Vegetation in the vicinity of Cape Zhelaniya (Severnyy Island of Novaya Zemlya archipelago)


S. S. Kholod


DOI: https://doi.org/10.31111/vegrus/2020.38.85


Annotation

The results of the study of vegetation of the extreme northern point of the Novaya Zemlya archipe­lago, the vicinity of Cape Zhelaniya, which belongs to the southern variant of the polar desert zone, are represented. On the basis of 150 relevés, 20 syntaxa of the floristic classification of the several ranks (6 associations, 1 community type, 4 subassociations, 9 variants) were identified.

Zonal vegetation belongs to the ass. Saxifrago oppositifoliaeCerastietum regelii ass nov. hoc loco (Table 1, nomenclature type (holotypus hoc loco) — relevé 12; field number 68, Novaya Zemlya archipe­lago, Severnyy Island, Cape Zhelaniya area, 5.8 km to south-west of Pospelov Bay, loamy terrace plateau, 76°53ʹ31ʺ N, 68°20ʹ55ʺ E, August 26, author — S. S. Kholod; Table 8, syntaxon 1) within the class Drabo corymbosaePapaveretea dahliani Daniёls, Elvebakk et Matveyeva in Daniёls et al. 2016 (Daniёls et al., 2016). Within the ass. Saxifrago oppositifoliaeCerastietum regelii 2 subassociations and 2 variants are described. Subass. S. o.–C. r. typicum subass. nov. hoc loco (Table 1, relevés 1–14, nomenclature type (holotypus hoc loco) of the subassociation — relevé 12, Fig. 2). Subass. S. o.–C. r. cetrarielletosum delisei subass. nov. hoc loco (Table 1, relevé 15–36, nomenclature type (holotypus hoc loco) — relevé 20, field number 79, Novaya Zemlya archipelago, Severnyy Island, Cape Zhelaniya vicinity, the coastal part of Natalia Bay, the mouth of the river Grishina Shara, gentle slope to the seashore, loamy-gravelly, 76°50ʹ26ʺ N, 68°44ʹ55ʺ E, August 29, 2015, author — S. S. Kholod) with 2 variants: S. o.–C. r. c. d. typica (Table 1, relevés 15–31; Fig. 3) and S. o.–C. r. c. d. inops (Table 1, relevés 32–36; Fig. 4).

The vegetation of wet sites is presented in 2 syntaxa. Ass. Deschampsio borealisBryetum pseudotriquetri ass. nov. hoc loco (Table 2, nomenclature type (holotypus hoc loco) — relevé 9, field number 160, Novaya Zemlya archipelago, Severnyy Island, Cape Zhelaniya vicinity, near Cape Serebrennikov, wet, sea side strip, 76°57ʹ31ʺ N, 68°19ʹ44ʺ E, September 16, 2015, author — S. S. Kholod; Table 8, syntaxon 2), in the drainage gullies. Ass. Deschampsio borealisBryetum pseudotriquetri is divided into 2 variants: D. b.–B. p. typica (Table 2, relevés 1–10; Fig. 5) and D. b.–B. p. inops (Table 2, relevés 11–15; Fig. 6). Ass. CampyliostellatiOrthothecie­tum chrysei ass. nov. hoc loco (Table 3, nomenclature type (holotypus hoc loco) — relevé 2, field number 57, Novaya Zemlya archipelago, Severnyy Island, Cape Zhelaniya vicinity, 4.2.km to the south of Cape Loshkin, 76°57ʹ03ʺ N, 68°07ʹ49ʺ E, August 24, 2015, author — S. S.  Kholod; Table 8, syntaxon 3) on loamy areas with periodic stagnation of water. Ass. CampyliostellatiOrthothecietum chrysei includes 3 variants: C. s.–O. c. typica (Table 3, relevés 1–13; Fig. 7), C. s.–O. c. Racomitrium lanuginosum (Table 3, relevés 14–26; Fig. 8), C. s.–O. c. Allocetraria madreporiformis (Table 3, relevés 27–30; Fig. 9). The vegetation of nival sites is reflected in two syntaxa. Ass. Stellario edwardsiiDitrichetum flexicaulis ass. nov. hoc loco (Table 4, nomenclature type (holotypus hoc loco) — relevé 8, field number 1, Novaya Zemlya archipelago, Severnyy Island, Cape Zhelaniya vicinity, 2.5 km to the south of Cape Elizabeth, on the front of a small terrace edge on the sea side plain, small rock, 76º56ʹ39″ N, 68º17ʹ53″ E, August 15, 2015, author — S. S. Kholod; Table 8, syntaxon 4; Fig. 10). Ass. Dicranoweisio crispulaeCetrarielletum delisei Matveyeva 2006 subass. cerastietosum regelii subass. nov. hoc loco (Table 5, nomenclature type (holotypus hoc loco) — relevé 6, field number 41, Novaya Zemlya archipelago, Severnyy Island, Cape Zhelaniya vicinity, 6.3 km to the south of Cape Elizabeth, the fine-stony slope of the terrace on the coastal plain, 76°54ʹ52ʺ N, 68°10ʹ02ʺ E, August 22, 2015, ­author — S. S. Kholod; Table 8, syntaxon 5). There are 2 variants in subass. Dicranoweisio crispulaeCetrarielletum delisei cerastietosum regelii: D. c.–C. d. c. r. typica (Table 5, relevés 1–19, Fig. 11), D. c.–C. d. c. r. inops (Table 5, relevés 20–27, Fig. 12).

