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Journal articles on the topic 'Plant communitie'

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Published: 1 April 2023

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1

Ульданова and Railya Uldanova. "Formation forest fitotsenozov Volga River right banks." Vestnik of Kazan State Agrarian University 9, no. 1 (September 7, 2014): 149–52. http://dx.doi.org/10.12737/3833.

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The coastal forests, presented by valuable deciduous and coniferous forests, grow in the northeastern and eastern parts of the Volga region of the Republic of Tatarstan, skirting the high right bank of the Volga River. They contribute to the maintenance of biological diversity in nature. The study of the formation of coastal forest phytocenoses, their species diversity and the modern state is now urgent work, and development activities for the conservation of natural habitats of plants, improve the sustainability of forest ecosystems are perspective direction. According to research of the forests of the right bank of the river Volga, we present the structure of coastal forest ecosystems. The association of forest ecosystems to the various elements of the relief was installed. The types of soil and litter were presented. The estimation of α-diversity of vascular herbaceous plants and ß-diversity of the studied forest ecosystems were reported. The largest number of species of vascular plants in coastal forests are: oak plant communities; a second group includes birch plants, pine and willow; the third group - the lime and larch; the fourth group - maple plant communitie. The ß-diversity index (Whittaker’s index) of plants in the studied forests varies between 2.2-6.8. The Jaccard coefficient of floristic similarity between forest ecosystems varies from 0.01 to 0.30, which confirms the diversity of generated by coastal forest ecosystems. The greatest diversity of plants was found in forests of ash and mixed grass, mixed grass willow, oak and lime-grove, maple, ash and mixed grass larches, birch wood. The forestry activities in coastal areas should be aimed at creating productive, sustainable forest ecosystems with a rich biodiversity of flora and fauna.
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2

Dirnböck, Thomas, Stefan Dullinger, and Georg Grabherr. "A new grassland community in the Eastern Alps (Austria): Evidence of environmental distribution limits of endemic plant communities." Phytocoenologia 31, no. 4 (December 6, 2001): 521–36. http://dx.doi.org/10.1127/phyto/31/2001/521.

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3

Dahl, E. "Alpine-subalpine plant communities of South Scandinavia." Phytocoenologia 15, no. 4 (December 8, 1987): 455–84. http://dx.doi.org/10.1127/phyto/15/1987/455.

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4

von Wehrden, Henrik, Karsten Wesche, and Georg Miehe. "Plant communities of the southern Mongolian Gobi." Phytocoenologia 39, no. 3 (October 21, 2009): 331–76. http://dx.doi.org/10.1127/0340-269x/2009/0039-0331.

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5

Freitag, Helmut, Valentin B. Golub, and Natalya Yuritsyna. "Halophytic plant communities in the northern Caspian lowlands: 1, annual halophytic communities." Phytocoenologia 31, no. 1 (March 23, 2001): 63–108. http://dx.doi.org/10.1127/phyto/31/2001/63.

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6

Parolly, Gerald. "Phytosociological studies on high mountain plant communities of the South Anatolian Taurus mountains 1. Scree plant communities (Heldreichietea): A synopsis." Phytocoenologia 28, no. 2 (June 23, 1998): 233–84. http://dx.doi.org/10.1127/phyto/28/1998/233.

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7

Rehder, H., E. Beck, and J. O. Kokwaro. "The afroalpine plant communities of Mt. Kenya (Kenya)." Phytocoenologia 16, no. 4 (December 7, 1988): 433–63. http://dx.doi.org/10.1127/phyto/16/1988/433.

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8

Bergmeier, Erwin, Maria Konstantinou, Ioannis Tsiripidis, and Karlè V. Sýkora. "Plant communities on metalliferous soils in northern Greece." Phytocoenologia 39, no. 4 (December 30, 2009): 411–38. http://dx.doi.org/10.1127/0340-269x/2009/0039-0411.

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9

Mucina, L. "Endangered ruderal plant communities of Slovakia and their preservation." Phytocoenologia 17, no. 2 (May 2, 1989): 271–86. http://dx.doi.org/10.1127/phyto/17/1989/271.

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10

Bornkamm, R., and H. Kehl. "The plant communities of the Western Desert of Egypt." Phytocoenologia 19, no. 2 (December 17, 1990): 149–231. http://dx.doi.org/10.1127/phyto/19/1990/149.

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11

Galán de Mera, Antonio, Boadilla del Monte, Eliana Linares Perea, José Campos de la Cruz, Carlos Trujillo Vera, and José Alfredo Vicente Orellana. "Las comunidades vegetales relacionadas con los ambientes humanos en el sur del Perú." Phytocoenologia 41, no. 4 (April 4, 2012): 265–305. http://dx.doi.org/10.1127/0340-269x/2011/0041-0502.

