1. bookVolume 14 (2021): Edizione 1 (May 2021)
Dettagli della rivista
License
Formato
Rivista
eISSN
1805-4196
Prima pubblicazione
20 Jun 2008
Frequenza di pubblicazione
3 volte all'anno
Lingue
Inglese
Accesso libero

Comparison of Forest Species- Diversity and Composition Inside and Outside of the Holedná Game Reserve (The City of Brno, Czech Republic)

Pubblicato online: 26 May 2021
Volume & Edizione: Volume 14 (2021) - Edizione 1 (May 2021)
Pagine: 1 - 18
Ricevuto: 06 Nov 2020
Accettato: 19 Nov 2020
Dettagli della rivista
License
Formato
Rivista
eISSN
1805-4196
Prima pubblicazione
20 Jun 2008
Frequenza di pubblicazione
3 volte all'anno
Lingue
Inglese

Adler, P. B., Raff, D. A. and Lauenroth, W. K. (2001). The effect of grazing on the spacial heterogeneity of vegetation. Oecologia 128: 465–479. Search in Google Scholar

Ammer, C. (1996). Impact of ungulates on structure and dynamics of natural regeneration of mixed mountain forests in the Bavarian Alps. For. Ecol. Manage. 8: 43–53. Search in Google Scholar

Bellemare, J., Motzkin, G. and Forster, D. R. (2002). Legacies of the agricultural past in the forest present: an assessment of historical land-use effects on rich mesic forests. J. Biogeogr. 29: 1401–1420. Search in Google Scholar

Côté, S. D., Rooney, T. P., Tremblay, J., Dussault, Ch. and Waller, M. D. (2004). Ecological impacts of deer overabundance. Ann. Rev. Ecol. Evol. Syst. 35: 113–147. Search in Google Scholar

Couvreur, M., Verheyen, K., Vellend, M., Lamoot, I., Cosyns, E., Hoffmann, M. and Hermy, M. (2007). Epizoochory by large herbvores: merging data with models. Basic Appl. Ecol. 9: 204–212. Search in Google Scholar

Culek, M. (ed.) (1995). Biogeografické členění České republiky (Biogeographical division of the Czech Republic). Praha, Enigma, 348 p. Search in Google Scholar

Čermák, P. (1997). Příklad negativního vlivu intenzivního chovu zvěře na zvláště chráněném území CHKO Pálava (An example of the negative impact of intensive game breeding in the Pálava Protected Landscape Area). Ochrana přírody 52: 142–143. Search in Google Scholar

Čermák, P. (1998 a). Vliv sudokopytníků na lesní ekosystémy Moravy (Influence of ungulates on forest ecosystems of Moravia). Lesnictví-Forestry 44: 278–287. Search in Google Scholar

Čermák, P. (1998 b). Vliv sudokopytníků na množství biomasy v keřovém patře. (Influence of ungulates on the quantity of biomass in the shrub layer), Ochrana přírody 53: 171–173. Search in Google Scholar

Demek, J., Mackovčin, P. (2014). Zeměpisný lexikon ČR, Hory a nížiny (Geographical lexicon of the Czech Republic, Mountains and lowlands). Vol. 1 and 2, Ed. 3. Brno, Mendel University, 610 p. Search in Google Scholar

Dobrovolný, P., Řezníčková, L., Brázdil, R., Krahula, L., Zahradníček, P., Hradil, M., Doleželová, M., Šálek, M., Štěpánek, P., Rožnovský, J., Valášek, H., Kirchner, K. and Kolejka, J. (2012). Klima Brna, víceúrovňová analýza městského klimatu (The climate of the city of Brno, multilevel analysis of urban climate). Brno, Masaryk University, 200 p. Search in Google Scholar

Dupouey, J. L., Dambrine, E., Laffite, J. D. and Moares, C. (2002). Irreversible impact of past land use of forest soils and biodiversity. Ecology 83: 2978–2984. Search in Google Scholar

Ferris, R., Humprey, J. W. (1999). A review of potential biodiversity indicators for application in British forests. Forestry 72: 313–328. Search in Google Scholar

Fuller, R. J., Gill, R. M. A. (2001 a). Ecological impacts of deer in woodland. Forestry 74: 189–192.10.1093/forestry/74.3.189 Search in Google Scholar

Fuller, R. J., Gill, R. M. A. (2001 b). Ecological impacts of increasing numbers of deer in British woodland. Forestry 74: 193–199.10.1093/forestry/74.3.193 Search in Google Scholar

Gill, R. M. A. (1992 a). A review of damage by mammals in north temperate forests. 1. Deer. Forestry 65: 145–169.10.1093/forestry/65.2.145 Search in Google Scholar