Vegetation of dry moderately and low snow-covered sites is presented by the 2 syntaxa. Ass. Pseudephebo pubescentisBryocauletum divergentis Kholod 2007 subass. saxifragetosum cespitosae subass nov. hoc loco (Table 6, nomenclature type (holotypus hoc loco) — relevé 15, field number 152, Novaya Zemlya archipelago, Severnyy Island, Cape Zhelaniya vicinity, 1.0 km to the south-east of Cape Serebrennikov, rocky ridge on the coastal plain, 76°56ʹ 50″N, 68°25ʹ45ʹʹ E, September 15, 2015, author — S. S. Kholod; Table 8, syntaxon 6; Fig. 13). Community type Papaver polareSaxifraga oppositifolia (Table 7; Table 8, syntaxon 7, Fig. 14) which combines extremely sparse cover of vascular plants, mosses and lichens.

The associations Dicranoweisio crispulaeCetrarielletum delisei and Pseudephebo pubescentisBryocauletum divergentis can be considered as regional, which include subassociations described elsewhere in relation to where the typical syntaxa have been described. The zonal association of the Novaya Zemlya — Saxifrago oppositifoliaeCerastietum regelii, has a number of common diagnostic species combinations to the ass. Deschampsio borealisAulacomnietum turgidi (Table 8, syntaxon 8) of the Se­vernaya Zemlya (Draba micropetala, Papaverpolare, Phippsiaalgida, Saxifragacernua and others) may be put in Papaverion dahliani Daniёls, Elvebakk et Matveyeva in Daniёls et al., 2016. Similarly, two associations of wet sites from these two archipelagos can be placed in one union: the Deschampsio borealisBryetum pseudotriquetri of the Novaya Zemlya and Stellario edwardsiiBryetum cryophili Matveyeva 2006 (Table 8, syntaxon 10) of the Severnaya Zemlya. These associations bring together several common species: Phippsiaalgida, Bryumcryophilum, Warnstorfiasarmentosa. Probably, associations reflecting the vegetation of nival sites — Dicranoweisio crispulaeCetrarielletum delisei Matveyeva 2006 with two subassotiations: typicum (Table 8, syntaxon 13) and cerastietosum regelii (together — regional association), Stellario edwardsiiDitrichetum flexicaulis of Novaya Zemlya and Ranunculo sabineiPhippsietum algidae Matveyeva 2006 (Table 8, syntaxon 12) of Severnaya Zemlya — can be attributed to one union. These syntaxa bring together a number of common species included in the diagnostic groups: Papaverpolare, Phippsiaalgida, Niphotrichumericoides, Polytrichastrum alpinum s. str., Cetrarielladelisei and others.

