Investigations of mature Scots pine stands in wind-throw areas in Norway spruce forests in Western Rhodopes

Barna, M., 2015. Productivity and functioning of the beech ecosystem: Ecological Experimental Station – Kremnické vrchy Mts. (Western Carpathians). Lesnícky Časopis – Forestry Journal, 61: 252–261.10.1515/forj-2015-0034Search in Google Scholar

Bílek, L., Vacek, Z., Vacek, S., Bulušek, D., Linda, R., Král, J., 2018. Are clearcut borders an effective tool for Scots pine (Pinus sylvestris L.) natural regeneration? Forest Systems, 27: article number e010, 14 p.10.5424/fs/2018272-12408Search in Google Scholar

Borkowski, A., Kochanowski, J., 2017. The colonisation of Scots pine (Pinus sylvestris L.) by Tomicus minor Hartig in southern Poland: modelling and monitoring. European Journal of Forest Research, 136: 893–906.10.1007/s10342-017-1078-8Search in Google Scholar

Bosela, M., Kulla, L., Roessiger, J., Šebeň, V., Dobor, L., Büntgen, U., Lukac, M., 2019. Long-term effects of environmental change and species diversity on tree radial growth in a mixed European forest. Forest Ecology and Management, 446: 293–303.10.1016/j.foreco.2019.05.033Search in Google Scholar

Brang, P. 1998. Early seedling establishment of Picea abies in small forest gaps in the Swiss Alps. Canadian Journal of Forest Research, 28: 626–639.Search in Google Scholar

Bueis, T., Bravo, F., Pando, V., Turrion, M-B., 2016. Relationship between environmental parameters and Pinus sylvestris L. site index in forest plantations in northern Spain acidic plateau. iForest, 9: 394–401.10.3832/ifor1600-008Search in Google Scholar

Clark, J.S., Silman, M., Kern, R., Macklin, E., Hillerislambers, J., 1999. Seed dispersal near and far: patterns across temperate and tropical forests. Ecology, 80: 1475–1494.10.1890/0012-9658(1999)080[1475:SDNAFP]2.0.CO;2Search in Google Scholar

Čermák, P., Strejček, M., 2007. Stem decay by Stereum sanguinolentum after red deer damage in the Českomoravská vrchovina highlands. Journal of Forest Science, 53: 567–572.10.17221/2164-JFSSearch in Google Scholar

Diaci, J., Rozman, J., Rozman, A. 2020. Regeneration gap and microsite niche partitioning in a high alpine forest: are Norway spruce seedlings more drought-tolerant than beech seedlings? Forest Ecology and Management, 455: article number 117688. https://doi.org/10.1016/j.fore-co.2019.117688Search in Google Scholar

Dobor, L., Hlásny, T., Rammer, W., Barka, I., Trombik, J., Pavlenda, P., Šebeň, V., Štěpánek, P., Seidl, R., 2018. Post-disturbance recovery of forest carbon in a temperate forest landscape under climate change. Agricultural and Forest Meteorology, 263: 308–322.10.1016/j.agrformet.2018.08.028Search in Google Scholar

Dobreva, M., Georgieva, M., Dermedzhiev, P., Nachev, R., Velinov, V., Terziev, P., Georgiev, G., 2016. Fungal pathogens associated with Pinus species in the region of Forest Protection Station Plovdiv in the period 2013–2016. Nauka za Gorata – Forest Science, 1-2: 103–116.Search in Google Scholar

Ferezliev, A., Tsakov, H., Mihál, I., Cicák, A., 2017. Osobenosti v stroježa po diametr na drvnostoji, rastrojeni ot uraganen viatr v zapadni Rodopi [Pecularities in diameter structure in stands updet by hurricane in the west Rhodopes]. Nauka za Gorata – Forest Science, 1: 53–63.Search in Google Scholar

Fischer, A., Lindner, M., Abs, C., Lasch, P., 2002. Vegetation dynamics in central European forest ecosystems (near nature as well as managed) after storm events. Folia Geobotanica, 37: 14–32.10.1007/BF02803188Search in Google Scholar