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12

Montesinos, Daniel B. "Andean shrublands of Moquegua, South Peru: Prepuna plant communities." Phytocoenologia 42, no. 1-2 (November 21, 2012): 29–55. http://dx.doi.org/10.1127/0340-269x/2012/0042-0516.

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13

Hein, Peter, Harald Kürschner, and Gerald Parolly. "Phytosociological studies on high mountain plant communities of the Taurus mountains (Turkey) 2. Rock communities." Phytocoenologia 28, no. 4 (November 30, 1998): 465–563. http://dx.doi.org/10.1127/phyto/28/1998/465.

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14

Norton, Don C. "Plant nematode communities." International Journal for Parasitology 17, no. 1 (February 1987): 215–22. http://dx.doi.org/10.1016/0020-7519(87)90044-0.

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15

Khajeddin, S. J., and H. Yeganeh. "Plant communities of the Karkas Hunting-Prohibited Region, Isfahan-Iran." Plant, Soil and Environment 54, No. 8 (August 12, 2008): 347–58. http://dx.doi.org/10.17221/413-pse.

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The Karkas mountainous region is a very interesting area for its big game wildlife and rare species in the Irano-Touranian biogeographic region. It is essential to study the plant communities and the impact of environmental factors, to protect and rehabilitate these ecosystems. The studied region is located in the Isfahan province, central Iran, with the area of about 92 100 ha. The aim of the study was to identify the plant communities of the Karkas Hunting-Prohibited Region. Vegetation cover was sampled using a stratified random sampling method and the entities were preliminarily segmented with the physiognomic-floristic-ecologic method. 10 × 10 m quadrates (100 m<sup>2</sup>) were used to estimate the species cover, litter, stone, gravel and bare soil percentages. Plant communities were classified using cluster analyses and denderogram construction. The results confirmed the importance of the climatic and topographic factors that affect the establishment of the plant communities. Plant habitats in the region are mosaics and cause ecoton formations, so diversities in species combinations increase. The species diversity of the communities was measured using the Shannon coefficient; it varied from 2.26 to 0.39. According to cluster analyses, there are 15 different plant communities, but when the second dominant species were considered, some communities were further divided into sub-communities.
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16

Velázquez, Alejandro, and Antoine M. Cleef. "The plant communities of the volcanoes "Tláloc" and "Pelado", Mexico." Phytocoenologia 22, no. 2 (September 23, 1993): 145–91. http://dx.doi.org/10.1127/phyto/22/1993/145.

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17

Dobson, Andy. "Plant ecology: Macroparasitism in plant communities." Current Biology 31, no. 6 (March 2021): R287—R289. http://dx.doi.org/10.1016/j.cub.2021.01.044.

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18

Galán de Mera, A., I. Sánchez García, and J. A. Vicente Orellana. "Coastal plant communities of the southwestern Iberian Peninsula, Spain and Portugal." Phytocoenologia 27, no. 3 (September 30, 1997): 313–52. http://dx.doi.org/10.1127/phyto/27/1997/313.

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19

Onipchenko, Vladimir G., Alexander A. Shulakov, Alexander S. Zernov, Tatiana G. Elumeeva, Yan Wu, Qian Wang, and Marinus J. A. Werger. "Floristic Richness of Alpine Plant Communities on the Eastern Qinghai-Tibetan." Botanica Pacifica 3, no. 1 (April 30, 2014): 33–37. http://dx.doi.org/10.17581/bp.2014.03103.

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20

Mcdonald, D. J. "Ordination by detrended correspondence analysis (DCA) of the vegetation of Swartboschkloof, Jonkershoek, Cape Province." Bothalia 17, no. 1 (October 23, 1987): 121–29. http://dx.doi.org/10.4102/abc.v17i1.1021.

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The data of a Braun-Blanquet vegetation classification was ordinated using detrended correspondence analysis (DCA). This was done at the Fynbos Biome intensive study site, Swartboschkloof, Jonkershoek, to investigate the factors determining the distribution of the plant communities. Superimposition of environmental data on the DCA ordination confirmed the indications of the Braun-Blanquet classification that the distribution of plant communities is most strongly correlated with soil geology and, to a lesser extent, with soil moisture status. The ordination also proved useful for examining the relationships between the transitional communites and the distinct communities of Swartboschkloof.
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21

Korolyuk, A. Yu. "Plant communities of the Class Festuco-Brometea in the West Siberian Plane." Vegetation of Russia, no. 25 (2014): 45–70. http://dx.doi.org/10.31111/vegrus/2014.25.45.