In all groups of characteristic species, only 3 — are exclusive — Deschampsiaborealis, Calliergongiganteum, Cinclidiumsubrotundum, inherent to ass. Deschampsio borealisBryetum pseudotriquetri, and 16 — are selective. Species richness in syntaxa varies from 62 to 126. The highest number of species is recorded in the ass. Campylio stellatiOrthothecietum chrysei, the lowest — in the extremely sparse cover of the com. type Papaver polareSaxifraga oppositifolia. The number of taxa in communities varies from 4 to 37. The proportion of the species number with high constancy (IV, V) in all syntaxa is extremely small and varies from 6.5 % in com. type Papaver polareSaxifraga oppositifolia up to 14.3 % in the ass. Stellario edwardsiiDitrichetum flexicaulis. Only few species have a high coverage. In general, these are mosses: Scorpidiumrevolvens (up to 40 %), S. cossonii, Ditrichumflexicaule, Racomitriumlanuginosum, Niphotrichumericoides, which in some cases form carpets with of 15–20 % cover. The same cover value is inherent for some species of lichens — Brodoaintestiniformis and Melaneliahepatizon. The high cover values among vascular plants are noted only for Deschampsiaborealis (to 65 %). There are 2 main types of plant-cover structure: regular-cyclic and sporadic-spotty. As part of the first variant are separated: connected and broken-reticulated. Many plants have the form of cushion: up to 8–9 cm in a height and to 10–12 cm in a diameter. There is a single layer which has (an average height of 10 cm) in vertical structure.


Key words: polar deserts, classification, syntaxonomy, Novaya Zemlya archipelago, Cape Zhelaniya


Section: Articles


How to cite

Kholod S. S. 2020. Vegetation in the vicinity of Cape Zhelaniya (Severnyy Island of Novaya Zemlya archipelago) // Rastitel’nost’ Rossii. 38: 85–138. https://doi.org/10.31111/vegrus/2020.38.85


Received March 2 2018


References

Aleksandrova V. D. 1956. Rastitelnost Yuzhnogo ostrova Novoy Zemli mezhdu 70° 56ʹ i 72° 12 ʹ s. sh. Vyp. 2 [Vegetation of the South Island of Novaya Zemliae between 70° 56ʹ and 72° 12 ʹ N. Iss. 2]. Rastitelnost Kraynego Severa SSSR i eye osvoenie [Vegetation of the far North of the USSR and its assimilating]. Moscow; Leningrad. P. 187–306. (In Russian).

Aleksandrova V. D. 1977. Geobotanicheskoe rayonirovanie Arktiki i Antarktiki. [Geobotanical division of Arctic and Antarctic.]. Komarovskie chteniya. Vyp. 29. Leningrad. 188 p. (In Russian).

Aleksandrova V. D. 1983. Rastitelnostʹ polyarnych pustynʹ SSSR [Vegetation of polar deserts of the USSR]. Leningrad. 143 p. (In Russian).

Atlas Arktiki [Atlas of the Arctic]. 1985. Мoscow. 204 p. (In Russian).

Barkman J. 1991. Fidelity and character-species: a critical evaluation. Botanicheskii Zhurnal. 76(7): 936–949. (In Russian).

Bolshiyanov D. Yu., Anokhin V. M., Gusev E. A. 2006. Novye dannye o stroenii relyefa i chetvertichnykh otlozheniy arkhipelaga Novaya Zemlya. Geologo-geofizicheskie kharakteristiki litosfery arkticheskogo regiona [New data on the structure of the relief and quaternary deposits of the Novaya Zemlya archipelago]. Trudy Vserossiyskogo naucho-issledovatelskogo instituta Okeangeologii. 210(6): 149–161. (In Russian).

Bulokhov A. D., Solomeshch A. I. 2003. Ekologo-floristicheskaya klassifikatsiya lesov Yuzhnogo Nechernozemya Rossii [Ecologic-floristical classification of forests of the Southern Nechernozemye of Russia]. Bryansk. 359 p. (In Russian).

CAVM Team. 2003. Circumpolar Arctic vegetation map (Scale 1 : 7 500 000). Conservation of Arctic Flora and Fauna (CAFF) Map No. 1. Anchorage.