Gazda, A., Kościelniak, P., Hardy, M., Muter, E., Kędra, K., Bodziarczyk, J., Frączek, M., Chwistek, K., Różański, W., Szwagrzyk, J., 2019. Upward expansion of distribution ranges of tree species: contrasting results from two national parks in Western Carpathians. Science of the Total Environment, 653: 920–929.10.1016/j.scitotenv.2018.10.360Search in Google Scholar

Goysheva, M.M., Denchev, C.M. Dimitrova, E.G., Assyov, B., Petrova, R.D., Stoichev, G.T., 2006. Red List of fungi in Bulgaria. Mycologia Balcanica, 3: 81–87.Search in Google Scholar

Jarčuška, B., Barna, M., 2011a. Influence of light availability on height growth of naturally regenerated beech with different growth histories. Austrian Journal of Forest Science, 128: 53–65.Search in Google Scholar

Jarčuška, B., Barna, M., 2011b. Plasticity in above-ground biomass allocation in Fagus sylvatica L. saplings in response to light availability. Annals of Forest Research, 54: 151–160.Search in Google Scholar

Kara, F., Topaçoğlu, O., 2018. Onset of canopy closure for black pine, Turkish red pine and Scots pine forests. Journal of Forest Science, 64: 224–229.10.17221/153/2017-JFSSearch in Google Scholar

Konôpka, B., Zach, P., Kulfan, J., 2016. Wind – an important ecological factor and destructive agent in forests. Lesnícky časopis – Forestry Journal, 62: 123–130.10.1515/forj-2016-0013Search in Google Scholar

Konôpka, B., Pajtík, J., Shipley, LA., 2018. Intensity of red deer browsing on young rowans differs between freshlyfelled and standing individuals. Forest Ecology and Management, 429: 511–519.10.1016/j.foreco.2018.07.048Search in Google Scholar

Koulelis, P.K., Daskalakou, E.N., Ioannidis, K.E., 2019. Impact of regional climatic conditions on tree growth on mainland Greece. Folia Oecologica, 46: 127–136.10.2478/foecol-2019-0015Search in Google Scholar

Kunca, A., Zúbrik, M., Galko, J., Vakula, J., Leontovyč, R., Konôpka, B., Nikolov, Ch., Gubka, A., Longauerová, V., Maľová, M., Rell, S., Lalík, M., 2019. Salvage felling in the Slovak Republic’s forests during the last twenty years (1998–2017). Central European Forestry Journal, 65: 3–11. https://doi.org/10.2478/forj-2019-000710.2478/forj-2019-0007Search in Google Scholar

Lacheva, M., 2014. A study of larger fungi of the Boraka Managed Reserve, Central Rhodopes Mts. Ecologia Balkanica, 5: 115–121.Search in Google Scholar

Lausch, A., Fahse, L., Heurich, M., 2011. Factors affecting the spatio-temporal dispersion of Ips typographus (L.) in Bavarian Forest National Park: a long-term quantitative landscape-level analysis. Forest Ecology and Management, 261: 233–245.10.1016/j.foreco.2010.10.012Search in Google Scholar

Martazinova, V., Ivanova, O., Shandra, O., 2011. Climate and treeline dynamics in the Ukrainian Carpathians Mts. Folia Oecologica, 38: 66–72.Search in Google Scholar

Martinková, Z., Koprdová, S., Kulfan, J., Zach, P., Honěk, A., 2019. Ground beetles (Coleoptera: Carabidae) as predators of conifer seeds. Folia Oecologica, 46: 37–44.10.2478/foecol-2019-0006Search in Google Scholar

Mezei, P., Jakuš, R., Blaženec, M., Belánová, S., Šmídt, J., 2011. Population dynamics of spruce bark beetle in a nature reserve in relation to stand edges conditions. Folia Oecologica, 38: 73–79.Search in Google Scholar

Michel, A., Seidling, W. (eds), 2017. Forest condition in Europe: 2017 technical report of ICP Forests. Report under the UNECE Convention on Long-Range Trans-boundary Air Pollution (CLRTAP). BFW Dokumentation, 24/2017. Vienna: BFW Austrian Research Centre for Forests. 128 p.Search in Google Scholar

