Dynamics of vegetation after clearcutting bilberry spruce forests (middle taiga subzone of the European North-East of Russia)

Q4 Agricultural and Biological Sciences Rastitel''nost'' Rossii Pub Date : 2021-01-01 DOI:10.31111/vegrus/2021.40.108
I. Likhanova, E. Perminova, G. S. Shushpannikova, G. V. Zheleznova, T. Pystina, Y. Kholopov
{"title":"Dynamics of vegetation after clearcutting bilberry spruce forests (middle taiga subzone of the European North-East of Russia)","authors":"I. Likhanova, E. Perminova, G. S. Shushpannikova, G. V. Zheleznova, T. Pystina, Y. Kholopov","doi":"10.31111/vegrus/2021.40.108","DOIUrl":null,"url":null,"abstract":"The communities of middle taiga spruce forests (ass. Linnaeo borealis–Piceetum abietis dryopteridetosum var. typica) and secondary communities formed after winter clearcuttings are described (Fig. 1) and classified according Braun-Blanquet (1964) approach using 81 relevés. Ellenberg ecological values (Ellenberg et al., 1991) were used to assess lighting (L), soil moisture (F), acidity (R) and nitrogen (N). The ordination was carried out using the NMS method. Both primary forest and secondary communities are classified as the alliance Piceion excelsae Pawłowskiet al. 1928 within the order Piceetalia excelsae Pawłowski et al. 1928 in the class Vaccinio–Piceetea Br.-Bl. in Br.-Bl.et al. 1939. We described 2 associations (incl.  1 new), 3 subassociations (2 new), 2 varieties (1 new), 2 subvarieties, and 2 communities. Ass. Aulacomnio palustris–Calamagrostietum purpureae ass. nov. hoc loco (Table 2). Nomenclature type (holotypus hoc loco): relevé 16 (field № 26p/20), Komi Republic, Ust-Kulom district, two-year cutting place, swath (61.84083° N 54.33778° E, 16.07.2020, author I. A. Likhanova. Diagnostic species (DS): Aulacomnium palustre, Calamagrostis purpurea, Carex globularis, Chamaenerion angustifolium, Polytrichum commune, Sphagnum angustifolium. The association includes «young» (succession stage 1(2)-17(18) years after cutting) secondary communities, formed at the swaths and skidding trails. The absence of tree stand results in the increased lighting and soil moisture, which explains an invasion of heliophile and water-resistant species of vascular plants and mosses. After cutting, DS of the primary association and subassociation almost disappear, but those of class and order remain. Species number — 23–54, average — 38. There are 2 subassociations within aasociation. Subass. A. p.–C. p. typicum subass. nov. hoc loco (Table 2 relevés 1–16, Fig. 3). Nomenclature type (holotypus hoc loco): relevé 16 (field № 26p/20), Komi Republic, Ust-Kulom district, two-year cutting of spruce herb-bilberry-green moss forest at the swath (61.84083° N 54.33778° E , 16.07.2020, author I. A. Likhanova. No own DS. The subassociation includes communities at the swath and skidding trails of 1(2)-year cutting place with poor species richness in comparison with primary forests. Number of species 20–27, average – 24. Subass. A. p.–C. p. avenelletosum flexuosae subass. nov. hoc loco (Table 2, relevés 17–27, Fig. 4). Nomenclature type (holotypus hoc loco), relevé 25 (field № 13-УК), Komi Republic, Ust-Kulom district, 17-year cutting place, swath (61.99389° N, 54.14778° E , 17.09.2019, author I. A. Likhanova. DS: Avenella flexuosa, Gymnocarpium dryopteris, Rubus arcticus.The subassociation includes communities of swaths and skidding trails at 17(18)-year cutting place enriched by heliophile and water-resistant species. The forming forest environment is the reason of high abundance of forest species and emergence of several diagnostic species of primary association and subassociation. The cutting remains are overgrown by epigeous mosses and lichens. Species number — 24–45, average — 33. Community Carex brunnescens (Table 3, relevés 1–12, Fig. 5). DS: Carex brunnescens (dominant), C. canescens, Ceratodon purpureus, Dicranella cerviculata (dominant). Syntaxon includes communities at the main skidding trail at 1(2)-year cutting place. Despite high abundance of diagnostic species of the ass. Aulacomnio palustris–Calamagrostietum purpureae, we can’t include the relevés into the association due to high diversity of early succession species and low abundance of DS of both the class Vaccinio–Piceetea sylvestris and the order Piceetalia excelsae. There are numerous undergrowth of Betula pubescens (18 thousand ind./ha). Herb-dwarf shrub and moss layers are formed by pioneer, heliophile and water-resistant species. Forest dwarf shrubs, herbs and mosses occur on the litter remnants. Species number — 20–34, average — 27. Community Salix caprea. (Table 3, relevés 13–22, Fig. 6). DS: Agrostis gigantea, A. tenuis, Carex rhynchophysa, Deschampsia cespitosa, Epilobium palustre, Juncus filiformis, Populus tremula, Salix caprea (dominant), S. myrsinifolia, S. phylicifolia, Sphagnum russowii. The syntaxon includes communities at the main skidding trail of 17(18)-year cutting place. The presence of DS of ass. Aulacomnio palustris–Calamagrostietum purpureae and subass. A. p.–C. p. avenelletosum flexuosae as well as the prevalence of water resistant and early succession species and low abundance of DS of class Vaccinio–Piceetea sylvestris and order Piceetalia excelsae are character. Tree stand is formed by young trees of Betula pubescens (mean density is 21 thousand ind./ha). Shrub layer is formed by wiilows. Herb-dwarf shrub layer is dominated by species, preferring water logging, and species of disturbed habitats. Species number — 36–45, average — 40. Subass. Linnaeo borealis–Piceetum abietis dryopteridetosum var. Betula pubescens (Table 1, relevés 13–22). DS: Betula pubescens (dominant), Milium effusum, Rhytidiadelphus triquetrus. The variant includes communities at 48(49)-year cutting place. The tree lyer height and crown density are comparable to those of the indigenous spruce forest, however, the proportion of birch is higher. Vascular plant DS of ass. Linnaeo borealis–Piceetum abietis and subass. dryopteridetosum are registered, but the abundance of moss DS is low. Many forest species become abundant in the herb-dwarf shrub layer. Moss layer is inhibited by leaf litter. Species number — 29–45, average — 36. There are 2 subvarieties: typica (communities at the swath and skidding trails) and Calamagrostis purpurea (main skidding trail). The scheme of vegetation succession after clearcuttings of spruce small herb-bilberry-green moss forests (Linnaeo borealis–Piceetum abietis dryopteridetosum var. typica) (Fig. 10) is made on the results of NMS-ordination (Fig. 9) and the data on the restoration period and preferences of syntaxa to the certain technological elements of the cutting place. The following succession series are described: at the swaths and skidding trails — Aulacomnio palustris–Calamagrostietum purpureae typicum → A. p.–C. p. avenelletosum flexuosae → Linnaeo borealis–Piceetum abietis dryopteridetosum var. Betula pubescens subvar. typica → L. b.–P. a. dryopteridetosum var. typica; at the skidding trails – community Carex brunnescens →community Salix caprea → Linnaeo borealis–Piceetum abietis dryopteridetosum var. Betula pubescens subvar. Calamagrostis purpurea → L. b.