Chernov Yu., Matveyeva N. V. 1979. Zakonomernosti zonalnogo raspredeleniya soobshchestv na Taymyre [Regularities of the zonal distribution of communities in the Taimyr]. Arkticheskie tundry i polyarnye pustyni Taymyra [Arctic tundras and polar deserts of Taimyr]. Leningrad. P. 166–200. (In Russian).

Daniëls F. J. A. 1975. Vegetation of the Angmagssalik District, Southeast Greenland. III. Epilithic macrolichen communities. Meddelelser om Grønland. 198(3). 32 p.

Daniëls F. J. A. 1982. Vegetation of the Angmagssalik District, Southeast Greenland, IV. Shrubs, dwarf shrubs and terricolous lichens. Meddelelser om Grønland. Biosci. 10: 1–80.

Daniëls F. J. A., Bültmann H., Lünterbusch C., Wilhelm M. 2000. Vegetation zones and biodiversity of the North-American Arctic. Ber. d. Reinh.-Tüxen-Ges. 12: 131–151.

Daniëls F. J. A., Elvebakk A., Matveyeva N. V., Mucina L. 2016. The Drabo corymbosae-Papaveretea dahliani — a new vegetation class of the high arctic polar deserts. Hacquetia. 15(1): 1–10. https://doi.org/10.1515/hacq-2016-0001.

Elvebakk A. 1985. Higher phytosociological syntaxa on Svalbard and their use in subdivision of the Arctic. Nordic Journal of Botany. 5(3): 273–284. https://doi.org/10.1111/j.1756-1051.1985.tb01656.x.

Elvebakk A. 1999. Bioclimatic delimitation and subdivision of the Arctic. The species concept in the High North — A Panarctic Flora Initiative. Det Norske Videnskaps-Akademi. I. Mat.-naturv. Klasse Skrifter Ny Serie. Oslo. 38: 81–112.

Hultén E. 1956. The Cerastium alpinum complex. A case of world-wide introgressive hybridization. Svensk Botanisk Tidskrift. 50(3): 411–495.

Ignatov M. S., Afonina O. M., Ignatova E. A. with contributions on regional floras from: Abolinya A. A., AkatovasT. V., Baisheva E. Z., Bardunov L. V., Baryakina E. A., Belkina O. A., Bezgodov A. V., Boychuk M. A., Cherdantseva V. Ya., Chernyadʹeva I. V., Doroshina G. Ya., Dʹyachenko A. P., Fedosov V. E., Goldberg I. L., Ivanova E. I., Yukoniene I., Kannukene L., Kazanovskiy S. G., Kharzinov Z. Kh., Kurbatova L. E., Maksimov A. I., Mamatkulov I. A., Manakyan V. A., Maslovskiy O. M., Napreenko M. G., Otnyukova T. M., Partyka L. Ya., Pisarenko O. Yu., Popova N. N., Rykovskiy G. F., Tubanova V. Ya., Zheleznova G. V., Zolotov V. I. 2006. Check-list of mosses of east Europe and north Asia. Arktoa. 15: 1–130. https://doi.org/10.15298/arctoa.15.01.

Kholod S. S. 2006. Analysis of the distribution of vascular plants on gabbro-amphibolites of the Rai-Iz mountain range (Polar Ural). Botanicheskii Zhurnal. 91(8): 1157–1187. (In Russian).

Kholod S. S. 2007. Classification of Wrangel Island vegetation. Rastitelʹnostʹ Rossii. 11: 3–135. (In Russian). https://doi.org/10.31111/vegrus/2007.11.3.

Kholod S. S. 2013. Zonation in the plant cover on the Wrangel Island: syntaxonomical approach. Rastitelʹnostʹ Rossii. 23: 89–121. (In Russian). https://doi.org/10.31111/vegrus/2013.23.89.

Kholod S. S. 2014. Rastitelnost i strukturnye grunty Arktiki [Vegetation and patterned grounds in Arctic]. Teoreticheskaya i prikladnaya ecologiya. 1: 35–39. (In Russian).

Knapp R. 1971. Einführung in die Pflanzensoziologie. Stuttgart. 388 S.

Konstantinova N. A., Bakalin V. A. With contributions on regional floras from: Andreeva E. N., Bezgodov A. G., Borovichev E., A., Dulin M. V., Mamontov Yu. S. 2009. Checklist of liverworts (Marchantiophyta) of Russia. Arktoa. 18: 1–64. https://doi.org/10.15298/arctoa.18.01.