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The West-Siberian Plain extends more than 1200 km from west to east. Its southern part is occupied by steppe and forest-steppe zones with pre-dominance of herbaceous plant communities. Steppes and xeric meadows are widespread on this territory and characterized by a high diversity and complex spatial structure. This study presents the analysis of 874 relevés describing xeric meadows and steppes of the class Festuco-Brometea from the West Siberian Plain. Numerical analysis with using of plant indicator values showed that some ecological factors, such as soil moisture, salinity and sand content are important in differentiation of grasslands. Three zonal associations form the sequence on the latitudinal gradient from 56º to 51º of northern latitude: Galatello biflorae–Calamagrostietum epigeii (xeric meadows and meadow steppes on solonetz soils in forest-steppe zone), Helictotricho desertori–Stipetum rubentis (rich bunchgrass steppes of southern part of forest-steppe zone and northern part of steppe zone), Artemisio austriacae–Stipetum capillatae (typical bunchgrass steppes of steppe zone). Zonal associations form complexes with other grasslands of Festuco-Brometeae. In forest-steppe landscapes zonal communities usually adjoined with Galio borealis–Artemisietum ponticae in more mesic habitats and with halophyte association Limonio gmelini–Phleetum phleoides. In steppe regions zonal associations make an assemblage with relatively mesic grasslands of Trommsdorffio maculatae–Stipetum pennatae and halophyte communities of Limonio gmelini–Stipetum capillatae on solonetz soils. Three associations form the sequence related with increasing of sand content in soils: Gypsophilo paniculatae–Artemisietum glaucae, Sileno borysthenicae–Cleistogenetum squarrosae, Scorzonero ensifoliae–Festucetum valesiacae. All grasslands usually are under intense grazing that cause changes in plant communities, first of all, the reduction of meso-xerophyte species diversity. The class Festuco-Brometea in the West Siberian plain is divided into two orders. The order Festucetalia valesiacae unites xeric meadows and meadow steppes in forest-steppe landscapes. The class and order are diagnosed mainly by meso-xerophyte species with wide Eurosiberian distribution: Anemone sylvestris, Artemisia glauca, A. latifolia, Astragalus danicus, Campanula sibirica, Centaurea scabiosa, Dianthus versicolor, Festuca pseudovina, Festuca valesiaca, Filipendula vulgaris, Fragaria viridis, Galium ruthenicum, Galium verum, Koeleria cristata, Medicago falcata, Phleum phleoides, Phlomoides tuberosa, Plantago urvillei, Poa angustifolia, Polygala comosa, Scabiosa ochroleuca, Seseli libanotis, Stipa capillata, Stipa pennata, Tephroseris integrifolia, Trommsdorffia maculata, Veronica spicata. This order is presented by the alliance Galatellion biflorae located to the west from the Ob River (Korolyuk, Kiprijanova, 1998). Its communities differ from others by presence of salt-tolerant species: Artemisia pontica, Artemisia rupestris, Carex caryophyllea, Galatella biflora, Inula britannica, Melampyrum cristatum, Peucedanum morisonii, Plantago maxima, Silene multiflora. To the east from the Ob River this alliance is replaced by Poo urssulensis–Artemision glaucae, in the South Urals by Festucion valesiacae. The xeric meadows of Festuco-Brometea north from forest-steppe zone are replaced by mesic meadows of Molinio-Arrhenatheretea. The order Helictotricho-Stipetalia represents the typical steppes and xeric variants of meadow steppes. Its distribution covers steppe zone and southern part of forest-steppe zone. The main part of its diagnostic combination is formed by xerophyte steppe plants: Achillea nobilis, Adonis villosa, Androsace maxima, Artemisia austriaca, Carex supina, Galatella angustissima, Helictotrichon desertorum, Jurinea multiflora, Onosma simplicissima, Oxytropis pilosa, Pilosella echioides, Potentilla bifurca, P. humifusa, Salvia stepposa, Scorzonera austriaca, Seseli ledebourii, Spiraea crenata, Stipa zalesskii, Taraxacum erythrospermum, Thymus marschallianus, Verbascum phoeniceum, Veronica incana. Three alliances form the sequence along moisture gradient: more mesic rich steppes of Helictotricho desertori–Stipion rubentis (diagnostic species: Helictotrichon desertorum, Stipa zalesskii, Thymus marschallianus, Artemisia latifolia, Filipendula vulgaris, Fragaria viridis, Phlomoides tuberosa, Plantago urvillei, Seseli libanotis, Artemisia pontica, A. rupestris, Galatella biflora, Peucedanum morisonii, Silene multiflora), typical steppes of Artemisio austriacae–Festucion valesiacae (diagnostic species: Androsace maxima, Artemisia austriaca, Carex supina, Po­ten­tilla bifurca, Scorzonera austriaca, Taraxacum erythrospermum), and dry steppes of Stipion korshinskyi Toman1969 (diagnostic species: Kochia prostrata, Krascheninnikovia ceratoides, Leymus ramosus, Phlomoides agraria, Stipa korshinskyi, Stipa lessingiana).
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22