–P. a. dryopteridetosum var. typica. In communities of different ages at swaths and skidding trails, the species richness of vascular plants (16–18 species/100 m2) and mosses (8–10 species/100 m2) is lower compare to the primary spruce forest (19 and 14 species/100 m2 respectively). The species richness of vascular plants at 17-year and 48-year communities of the main skidding trails (27 species/100 m2) is higher than in the primary forest due to the invasion of pioneer, meadow and mire species; that of mosses is lower (8–12 species/100 m2). Thus, the cutting has a negative impact on species diversity, which is expressed in forest species loss. The floristic composition of the disturbed forest community is not restored even fifty years after anthropogenic impact.","PeriodicalId":37606,"journal":{"name":"Rastitel''nost'' Rossii","volume":"1 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2021-01-01","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/2021.40.108","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 communities of middle taiga spruce forests (ass. Linnaeo borealis–Piceetum abietis dryopteridetosum var. typica) and secondary communities formed after winter clearcuttings are described (Fig. 1) and classified according Braun-Blanquet (1964) approach using 81 relevés. Ellenberg ecological values (Ellenberg et al., 1991) were used to assess lighting (L), soil moisture (F), acidity (R) and nitrogen (N). The ordination was carried out using the NMS method. Both primary forest and secondary communities are classified as the alliance Piceion excelsae Pawłowskiet al. 1928 within the order Piceetalia excelsae Pawłowski et al. 1928 in the class Vaccinio–Piceetea Br.-Bl. in Br.-Bl.et al. 1939. We described 2 associations (incl.  1 new), 3 subassociations (2 new), 2 varieties (1 new), 2 subvarieties, and 2 communities. Ass. Aulacomnio palustris–Calamagrostietum purpureae ass. nov. hoc loco (Table 2). Nomenclature type (holotypus hoc loco): relevé 16 (field № 26p/20), Komi Republic, Ust-Kulom district, two-year cutting place, swath (61.84083° N 54.33778° E, 16.07.2020, author I. A. Likhanova. Diagnostic species (DS): Aulacomnium palustre, Calamagrostis purpurea, Carex globularis, Chamaenerion angustifolium, Polytrichum commune, Sphagnum angustifolium. The association includes «young» (succession stage 1(2)-17(18) years after cutting) secondary communities, formed at the swaths and skidding trails. The absence of tree stand results in the increased lighting and soil moisture, which explains an invasion of heliophile and water-resistant species of vascular plants and mosses. After cutting, DS of the primary association and subassociation almost disappear, but those of class and order remain. Species number — 23–54, average — 38. There are 2 subassociations within aasociation. Subass. A. p.–C. p. typicum subass. nov. hoc loco (Table 2 relevés 1–16, Fig. 3). Nomenclature type (holotypus hoc loco): relevé 16 (field № 26p/20), Komi Republic, Ust-Kulom district, two-year cutting of spruce herb-bilberry-green moss forest at the swath (61.84083° N 54.33778° E , 16.07.2020, author I. A. Likhanova. No own DS. The subassociation includes communities at the swath and skidding trails of 1(2)-year cutting place with poor species richness in comparison with primary forests. Number of species 20–27, average – 24. Subass. A. p.–C. p. avenelletosum flexuosae subass. nov. hoc loco (Table 2, relevés 17–27, Fig. 4). Nomenclature type (holotypus hoc loco), relevé 25 (field № 13-УК), Komi Republic, Ust-Kulom district, 17-year cutting place, swath (61.99389° N, 54.14778° E , 17.09.2019, author I. A. Likhanova. DS: Avenella flexuosa, Gymnocarpium dryopteris, Rubus arcticus.The subassociation includes communities of swaths and skidding trails at 17(18)-year cutting place enriched by heliophile and water-resistant species. The forming forest environment is the reason of high abundance of forest species and emergence of several diagnostic species of primary association and subassociation. The cutting remains are overgrown by epigeous mosses and lichens. Species number — 24–45, average — 33. Community Carex