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Extinct and endangered archaeophytes and the dynamics of their diversity in Poland

Extinct and endangered archaeophytes and the dynamics of their diversity in Poland

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Dynamics of the species diversity and composition of the ruderal vegetation of Slovak and Czech cities

Botany 49(1): 311–316. Braun-Blanquet, J. 1964: Pflanzensoziologie, Grundzüge der Vegetationskunde, 3rd edn. Springer-Verlag, Wien, 865 pp. Burton, M. L., Samuelson, L. J. & Pan, S. 2005: Riparian woody plant diversity and forest structure along an urban-rural gradient. Urban Ecosystems 8: 93–106. Case, T. J. 1990: Invasion resistance arises in strongly interacting species-rich model competition communities. Proceedings of the National Academy of Sciences of USA 87(24): 9610–9614. Chen, X., Wang, W., Liang, H., Liu, X. & Da, L. 2014: Dynamics of

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Plant diversity and dynamics in chalk quarries on the islands of Rügen and Wolin (Western Pomerania/Germany and Poland)

Mecklenburg-Vorpommern – Farn- und Blütenpflanzen. 428 pp. Weissdorn, Jena. H ill M. O., R oy D. B. & T hompson K. 2002. Hemeroby, urbanity and ruderality: bioindicators of disturbance and human impact. J Appl Ecol 39: 708-720. I lves A., M etsare M., T ali K. & K ull T. 2015. The impact of recent colonization on the genetic diversity and fine-scale genetic structure in Orchis militaris (L.). Plant Syst Evol 301: 1875-1886. J äger E. J. (ed.). 2011. Rothmaler – Exkursionsflora von Deutschland. Gefäßpflanzen: Grundband. 20. ed. 930 pp. Spektrum

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Genetic heterogeneity in age classes of naturally regenerated old growth forest of Picea abies (L.) Karst

205 (1): 19-31. CHEN, X.Y. and Y. C. SONG (1997): Temporal genetic structure of a Cyclobalanopsis glauca population in Huangshan. J East China Normal Univ (Nat Sci) (4): 79-84. CHUNG, M.Y., B. K. EPPERSON and M. G. CHUNG (2003): Genetic structure of age classes in Camellia japonica (Theaceae). Evolution 57 (1): 62-73. ECHT, C. S., L. L. DEVERNO, M. ANZIDEI and G. G. VENDRAMIN (1998): Chloroplast microsatellites reveal population genetic diversity in red pine, Pinus resionsa, Ait. Mol Ecol 7: 307

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Species diversity and litter dynamics in secondary mixed deciduous forest, Thung Salaeng Lung National Park, Northern, Thailand

, Thailand. Satiago L.S., Mulkey S.S. 2005. Leaf productivity along a precipitation gradient in lowland Panama: patterns from leaf to ecosystem. Structure Function, 19 (3), 349-356. Srikanha P., Gajaseni J. 2000. Structure, compositions and species diversity in deciduous forest ecosystem in Huai Kha Khaeng Wildlife Sanctuary, Thailand. In research reports on biodiversity in Thailand, Biodiversity Research and Training Program (BRT), 11-14th October 2000, 710-714. Suksomut P. 1987. Community dynamics of hill evergreen forest

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Bird Species Diversity of the Mitidja Plain (Northern Algeria) with Emphasis on the Dynamics of Invasive and Expanding Species

References Barnard, P. & Thuiller, W. (2008): Introduction. Global change and biodiversity: future challenges. - Biological Letters 4 (5): 553-555. Bellatreche, M. (1994): [Ecology and biogeography of forest birds of Babors and Kabylie (Algeria).] PhD thesis. - University of Burgundy, Dijon. (in French) Bellatreche, M. (1999): Biological diversity and conservation: the case of the forest nest-building avifauna of the Kabylie des Babors in Algeria. - Wildlife and Nature 15: 37-48. Bendjoudi, D. (2008): [Study of

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Conceptions of Landscape-Ecological Relevance Emerged in the Czech Botany during the Second Half of Twentieth Century

plant communities in NE Bohemia. Vegetatio , 36(1): 43-51. Kropáč, Z., (1966), Estimation of weed seeds in arable soils. Pedobiologia , 6: 105-128. Kropáč, Z., Hadač, E. et Hejný, S. (1971). Some remarks on the synecological and syntaxonomic problems of weed plant communities. Preslia , 43: 139-153. Longman, K.A. et Jeník, J., (1992). Forest-savanna boundaries - general considerations. - In: Furley, P.A., Proctor, J. et Ratter, J.A. (eds.)(1992): Nature and dynamics of forest-savanna boundaries (p. 3-20). Chapman & Hall, London. Mikyška, R

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Abundance dynamics of mites (Acari) in the peatland of ‘Linie’ Nature Reserve, with particular reference to the Gamasida

. 1971. Osobliwości florystyczne i rezerwaty Ziemi Chełmińskiej [Floral peculiarities and natura reserves of Chelmno Land]. Przewodnik Florystyczny, Państwowe Wydawnictwo Naukowe, Toruń (in Polish). Chachaj B., Seniczak S. 2006. Seasonal dynamics of the density of Oribatida (Acari) in a lowland meadow and pastures. Biological Lett. 43: 153-156. Choi W. I., Moorhead D. L., Neher D. A., Ryoo M. I. 2006. A modeling study of soil temperature and moisture effects on population dynamics of Paronychiurus kimi (Collembola

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Biotope Determinants of EPT Assamblages Structure – Târnava Watershed (Transylvania, Romania) Case Study

Abstract

This study aims to analyze the biotopic factors affecting the EPT assemblage diversity in the rivers of the Târnava Watershed. Our research revealed that the high diversity of the Plecoptera communities is associated with river reaches with boulder and cobble lithological substrate, accentuated slope and natural bank dynamics, and also it is directly correlated with dissolved oxygen and inversely correlated with chemical and biochemical oxygen demand, total hardness, nitrates and total nitrogen in the water. The high diversity of the Trichoptera communities is associated with water which presents moderate quantities of nutrients (total phosphorus, phosphates) and with river reaches with heterogeneous structures (where runs and bends were present). The diversity of the Ephemeroptera communities is positively correlated with the multiannual average flow and riverbed width.

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Effects of the European Common Agricultural Policy on Preserving Biodiversity: Farmland Birds in Slovenia

-Codaccioni, O., Jiguet, F. & Devictor, V. (2010). Effects of non-cropped landscape diversity on spatial dynamics of farmland birds in intensive farming systems. Biological Conservation 143(11), 2609–2616. DOI: 10.1016/j.biocon.2010.07.003. [9] Chirion, F., Princé, K., Paracchini, M. L., Bulgheroni, C. & Jiguet, F. (2013). Forecasting the potential impacts of CAP-associated land use changes on farmland birds at the national level. Agriculture, Ecosystems & Environment 176, 17–23. DOI: 10.1016/j.agee.2013.05.018. [10] Ciglič, R. & Perko, D. (2013). Europe

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