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Serpentine Gas Channels, University of Western Ontario, 2001. 11. Pukrushpan J., Stefanopoulou A., Peng H.: Control of Fuel Cell Power Systems, Advances in Industrial Control, Springer, London 2004. 12. Szymak P., Grzeczka G.: Control of Oxygen Flow in Air Independent PEM Fuel Cell System, Conference Proceedings of 5th Hydrogen & Energy Symposium, Stoos 2011. 13. Szymak P.: Mathematical model of PEM fuel cell stack supplied with clean oxygen and hydrogen, in Polish, Institute of Logistics and Storage, Logistyka, No 3, 2009, pp. 78-85. 14. Szymak P.: Control of Thermal

+Business Media. LLC 2009, pp. 41-52. [36] Reeves, R.D. (1992). Hyperaccumulation of nickel by serpentine plants. In: Baker A.J.M. Proctor J., Reeves R.D. (Eds) The vegetation of ultramafic (serpentine) soils, Intercept, 253-277, Andover, UK 1992. [37] Reeves, R.D. & Baker, A.J.M. (2000). Metal-accumulating plants, in: Phytoremediation of toxic metals: using plants to clean up the environment, Raskin, I. Ensley B.D. (Eds), John Wiley, 193-229, New York, USA 2000. [38] Ros, R., Cooke, D.T., Martinez-Cortina, C. & Picazo, I. (1992). Nickel and cadmium related changes in growth

, M., Pavlovkin, J., 2015: Early cadmium-induced effects on reactive oxygen species production, cell viability and membrane electrical potential in grapevine roots. Vitis 54, 175-182. Gabbrielli, R., Pandolfi ni, T., Vergnano, O., Palandri, M. R., 1990: Comparison of two serpentine species with different nickel tolerance strategies. Plant and Soil 122, 271-277. Gonnelli, C., Galardi, F., Gabbrielli, R., 2001: Nickel and copper tolerance and toxicity in three Tuscan populations of Silene paradoxa. Physiologia Plantarum 113, 507-514. Gajewska, E., Slaba, M

21 May 1992 on the conservation of natural habitats and of wild fauna and flora. OJ L 206, 22.7.1992: 1–66. [4] Don J., Dumicz M., Wojciechowska I., Żelaźniewicz A. 1990. Lithology and tectonics of the Orlica-Śnieżnik Dome, Sudetes – recent state of knowledge. Neues Jahrbuch für Geologie und Paläontologie – Abhandlungen, 179: 159–188. [5] Dubińska E., Bylina P., Kozłowski A., Wolfgang D., Nejbert K., Schastok J., Kulicki C. 2004. U-Pb dating of serpentinization: hydrothermal zircon from a metasomatic rodingite shell (Sudetic ophiolite, SW Poland). Chem. Geol

spontaneous vascular flora of serpentine post-mining sites in Lower Silesia. Archives of Environmental Protection, 40 (2): 33-52. MATEOS-NARANJO E., ANDRADES-MORENO L., REDONDO-GÓMEZ S. 2011. Comparison of germination, growth, photosynthetic responses and metal uptake between three populations of Spartina densiflora under different soil pollution conditions. Ecotoxicology and Environmental Safety, 74: 2040-2049. MUSZYŃSKA E., HANUS-FAJERSKA E., CIARKOWSKA K. 2013. Evaluation of seed germination ability of native calamine plant species on different substrata. Polish

References Abarca, N., Jahn, R., Zimmermann, J., Enke, N., 2014: Does the cosmopolitan diatom Gomphonema parvulum (Kutzing) Kutzing Have a Biogeography? PLoS One 9(1), e86885 Aboal, M., Puig, M.A., Prefasi, M., 1998: Diatom assemblages in springs in Castellơn province, Eastern Spain. Algological Studies 90, 79–95. Alexander, E. B., Coleman, R.G., Keeler Wolf, T., Harrison, S.P., 2007: Serpentine geoecology of western North America: geology, soils, and vegetation. Oxford University Press, New York. APHA, AWWA, and WEF, 1999: Standard methods for the examination

change. Annual Review of Ecology and Systematics 23, 63-87. DOI: 10.1146/ Davis, M.A., Grime, J.P., Thompson, K. 2000. Fluctuating resources in plant communities: a general theory of invasibility. Journal of Ecology 88, 528-34. DOI: 10.1046/j.1365-2745.2000.00473.x Day, M., Wiley, C.J., Playford, J., Zalucki, M.P. 2003. Lantana: Current management status and future prospects. ACIAR Monograph 102, 1-125. Drenovsky, R.E., Batten, K.M. 2007. Invasion by Aegilops triuncialis (barb goat grass) slows carbon and nutrient cycling in serpentine

–7. Proceedings of International Compositae Conference. Royal Botanic Gardens, Kew. Carlquist, S., 1967: Anatomy and systematics of Dendroseris (sensu lato). Brittonia 19, 99–121. Constantinidis, T., Bareka, E. P., Kamari, G., 2002: Karyotaxonomy of Greek serpentine angiosperms. Botanical Journal of the Linnean Society 139, 109–124. Davis, P. H., Mill, R. R., Tan, K., 1988: Flora of Turkey and the East Aegean Islands (Supplement), vol. 10. Edinburgh University Press, Edinburgh. Dickison, W. C., 2000: Integrative plant anatomy. Academic Press, New York. Dimitrova, D

) of Russia and adjacent countries: a non-annotated checklist. – Arthropoda Selecta Supplement 3: 1–263. Miller F., 1947: Pavoučí zvířena hadcových stepí u Mohelna [Spiders of the serpentine rocky steppes near Mohelno]. – Archiv Svazu na výzkum a ochranu přírody i krajiny v zemi Moravskoslezské 7: 128 pp. [In Czech, French summary.] Miller F., 1971: Řád pavouci – Araneida [Order Spiders – Araneida]. – In: Daniel M. & Černý V. (eds): Klíč zvířeny ČSSR, díl IV [Key to the fauna of Czechoslovakia, Vol. IV]: 51–306. Praha, ČSAV. [In Czech.] Nentwig W., Blick T., Gloor D

., Jashothan, P.T.J. (2012). Effect of organic fertilizers on the water holding capacity of soil in different terrains of Jaffna peninsula in Sri Lanka J. Nat. Prod. Plant Resour., 2 (4), 500-503. 25. Curtis, M.J. & Claassen, V.P. (2005). Compost incorporation increases plant available water in a drastically disturbed serpentine soil. Soil Science, 170. 939-953. 26. Nguyen, T.T., Fuentes, S. & Marschner, P. (2012). Effects of compost on water availability and gas exchange in tomato during drought and recovery. Plant Soil and Environment, 58(11), 495-502. 27. Hartl, W