Gill, R. M. A. (1992 b). A review of damage by mammals in north temperate forests. 3. Impact on trees and forests. Forestry 65: 363–388.10.1093/forestry/65.4.363-a Search in Google Scholar

Glowka, L., Burhenne-Guilmin, F. and Synge, H. (1994). A Guide to the Convention on Biological Diverzity. Gland and Cambridge, IUCN, 161 p. Search in Google Scholar

Hédl, R. (2004). Vegetation of beech forests in the Rychlebské Moutnains, Czech Republic, re-inspected after 60 years with assessment of environmental changes. Pl. Ecol. 170: 243–265. Search in Google Scholar

Heinken, T., Raudnitschka, D. (2002). Do wild ungulates contribute to the dispersal of vascular plants in Central European forests by epizoochory? A case study in NE Germany. Forstwiss. Cbl. 121: 179–194. Search in Google Scholar

Heroldová, M. (1997). Trophic niches of three ungulate species in the Pálava Biosphere Reserve. Acta Sci. Nat. Acad. Sci. Boh., Brno, 31, nov. ser. Search in Google Scholar

Howe, H. F., Miriti, M. N. (2000). New question: seed dispersal matters. Trends Ecol. Evol. 15: 434–436. Search in Google Scholar

Husák, F. (1986). Daněk (Fallow deer). In: Husák F., Wolf R. and Lochman J.: Daněk/sika/jelenec (Fallow deer/sika deer/white-tailed deer) (pp. 7–148). Praha, SZN. Search in Google Scholar

Husheer, S. W., Coomes, D. A. and Robertson, A. W. (2003). Long-term influences of introduced deer on the compositionand structure of New Zealand Nothofagus forests. For. Ecol. Manage. 181: 99–117. Search in Google Scholar

Chlupáč, I., Brzobohatý, R., Kovanda, J. and Stráník, Z. (2011). Geologická minulost České republiky (Geological history of the Czech Republic), Ed 2. Academia, Praha, 436 p. Search in Google Scholar

Chytrý, M., Danihelka, J. (1993). Long-term changes in the field layer of oak and oak-hornbeam forests under the impact of deer and mouflon. Folia Geobotanica et Phytotaxonomica 28: 225–245. Search in Google Scholar

Jakubowska-Gabara, J. (1996). Decline of Potentillo albae-Quercetum Libb. 1933 phytocoenoses in Poland. Vegetatio 124: 45–59. Search in Google Scholar

Kirby, K. J. (2001). The impact of deer on the ground flora of British broadleaved woodland. Forestry 74: 219–229. Search in Google Scholar

Kočí, M. (2009). Změny ve složení vegetace a struktuře bylinného patra lesní vegetace v oboře Radějov (Changes in the composition and the structure of the herb layer of forest vegetation in the Radějov game reserve). In: Jongepierová I. (ed.), Proceedings of the conference of the Agency for Nature and Landscape Protection of the Czech Republic (pp. 63–79), Praha. Search in Google Scholar

Kubát, K., Hrouda, L., Chrtek, J., Jun., Kaplan, Z., Kirschner, J. and Štěpánek. J. (eds.) (2002). Klíč ke květeně České republiky (Key to the Flora of the Czech Republic). Praha, Academia, 927 p. Search in Google Scholar

Levin, S. A., Muller-Landau, H. C., Nathan, R. and Chave, J. (2003). The ecology and evolution of seed dispersal: A theoretical perspective. Ann. Rev. Ecol. Evol. Syst. 34: 575–604. Search in Google Scholar

Lochman, J., Kotrlý, A. and Hromas, J. (1979). Dutorohá zvěř (Bovids). Praha, SZN, 384 p. Search in Google Scholar

Martin, J.-L., Stockton, S. A., Allombert, S. and Gaston, A. J. (2010). Top-down and bottom-up consequences of unchecked ungulate browsing on plant and animal diversity in temperate forests: lessons from a deer introduction. Biol. Inv. 12: 353–371. Search in Google Scholar

Matlack, G. R. (2005). Slow plants in fast forest: local dispersal as a predictor of species frequencies in a dynamic landscape. J. Ecol. 93: 50–59. Search in Google Scholar

Moravec, J. (1994). Fytocenologie (Phytocoenology). Academia, Praha, 403 p. Search in Google Scholar

Neuhäuslová, Z., Blažková, D., Grulich, V., Husová, M., Chytrý, M., Jeník, J., Jirásek, J., Kolbek, J., Kropáč, Z., Ložek, V., Moravec, J., Prach, K., Rybníček, K., Rybníčková, E. and Sádlo, J. (1998). Mapa potenciální přirozené vegetace České republiky (Map of potential natural vegetation of the Czech Republic). Academia, Praha, 341 p. Search in Google Scholar