Lavrinenko O. V., Lavrinenko I. A. 2018. Zonal vegetation of the plain East European tundras. Rastitelʹnostʹ Rossii. 32: 35–108. (In Russian). https://doi.org/10.31111/vegrus/2018.32.35.

Matuszkiewicz W., Matuszkiewicz A. 1973. Przeglad Fitosocjologiczny Zbiorowisk Leśnych Polski. Cz. 1. Lasy bukowe. Phytocoenosis. 2(2): 143–202.

Matveyeva N. V. 1979. Struktura rastitelnogo pokrova polyarnykh pustyn poluostrova Taymyr (mys Chelyuskin) [The structure of vegetation cover of polar deserts of Taimyr peninsula (cape Cheluskin)]. Arkticheskie tundry i polyarnye pustyni Taymyra [Arctic tundras and polar deserts of Taimyr]. Leningrad. P. 5–27. (In Russian).

Matveyeva N. V. 1998. Zonation in plant cover of the Arctic. Trudy Botanicheskogo instituta Rossiyskoy akademii nauk. Vol. 21. 220 p. (In Russian).

Matveyeva N. V. 2006. Vegetation of the southern part of Bolshevik Island (Severnaya Zemlya Archipelago. Rastitelʹnostʹ Rossii. 8: 3–87. (In Russian). https://doi.org/10.31111/vegrus/2006.08.3.

Meijer Drees E. 1951. Capita selecta from modern plant sociology and a design for rules of phytosociological nomenclature. Rapp. Bosb. proefst. Bogor. 52: 1–68.

Meteorologicheskie nablyudeniya na m. Zhelaniya (o. Novaya Zemlya) [Meteorological observations in cape Zhelaniya]. Severnoe upravlenie po gidrometeorologii i monitoringu okruzhayushchey sredy [Northern department in gydrometeorology and monitoring of environment]. http://www.sevmeteo.ru (date of access: 12.02.2018).

Metodicheskoye rukovodstvo po izucheniyu i geologicheskoy syemke chetvertichnykh otlozheniy [Metodical guidance on the study and geological survey of quaternary sediments]. 1987. Leningrad. 308 p. (In Russian).

Molenaar J. G. de. 1976. Vegetation of the Angmagssalik District, Southeast Greenland, II. Herb and snow-bed vegetation. Meddelelser om Grønland. 198(2). 266 p.

Mucina L., Bültmann H., Dierẞen K., Theurillat J.-P., Raus T., Čarni A., Šumberová K., Willner W., Dengler J., Garsía G. R., Chytrý M., Hájek M., Di Pietro R., Iakushenko D., Pallas J., Daniёls F. J. A., Bergmeier E., Guerra A. S., Ermakov N., Valachovič M., Schaminée J. H. J., Lysenko T., Didukh Y. P., Pignatti S., Rodwell J. S., Capelo J., Weber H. E., Solomeshch A., Dimopoulos P., Aguiar C., Hennekens S. M., Tichý L. 2016. Vegetation of Europe: hierarchical floristic classification system of vascular plants, bryophyte, lichen, and algal communities. Applied Vegetation Science. 19 (Suppl. 1): 3–264. https://doi.org/10.1111/avsc.12257.

Oberdorfer E. 1968. Assoziation, Gebietassoziation, Geographische Rasse. Pflanzensoziologisch Systematik. Ber. Symp. int. Ver. Vegetationskunde, Stolzenau 1964. The Hague. P. 124–131.

Plants and fungi of the polar deserts in the northern hemisphere. 2015. St. Petersburg. 320 p. (In Russian).

Ramenskiy L. G. 1971. Izbrannye raboty. Problemy i metody izucheniya rastitelʹnogo pokrova [Selected works. Problems and methods of studying of vegetation cover]. Leningrad. 335 p. (In Russian).

Sekretareva N. A. 2004. Sosudistye rasteniya Rossiyskoy Arktiki i sopredelnykh territoriy [Vascular plants of Russian Arctic and neighbouring territories]. Moscow. 131 p. (In Russian).