Šibík, Jozef, Daniel Dítě, Ivana Šibíková, and Drahoslava Pukajová. "Plant communities dominated by Pinus mugo agg. in Central Europe – comparison of the oligotrophic communities rich in Sphagnum." Phytocoenologia 38, no. 3 (November 20, 2008): 221–38. http://dx.doi.org/10.1127/0340-269x/2008/0038-0221.

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23

van Diggelen, R., and R. H. Marrs. "Restoring plant communities – Introduction." Applied Vegetation Science 6, no. 2 (2003): 106. http://dx.doi.org/10.1658/1402-2001(2003)006[0106:rpci]2.0.co;2.

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24

Etherington, J. R., J. O. Rieley, and S. E. Page. "Ecology of Plant Communities." Journal of Ecology 79, no. 1 (March 1991): 267. http://dx.doi.org/10.2307/2260804.

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25

van Diggelen, R., and R. H. Marrs. "Restoring plant communities - Introduction." Applied Vegetation Science 6, no. 2 (February 24, 2003): 106–10. http://dx.doi.org/10.1111/j.1654-109x.2003.tb00569.x.

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26

Čarni, A., N. Juvan, P. Košir, A. Marinšek, A. Paušič, and U. Šilc. "Plant communities in gradients." Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology 145, sup1 (September 2011): 54–64. http://dx.doi.org/10.1080/11263504.2011.602730.

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27

Jack, Jeffrey D., and John J. Gilbert. "Effects of Daphnia on microzooplankton communities." Journal of Plankton Research 16, no. 11 (1994): 1499–512. http://dx.doi.org/10.1093/plankt/16.11.1499.

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28

Litchman, Elena, Mark D. Ohman, and Thomas Kiørboe. "Trait-based approaches to zooplankton communities." Journal of Plankton Research 35, no. 3 (March 26, 2013): 473–84. http://dx.doi.org/10.1093/plankt/fbt019.

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29

Agustí, Susana, Carlos M. Duarte, and Daniel E. Canfield. "Biomass partitioning in Florida phytoplankton communities." Journal of Plankton Research 13, no. 1 (1991): 239–45. http://dx.doi.org/10.1093/plankt/13.1.239.

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30

König, Peter, and Oliver Fried. "Plant communities on the NE coast of Oman and their site conditions." Phytocoenologia 45, no. 3 (November 1, 2015): 269–90. http://dx.doi.org/10.1127/phyto/2015/0027.

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31

Fanfarillo, Emanuele, Anna Scoppola, Zdeňka Lososová, and Giovanna Abbate. "Segetal plant communities of traditional agroecosystems: a phytosociological survey in central Italy." Phytocoenologia 49, no. 2 (March 29, 2019): 165–83. http://dx.doi.org/10.1127/phyto/2019/0282.

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32

Chytrý, Milan, Oleg A. Anenchonov, and Jiří Danihelka. "Plant communities of the Bol'šoj Čivyrkuj River Valley, Barguzinskij Range, East Siberia." Phytocoenologia 25, no. 3 (September 29, 1995): 399–434. http://dx.doi.org/10.1127/phyto/25/1995/399.

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33

Schaffers, André P., and Karlè V. Sýkora. "Synecology of species-rich plant communities on roadside verges in the Netherlands." Phytocoenologia 32, no. 1 (March 22, 2002): 29–83. http://dx.doi.org/10.1127/0340-269x/2002/0032-0029.

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34

Popiela, Agnieszka. "Isoeto-Nanojuncetea species and plant communities in their eastern distribution range (Poland)." Phytocoenologia 35, no. 2-3 (August 1, 2005): 283–304. http://dx.doi.org/10.1127/0340-269x/2005/0035-0283.

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35

Lyons, Melinda D., and Daniel L. Kelly. "Plant community ecology of petrifying springs (Cratoneurion) – a priority habitat." Phytocoenologia 47, no. 1 (January 1, 2017): 13–32. http://dx.doi.org/10.1127/phyto/2016/0101.

