5–18.0 g/dm3. Stratiotetum aloidis, Nymphaeo–Nupharetum luteae, Nymphaeetum candidae associations were common in the freshwater lakes (up to 0.5 g/dm3), another ones were met moderately and less frequently. Associations Lemnetum trisulcae, Lemno minoris Ceratophylletum demersi were common in the β-oligohaline (0.5–1 g/dm3) lakes. Lemno–Utricularietum vulgaris, Myriophylletum sibirici, Potamogetonetum pectinati, Potamogetonetum perfoliati, Stuckenietum macrocarpae were moderately frequent, the rest were rare and solitary. Associations Lemnetum trisulcae, Lemno minoris–Ceratophylletum submersi, Stuckenietum macrocarpae, and Cladophoro fractae–Stuckenietum chakassiensis were common in the α-oligohaline lakes (1–5 g/dm3). The rest were moderately and less frequent. In mesohaline waters (5–18 g/dm3), associations Cladophoro fractae–Stuckenietum chakassiensis and Ruppietum maritimae were common. The rare in the studied lakes communities of the associations Najadetum marinae, Ruppietum maritimae, Ruppietum drepanensis, Charetum tomentosae, Nitellopsidetum obtusae are need in protection, since they include the species listed in the Red Data Book of the Novosibirsk Region (Krasnaya ..., 2018).","PeriodicalId":37606,"journal":{"name":"Rastitel''nost'' Rossii","volume":"1 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2022-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Rastitel''nost'' Rossii","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.31111/vegrus/2022.43.60","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: 1

Abstract

The information on the syntaxonomic diversity of aquatic vegetation in the Ob-Irtysh interfluve (south of West Siberia), which was revealed using the ecological-floristic approach (Braun-Blanquet, 1964) is summarized. Lake ecosystems of the studied region are exposed to cyclical changes in accordance with the cyclicity of the hydrological regime of the lakes. Periodic fluctuations in the water level in lakes are accompanied by changes in mineralization, and therefore the biological regime of the lakes is unstable. The studies were carried out from 2001 to 2014 in Novosibirsk Region and Altai Territory. 164 complete geobotanical relevés made by the author on 80 lakes are used (Fig. 1, table 1); a list of studied lakes is given. Field work was carried out during the period of the lowest water level (summer dry season) — July–August. The following scale was used for abundance estimation: r — the species is extremely rare; + — rare, small cover; 1 — the number of individuals is large, the cover is small or individuals are sparse, but the cover is large; 2 —cover of 5–25 %; 3 — 26–50 %; 4 — 51–75 %; 5 — more than 75 %. Computer programs Turboveg for Windows 2.117 (Hennekens, Schaminée, 2001) and Juice 7.0.45 (Tichý, 2002) were used for data treatment. The syntaxonomic affiliation of phytocenoses was determined using modern literature (Bobrov, Chemeris, 2006; Vegetace…, 2011; Chepinoga, 2015; Landucci et al. 2015; Mucina, 2016). The coenotic diversity of aquatic vegetation in the studied lakes is 43 associations and 2 communities from 12 alliances, 6 orders, 5 classes (Tables 2–11). Eight associations belong to the class Lemnetea; 18 associations — Potamogetonetea; 3 associations and 2 communities — Stigeoclonietea tenuis; 9 associations — Charetea intermediae; 5 associations — Ruppietea maritimae. This rather high value of phytocenotic diversity is due to the high diversity of ecological conditions of specific lakes, in turn, determined by the different origin of lakes, the nature and composition of soils, salinity and chemical composition of waters, and temperature regime. Two new associations – Najadetum majoris ass. nov. and Ranunculetum subrigidi ass. nov. — are described. Table 10 shows the values of the frequency of associations (aquatic communities) in the lakes of the Novosibirsk region. We have identified phytocenotic complexes on the basis of data on the ranges of halotolerance of associations and in accordance with the frequency of associations in the lakes of different mineralization. Four phytocenotic complexes can be distinguished for the studied lakes of the Baraba Lowland and Kulunda Plain: freshwater, oligo-mesohaline, meso-hyperhaline, and euryhaline (Fig. 12). As for the ranges of halotoleration of lake communities, it is obvious that it is impossible to establish the universal ranges of halotolerance of species and communities of macrophytes for a number of reasons 1) regional differences in the salt composition of waters, 2) seasonal fluctuations in water salinity; 3) varying methods of mineralization measuring (ionometrically or analytically and also different analytical methods — by the sum of ions, and by the dry residual). However, several general trends can be distinguished. The main trend is a decrease in the species and coenotic diversity of aquatic and semi-aquatic vegetation with mineralization growth (Hammer, 1988; Williams, 1998; our data, etc.) This universal pattern is true for all groups of biota (Hammer, 1986; Williams, 1998; Kipriyanova et al., 2007, etc.). Communities of the assosiations Lemnetum trisulcae, Lemno–Utricularietum vulgaris, Potamogetono–Ceratophylletumsubmersi, Najadetum marinae, Potamogetonetum perfoliati were more resistant to high mineralization (up to 5 g/dm3 according to our data). The highest halotolerance among aquatic plant communities is found for the associations Ruppietum maritimae and Ruppietum drepanensis, as well as for Cladophoretum fractae. Based on the results of our research, it has been shown that in the continental lakes of the southeast of Western Siberia, such specific cenoses of continental water bodies of Siberia, as the communities of the assosiations Stuckenietum macrocarpae and Cladophoro fractae–Stuckenietum chakassiensis (Kipriyanova, 2017), mainly occur in oligo- and mesohaline waters in the range of mineralization 0.5–18.0 g/dm3. Stratiotetum aloidis, Nymphaeo–Nupharetum luteae, Nymphaeetum candidae associations were common in the freshwater lakes (up to 0.5 g/dm3), another ones were met moderately and less frequently. Associations Lemnetum trisulcae, Lemno minoris Ceratophylletum demersi were common in the β-oligohaline (0.5–1 g/dm3) lakes. Lemno–Utricularietum vulgaris, Myriophylletum sibirici, Potamogetonetum pectinati, Potamogetonetum perfoliati, Stuckenietum macrocarpae were moderately frequent, the rest were rare and solitary. Associations Lemnetum trisulcae, Lemno minoris–Ceratophylletum submersi, Stuckenietum macrocarpae, and Cladophoro fractae–Stuckenietum chakassiensis were common in the α-oligohaline lakes (1–5 g/dm3). The rest were moderately and less frequent. In mesohaline waters (5–18 g/dm3), associations Cladophoro fractae–Stuckenietum chakassiensis and Ruppietum maritimae were common. The rare in the studied lakes communities of the associations Najadetum marinae, Ruppietum maritimae, Ruppietum drepanensis, Charetum tomentosae, Nitellopsidetum obtusae are need in protection, since they include the species listed in the Red Data Book of the Novosibirsk Region (Krasnaya ..., 2018).