Semenishchenkov Yu. A. 2017. Geographical features of forest vegetation reflected at the level of the lower-rank syntax (evidence from the Russian part of the Upper Dnieper basin). Rastitelʹnostʹ Rossii. 30: 94–108. (In Russian). https://doi.org/10.31111/vegrus/2017.30.94.

Shakhin D. A. 1993. Obzor rastitelnogo pokrova zapadnogo poberezhya Novoy Zemli [An overview of vegetation cover of west coast of Novaya Zemlya]. Trudy Morskoy arkticheskoy kompleksnoy ekspeditsii pod obshchey redaktsiey P. V. Boyarskogo. Vyp. III. Novaya Zemlya. Tom. 2. Ekspeditsia pod nachalstvom P. V. Boyarskogo na gidrograficheskom sudne «Ivan Kireev» 12 iyulya – 2 sentyabrya 1992 g. [Proceedings of the arctic Marine integrated expedition, edited by P. V. Boyarskiy. Iss. III. Novaya Zemlya. Vol. 2. Expedition led by P. V. Boyarskiy on a hydrographic ship «Ivan Kireev» 12 July–2 September 1992]. Moscow. P. 98–124. (In Russian).

Smirnov I. P. 2015. Dinamika pribrezhnykh landshaftov na severo-vostoke ostrova Severnyy arkhipelaga Novaya Zemlya [Dynamics of the coastal landscape in the northeast of the Severny island in the Novaya Zemlya archipelago]. Izvestiya Russkogo Geograficheskogo obshchestva. 147(3): 30–41. (In Russian).

Spisok likhenoflory Rossii [Checklist of the lichenoflora of Russia]. 2010 / Comp. G. P. Urbanavichus, ed. by M. P. Andreev. St. Petersburg. 194 p. (In Russian).

Weber H. E., Moravec J., Theurillat J.-P. 2005. International code of phytosociological nomenclature. 3rd ed. Rastitelʹnostʹ Rossii. 7: 3–38. (In Russian). https://doi.org/10.31111/vegrus/2005.07.3.

Vekhov N. V., Kuliev A. N. 1998. Lishayniki, mokhoobraznye i sosudistye rasteniya polyarnykh pustyn arkhipelaga Novaya Zemlya [Лишайники, мохообразные и сосудистые растения полярных пустынь архипелага Новая Земля]. Byulleten Moskovskogo obshchestva ispytateley prirody. Otdelenie biologicheskoe. 103(3): 44–50. (In Russian).

Walker D. A. 2000. Hierarchical subdivision of arctic tundra based on vegetation response to climate, parent material, and topography. Global Change Biology. 6 (Suppl. 1): 19–34. https://doi.org/10.1046/j.1365-2486.2000.06010.x.

Walker D. A., Raynolds M. K., Daniёls F. J. A., Einarsson E., Elvebakk A., Gould W., Katenin A. E., Kholod S. S., Markon C. J., Melnikov E. S., Moskalenko N. G., Talbot S. S., Yurtsev B. A. and other members of the CAVM Team. 2005. The Circumpolar Arctic vegetation map. J. Veg. Sci. 16: 267–282. https://doi.org/10.1111/j.1654-1103.2005.tb02365.x.

Westhoff V., Maarel E. van der. 1973. The Braun-Blanquet approach. Handbook of vegetation science. Part V. Ordination and classification of communities. The Hague. P. 617–726. https://doi.org/10.1007/978-94-010-2701-4_20.

Wirth V. 1972. Die Silikatflechten-Gemeinschaften im auẞeralpinen Zentraleuropa. Dissertationes Botanicae. 17: 1–306.

Yurtsev B. A. 1991. The problems of identification of the tundra type of vegetation. Botanicheskii Zhurnal. 76(1): 30–41. (In Russian).

Yurtsev B. A. 1994. Floristic division of the Arctic. J. Veg. Sci. 5: 765–776. https://doi.org/10.2307/3236191.

Yurtsev B. A., Tolmachev A. I., Rebristaya O. V. 1978. The floristic delimitation and subdivision of the Arctic. Arcticheskaya floristicheskaya oblast [The Arctic floristic region]. Leningrad. P. 9–104. (In Russian).