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36

Bakker, Matthew G., Lindsey Otto-Hanson, A. J. Lange, James M. Bradeen, and Linda L. Kinkel. "Plant monocultures produce more antagonistic soil Streptomyces communities than high-diversity plant communities." Soil Biology and Biochemistry 65 (October 2013): 304–12. http://dx.doi.org/10.1016/j.soilbio.2013.06.007.

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37

Gessner, George Luis. "Plantar comunidades: Elementos para a igreja semear a boa nova em áreas pioneiras." Vox Scripturae Revista Teológica Internacional XVIII, no. 2 (October 23, 2010): 67–130. http://dx.doi.org/10.25188/flt-voxscript(eissn2447-7443)vxviii.n2.p67-130.glg.

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38

Kappelle, Maarten, Henk P. van Velzen, and Welmoed H. Wijtzes. "Plant communities of montane secondary vegetation in the Cordillera de Talamanca, Costa Rica." Phytocoenologia 22, no. 4 (December 5, 1994): 449–84. http://dx.doi.org/10.1127/phyto/22/1994/449.

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39

Abd El-Ghani, Monier M., Reinhard Bornkamm, and Frank Darius. "Plant communities in two vegetation transects in the extreme desert of western Egypt." Phytocoenologia 33, no. 1 (March 14, 2003): 29–48. http://dx.doi.org/10.1127/0340-269x/2003/0033-0029.

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40

Benhouhou, Salima S., Nacé ra Boucheneb, Quais Kerzabi, and Okba Sassi. "Plant communities of several wadi types in the Tassili N'Ajjer, Central Sahara, Algeria." Phytocoenologia 33, no. 1 (March 14, 2003): 49–69. http://dx.doi.org/10.1127/0340-269x/2003/0033-0049.

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Rodwell, John, Joop H. J. Schaminé e, and Ladislav Mucina. "Plant communities in saline environments an introduction to the Festschrift for Sandro Pignatti." Phytocoenologia 33, no. 2-3 (June 1, 2003): 163–66. http://dx.doi.org/10.1127/0340-269x/2003/0033-0163.

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Díez-Garretas, Blanca, Alfredo Asensi, and Rosario Gavilán. "Sabulicolous therophytic plant communities in the Mediterranean Region: a proposal of phytosociological synthesis." Phytocoenologia 33, no. 2-3 (June 1, 2003): 495–526. http://dx.doi.org/10.1127/0340-269x/2003/0033-0495.

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43

Vonlanthen, Corinne M., Donald A. Walker, Martha K. Raynolds, Anja Kade, Patrick Kuss, Fred J. A. Daniëls, and Nadezhda Matveyeva. "Patterned-Ground Plant Communities along a bioclimate gradient in the High Arctic, Canada." Phytocoenologia 38, no. 1-2 (August 25, 2008): 23–63. http://dx.doi.org/10.1127/0340-269x/2008/0038-0023.

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44

Mirkin, Boris M. "Which plant communities do exist?" Journal of Vegetation Science 5, no. 2 (April 1994): 283–84. http://dx.doi.org/10.2307/3236163.

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Gray, Jesse E., Kimberly J. Komatsu, and Melinda D. Smith. "Defining codominance in plant communities." New Phytologist 230, no. 5 (March 24, 2021): 1716–30. http://dx.doi.org/10.1111/nph.17253.

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46

Wicklow, D. T., J. J. Burdon, and S. R. Leather. "Pests, Pathogens and Plant Communities." Mycologia 84, no. 4 (July 1992): 600. http://dx.doi.org/10.2307/3760331.

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47

Greller, Andrew M., R. Neuhausl, H. Dierschke, and J. J. Barkman. "Chrological Phenomena in Plant Communities." Bulletin of the Torrey Botanical Club 113, no. 1 (January 1986): 62. http://dx.doi.org/10.2307/2996243.

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48

Fitter, A. H., J. J. Burdon, and S. R. Leather. "Pests, Pathogens and Plant Communities." Journal of Ecology 80, no. 1 (March 1992): 181. http://dx.doi.org/10.2307/2261075.

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49

Grace, J. "EVAPOTRANSPIRATION FROM PLANT COMMUNITIES (Book)." Plant, Cell and Environment 8, no. 3 (April 1985): 228–29. http://dx.doi.org/10.1111/1365-3040.ep11604622.

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Islebe, Gerald A., and Antoine M. Cleef. "Alpine plant communities of Guatemala." Flora 190, no. 1 (January 1995): 79–87. http://dx.doi.org/10.1016/s0367-2530(17)30628-x.

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