brunnescens (Table 3, relevés 1–12, Fig. 5). DS: Carex brunnescens (dominant), C. canescens, Ceratodon purpureus, Dicranella cerviculata (dominant). Syntaxon includes communities at the main skidding trail at 1(2)-year cutting place. Despite high abundance of diagnostic species of the ass. Aulacomnio palustris–Calamagrostietum purpureae, we can’t include the relevés into the association due to high diversity of early succession species and low abundance of DS of both the class Vaccinio–Piceetea sylvestris and the order Piceetalia excelsae. There are numerous undergrowth of Betula pubescens (18 thousand ind./ha). Herb-dwarf shrub and moss layers are formed by pioneer, heliophile and water-resistant species. Forest dwarf shrubs, herbs and mosses occur on the litter remnants. Species number — 20–34, average — 27. Community Salix caprea. (Table 3, relevés 13–22, Fig. 6). DS: Agrostis gigantea, A. tenuis, Carex rhynchophysa, Deschampsia cespitosa, Epilobium palustre, Juncus filiformis, Populus tremula, Salix caprea (dominant), S. myrsinifolia, S. phylicifolia, Sphagnum russowii. The syntaxon includes communities at the main skidding trail of 17(18)-year cutting place. The presence of DS of ass. Aulacomnio palustris–Calamagrostietum purpureae and subass. A. p.–C. p. avenelletosum flexuosae as well as the prevalence of water resistant and early succession species and low abundance of DS of class Vaccinio–Piceetea sylvestris and order Piceetalia excelsae are character. Tree stand is formed by young trees of Betula pubescens (mean density is 21 thousand ind./ha). Shrub layer is formed by wiilows. Herb-dwarf shrub layer is dominated by species, preferring water logging, and species of disturbed habitats. Species number — 36–45, average — 40. Subass. Linnaeo borealis–Piceetum abietis dryopteridetosum var. Betula pubescens (Table 1, relevés 13–22). DS: Betula pubescens (dominant), Milium effusum, Rhytidiadelphus triquetrus. The variant includes communities at 48(49)-year cutting place. The tree lyer height and crown density are comparable to those of the indigenous spruce forest, however, the proportion of birch is higher. Vascular plant DS of ass. Linnaeo borealis–Piceetum abietis and subass. dryopteridetosum are registered, but the abundance of moss DS is low. Many forest species become abundant in the herb-dwarf shrub layer. Moss layer is inhibited by leaf litter. Species number — 29–45, average — 36. There are 2 subvarieties: typica (communities at the swath and skidding trails) and Calamagrostis purpurea (main skidding trail). The scheme of vegetation succession after clearcuttings of spruce small herb-bilberry-green moss forests (Linnaeo borealis–Piceetum abietis dryopteridetosum var. typica) (Fig. 10) is made on the results of NMS-ordination (Fig. 9) and the data on the restoration period and preferences of syntaxa to the certain technological elements of the cutting place. The following succession series are described: at the swaths and skidding trails — Aulacomnio palustris–Calamagrostietum purpureae typicum → A. p.–C. p. avenelletosum flexuosae → Linnaeo borealis–Piceetum abietis dryopteridetosum var. Betula pubescens subvar. typica → L. b.–P. a. dryopteridetosum var. typica; at the skidding trails – community Carex brunnescens →community Salix caprea → Linnaeo borealis–Piceetum abietis dryopteridetosum var. Betula pubescens subvar. Calamagrostis purpurea → L. b.–P. a. dryopteridetosum var. typica. In communities of different ages at swaths and skidding trails, the species richness of vascular plants (16–18 species/100 m2) and mosses (8–10 species/100 m2) is lower compare to the primary spruce forest (19 and 14 species/100 m2 respectively). The species richness of vascular plants at 17-year and 48-year communities of the main skidding trails (27 species/100 m2) is higher than in the primary forest due to the invasion of pioneer, meadow and mire species; that of mosses is lower (8–12 species/100 m2). Thus, the cutting has a negative impact on species diversity, which is expressed in forest species loss. The floristic composition of the disturbed forest community is not restored even fifty years after anthropogenic impact.