西伯利亚西部鄂-额尔齐斯河流域湖泊水生植物群落多样性
总结了利用生态区系方法(Braun Blanquet,1964)揭示的鄂尔齐斯河间(西西伯利亚南部)水生植被群落多样性的信息。研究区域的湖泊生态系统根据湖泊水文状况的周期性而受到周期性变化的影响。湖泊水位的周期性波动伴随着矿化的变化,因此湖泊的生物状况是不稳定的。这些研究于2001年至2014年在新西伯利亚地区和阿尔泰地区进行。使用了作者在80个湖泊上制作的164份完整的地学相关资料(图1,表1);给出了研究湖泊的列表。实地工作是在最低水位(夏季旱季)的7月至8月期间进行的。丰度估计使用了以下尺度:r-该物种极为罕见;+-罕见的小封面;1--个体数量大,覆盖物小或个体稀疏,但覆盖物大;2-覆盖率为5-25%;3--26-50%;4--51-75%;5——超过75%。计算机程序Turboveg for Windows 2.117(Hennekens,Schaminée,2001)和Juice 7.0.45(Tichý,2002)用于数据处理。利用现代文献确定了植物群落的共生关系(Bobrov,Chemeris,2006;Vegetace…,2011;Chepinoga,2015;Landucci等人2015;Mucina,2016)。所研究湖泊中水生植被的共生多样性为43个群落和2个群落,来自12个联盟,6目,5类(表2-11)。八个协会属于Lemnetea类;18个协会——Potamogetonetea;3个协会和2个社区——Stigeolonitea tenuis;9个协会——中间Charetea intermediae;5个协会——Ruppietea maritimae。植物群落多样性的这种相当高的价值是由于特定湖泊生态条件的高度多样性,而这又是由湖泊的不同起源、土壤的性质和组成、水域的盐度和化学组成以及温度状况决定的。描述了两个新的组合——大花蛙和小毛茛。表10显示了新西伯利亚地区湖泊中协会(水生群落)的频率值。我们根据缔合物的耐盐性范围数据,并根据不同矿化湖泊中缔合物的频率,确定了植物群落复合体。在巴拉巴低地和库伦达平原的研究湖泊中,可以区分出四种植物源复合物:淡水、寡中卤、中高卤和广卤(图12)。关于湖泊群落的耐盐性范围,很明显,由于以下几个原因,不可能确定大型植物物种和群落的普遍耐盐性,1)水域盐分组成的区域差异,2)水盐度的季节性波动;3) 矿化测量的不同方法(离子测量法或分析法,以及不同的分析方法——通过离子总和和干燥残留物)。然而,可以区分出几个总体趋势。主要趋势是随着矿化生长,水生和半水生植被的物种和共生多样性减少(Hammer,1988;Williams,1998;我们的数据等)。这种普遍模式适用于所有生物群(Hammer、1986;Williams、1998;Kipriyanova等人,2007等),Potamogetono–Ceratophylletumsubmersi、Najadetum marinae、Potamogetonetum perfoliati更耐高矿化度(根据我们的数据,高达5 g/dm3)。水生植物群落中耐盐性最高的是Ruppietum maritimae和Rupietum drepanensis,以及Cladoveretum fractae。根据我们的研究结果,已经表明,在西西伯利亚东南部的大陆湖泊中,西伯利亚大陆水体的特定cenoses,如Stuckenietum macrocarpae和Cladophoro fractae–Stuckeniestum chakasiensis的群落(Kipriyanova,2017),主要发生在矿化度为0.5–18.0 g/dm3的寡盐和中盐水域。在淡水湖(高达0.5 g/dm3)中,aloidis地层、Nymphaeo-Nupharetum luteae、Nympheetum candite组合很常见,另一种组合出现频率适中且较低。在β-寡卤(0.5–1 g/dm3)湖泊中,三硫化柠檬属和二硫化柠檬属的组合很常见。Lemno–Utricularietum vulgaris、Myriophylletum sibirici、Potamogetonetum果胶、Potamogeonetum perfoliati、Stuckenietum macrocarpae为中等频率,其余为罕见和孤立。
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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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