Noss, R. F. (1990). Indicators for monitoring biodiversity: A hierarchical approach. Essay. Conservation Biology 4: 355–364. Search in Google Scholar

Pačes, D. (2007). Obora Holedná (Holedná game reserve). Svět myslivosti 8: 45–47. Search in Google Scholar

Perea, R., Girardello, M. and San Miguel, A. (2014). Big game or big loss? High deer densities are threatening woody plant diversity and vegetation dynamics. Biodivers. Conserv. 23: 1303–1318. Search in Google Scholar

Petřík, P., Černý, T., Kolbek, J., Boublík, K. and Kopecký, M. (2009). Změny lesní vegetace v závislosti na vlivu zvěře v CHKO a BR Křivoklátsko (Changes in forest vegetation due to wildlife in the PLA and BR Křivoklátsko). Zprávy České Botanické Společnosti 24: 121–135. Search in Google Scholar

Primack, R. B., Kindlmann, P. and Jersáková J. (2011). Biologické principy ochrany přírody (Biological principles of nature protection). Portál, Praha, 349 p. Search in Google Scholar

Putman, R. J., Edwards, P. J., Mann, J. E. E., Howe, R. C. and Hill, S. D. (1989). Vegetational and faunal change in an area of heavily grazed woodland following relief of grazing. Biol. Conserv. 47: 13–32. Search in Google Scholar

Rogers, P. C., Šebesta, J. (2019). Past Management Spurs Differential Plant Communities within a Giant Single-Clone Aspen Forest. Forests 10: 1118. Search in Google Scholar

Rooney, T. P., Dress, W. J. (1997). Species loss over sixty years in the ground layer vegetation of Hearth´s Content, an old-growth forest in Pennsylvania, USA. Nat. Areas J. 17: 297–305. Search in Google Scholar

Rooney, T. P., Waller, D. M. (2003). Direct and indirect effects of white-tailed deer in forest ecosystems. For. Ecol. Manage. 181: 165–176. Search in Google Scholar

Šebesta, J., Rogers, P. C., Maděra, P., Koutecký, T., Dufour, S. and Řepka, R. (2021). Long-term effects of mechanical site preparation on understorey plant communities in lowland floodplain forests. Forest Ecol. Manage. 480: 118651. Search in Google Scholar

Skalický, V. (1988). Regionálně fytogeografické členění (Regional phytogeographical division). In: Hejný, S., Slavík, B. (eds.), Květena České socialistické republiky (Flora of the Czech Republic) (vol. 1: 103–121), Praha, Academia. Search in Google Scholar

Stockton, S. A., Allombert, S., Gaston, A. J. and Martin, J. L. (2005). A natural experiment on the effects of high deer densities on the native flora of coastal temperate rain forests. Biol. Conserv. 126: 118–128. Search in Google Scholar

Swierkosz, K. (2003). Changes in the flora of the forest communities of the „Uroczysko Obiszów“ reserve (Wgorza Dalkowskie, Lower Silesia) in 1973–1998. Fragm.Florist. Geobot. Polonica 10: 119–130. Search in Google Scholar

Tichý, L. (2002). JUICE, software for vegetation classification. J. Veg. Sci. 13: 451–453. Search in Google Scholar

Vavra, M., Parks, C. G. and Wisdom, M. J. (2007). Biodiversity, exoctic plants species, and herbivory: The good, the bad, and the ungulates. Forest Ecol. Manage. 246: 66–72. Search in Google Scholar

Vellend, M., Myers, J. A., Gardescu, S. and Marks, P. L. (2003). Dispersal of Trillium seeds by deer: Implications for long-distance migration of forest herbs. Ecology 84: 1067–1072. Search in Google Scholar

Vera, F. W. M. (2000). Grazing ecology and forest history. CABI Publishing, Wallingford.10.1079/9780851994420.0000 Search in Google Scholar

Vesecký, A. (ed.) (1961). Podnebí Československé socialistické republiky. Tabulky (The climate of the Czechoslovak Socialist Republic. Tables). Praha, Hydrometeorologický ústav. Search in Google Scholar

Vysoudil, M. (2004). Meteorologie a klimatologie. (Meteorology and climatology). Olomouc, University of Palacký in Olomouc, 282 p. Search in Google Scholar

Wohlleben, P. (2018). Tajná síť přírody (The secret network of nature). Kazda, Brno, 208 p. Search in Google Scholar

Articoli consigliati da Trend MD

Pianifica la tua conferenza remota con Sciendo