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采伐后越莓云杉林植被动态(俄罗斯欧洲东北部针叶林中部亚区)
本文描述了中部针叶林云杉林(ass. Linnaeo boreala - piceetum abietis dryopteridetosum var. typica)和冬季采伐后形成的次生群落(图1),并根据Braun-Blanquet(1964)方法使用81个相关的采样数据进行了分类。采用Ellenberg生态值(Ellenberg et al., 1991)对光照(L)、土壤湿度(F)、酸度(R)和氮素(N)进行评价,采用NMS方法进行排序。原生林和次生群落都被归为Piceion excelsae Pawłowskiet al. 1928,隶属于picetalia excelsae Pawłowskiet al. 1928,隶属于Vaccinio-Piceetea Br.-Bl纲。在Br.-Bl。1939年。我们描述了2个组合(包括1个新组合),3个亚组合(2个新组合),2个变种(1个新组合),2个亚种和2个群落。Aulacomnio palustris-Calamagrostietum purpureae ass. nov. hoc loco(表2).命名类型(holotypus hoc loco):相关16(领域号26p/20),科米共和国,Ust-Kulom地区,两年切割地点,地带(61.84083°N 54.33778°E, 16.07.2020),作者I. A. Likhanova。诊断种(DS):黄菖蒲、紫菖蒲、球萼菖蒲、菖蒲、蓼、菖蒲。该协会包括“年轻”(演替阶段1(2)-17(18)年)二级群落,形成在狭长地带和滑动小径上。树木的缺乏导致光照和土壤湿度的增加,这解释了维管植物和苔藓的亲日性和抗水性物种的入侵。切割后,原丛和次丛的DS几乎消失,但类和序的DS保留了下来。种数- 23-54种,平均- 38种。在一个关联中有两个子关联。Subass。答:p.-C。典型假单胞菌。11 . hoc loco(表2相关的1-16,图3).命名类型(holotypus hoc loco):相关的16(田野号26p/20),科米共和国,Ust-Kulom地区,在(61.84083°N 54.33778°E, 2020年7月16日)的带(61.84083°N, 54.33778°E)的云杉草本-蔓莓-绿苔藓林两年的砍伐,作者i.a. Likhanova。没有自己的DS。亚类群包括1(2)年采伐地的带状和滑径群落,其物种丰富度低于原始林。种数20-27种,平均24种。Subass。答:p.-C。弯曲亚基。命名类型(holotypus hoc loco), 25号(领域号13-УК),科米共和国,Ust-Kulom地区,17年切割地点,地带(61.99389°N, 54.14778°E, 2019年9月17日,作者i.a. Likhanova。黄花Avenella flexuosa, Gymnocarpium dryopteris, Rubus arcticus。亚群落包括17(18)年采伐地的带状群落和滑径群落,其中喜日光和耐水物种丰富。森林环境的形成是森林物种丰富的原因,并出现了几种初级联合和亚联合的诊断种。砍下来的残余物上长满了附生苔藓和地衣。种数- 24-45种,平均- 33种。群落褐毛苔(表3,相关数据1-12,图5)。DS:褐毛苔(优势),canescens, ceratdon purpureus, Dicranella cerviculata(优势)。句法包括在1(2)年切割位置的主要滑动轨迹上的社区。尽管aulacomomo palustro - calamagrostietum purpureae的诊断种丰度很高,但由于Vaccinio-Piceetea sylvestris纲和Piceetalia excelsae纲的早期演替物种多样性较高,DS丰度较低,因此不能将相关的<s:1> <s:1> <s:1>细胞转移体纳入分类。这里有大量的短毛桦树林下(1.8万株/公顷)。草本矮灌木和苔藓层是由先锋、喜日光和耐水的物种形成的。森林矮灌木、草本植物和苔藓生长在凋落物残余物上。种数- 20-34,平均- 27。群落黄柳。(表3,相关文献13-22,图6)。DS:巨型农业stis, A. tenuis, Carex rhynchophysa, Deschampsia cespitosa, Epilobium palustre, junus filformis, tremula, Salix caprea(优势),S. myrsinifolia, S. phylliifolia, Sphagnum russowii。该句法包括17(18)年切割处主要滑动轨迹的群落。黄鳝-紫菖蒲及亚鲈鱼DS的存在。答:p.-C。牛苗-青杉树纲和青杉树目的DS丰度较低,耐水和早期演替种普遍存在。林分由幼树桦(Betula pubescens)组成,平均密度2.1万株/公顷。灌木层由柳树形成。草本矮灌木层以物种为主,偏好渍水,生境受干扰的物种较多。种数- 36-45,平均- 40。北方白桦(Linnaeo borealis-Piceetum abietis dryopteridetosum var. Betula pubescens)(表1,相关数据13-22)。 短毛桦(优势种)、白桦、三角柳。该变体包括48(49)年切割地点的社区。树层高度和树冠密度与原生云杉林相当,但桦树比例较高。北方野驴的维管植物DS -冷杉和亚藜。虽然有毛蕨,但苔藓的丰度较低。许多森林物种在草本矮灌木层中变得丰富。苔藓层受到凋落叶的抑制。种数- 29-45种,平均- 36种。主要有2个亚种:典型(带状和滑道群落)和紫菖蒲(主滑道)。基于nms排序结果(图9)和各分群对采伐地某些技术要素的恢复周期和偏好数据,制定了云杉小草本-越莓-青苔林(Linnaeo borealis-Piceetum abietis dryopteridetosum var. typica)采伐后植被演替方案(图10)。描述了以下演替序列:在狭长地带和滑坡道上- Aulacomnio palustrus - calamagrostietum purpureae typum→a.p.c。柔叶白桦→北方白桦-松柏变种,短毛桦亚种。典型→l.b.p。典型毛翅蕨;滑径—毛蕊草群落→毛蕊柳群落→北方林—松柏变种、毛蕊白桦变种。紫菖蒲→l.b.p。典型毛翅蕨。在不同林龄的林带和滑道群落中,维管植物(16 ~ 18种/100 m2)和苔藓(8 ~ 10种/100 m2)的物种丰富度均低于原生林(19种/100 m2)和苔藓(14种/100 m2)。主要滑道17年和48年群落维管植物物种丰富度(27种/100 m2)高于原始林,主要是由于拓荒者、草甸和沼泽物种的入侵;苔藓类植物较少(8 ~ 12种/100 m2)。因此,砍伐对物种多样性产生了负面影响,表现为森林物种的丧失。受干扰的森林群落的植物区系组成在人类活动影响50年后仍未恢复。
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Rastitel''nost'' Rossii
Rastitel''nost'' Rossii Agricultural and Biological Sciences-Plant Science
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1.20
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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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