Mihál, I., 1996. Vplyv ťažbového zásahu rôznej sily na produkciu biomasy plodníc podpňovky smrekovej – Armillaria ostoyae (Romagn.) Herink [Influence of different cutting operation on fruiting bodies biomass production of the honey gungus – Armillaria ostoyae (Romagn.) Herink]. Lesnícky Časopis – Forestry Journal, 42: 241–248.Search in Google Scholar

Mihál, I., Marušák, R., Barna, M., 2019. Dynamics of Fagus sylvatica L. necrotization under different pollutant load conditions. Polish Journal of Environmental Studies, 28: 2755–2763.10.15244/pjoes/92209Search in Google Scholar

Milios, E., Kitikidou, K., Pipinis, E., Stampoulidis, A., Akritidou, S., Smiris, P., 2018. Site quality assessment for Pinus sylvestris L. in mixed forests of the central part of “Rhodope Mountains” in northeastern Greece. Annals of Silvicultural Research, 42: 79–84.Search in Google Scholar

Nikolov, C., Konôpka, B., Kajba, M., Galko, J., Kunca, A., Janský, L., 2014. Post-disaster forest management and bark beetle outbreak in Tatra National Park, Slovakia. Mountain Research and Development, 34: 326–335.10.1659/MRD-JOURNAL-D-13-00017.1Search in Google Scholar

Olšovský, T., Zach, P., Kulfan, J., Juríková-Matulová, Z., 2013. Spatial occurrence and abundance of five phloeophagous beetle species (Coleoptera) in Scots pine trees (Pinus sylvestris) growing on sandy soils. Folia Oecologica, 40: 84–90.Search in Google Scholar

Paluch, J., Bartkowicz, L., Moser, W.K., 2019. Interspecific effects between overstorey and regeneration in small-scale mixtures of three late-successional species in the Western Carpathians (southern Poland). European Journal of Forest Research, 138: 889–905.10.1007/s10342-019-01209-ySearch in Google Scholar

Pan, Y., Chen, P., Lu, J., Zhou, X.D., Ye, H., 2018. First report of blue-stain in Pinus yunnanensis caused by Ophiostoma tingens associated with Tomicus minor in China. Abstracts of presentations at the XXIV Congress of the Italian Phytopathological Society, September 5–7, 2018, Marche Polytechnical University, Ancona, Italy. Journal of Plant Pathology, 100: 613–653.10.1007/s42161-018-0130-ySearch in Google Scholar

Panayotov, M., Gogushev, G., Tsavkov, E., Vasileva, P., Tsvetanov, N., Kulakowski, D., Bebi, P., 2017. Abiotic disturbances in Bulgarian mountain coniferous forests – an overview. Forest Ecology and Management, 388: 13–28. https://doi.org/10.1016/j.foreco.2016.10.03410.1016/j.foreco.2016.10.034Search in Google Scholar

Pastirčáková, K., Adamčíková, K., Pastirčák, M., Zach, P., Galko, J., Kováč, M., Laco, J., 2018. Two blue-stain fungi colonizing Scots pine (Pinus sylvestris) trees infested by bark beetles in Slovakia, Central Europe. Biologia, 73: 1053–1066.10.2478/s11756-018-0114-6Search in Google Scholar

Rosnev, B. (ed.), 2007. Rukovodstvo po zashtita na gorite [Forest Protection Guide II. Part]. Sofia: Ministry of Agriculture and Forestry, National Forest Administration, Forest Research Institute, Bulgarian Academy of Sciences. 128 p.Search in Google Scholar

Rosnev, B., Mirchev, P., Petkov, P., Georgiev, G., Tsankov, G., Matova, M., Georgieva, M., 2008. Izmenenja v zdravoslovnoto sostojanie na kulturi ot bjial bor (Pinus sylvestris L.) v rajona na jugozapadna Bulgaria prez perioda 1986–2005 [Changes in the health condition of the Scots pine (Pinus sylvestris L.) plantations in Southwestern Bulgaria during the period 1986–2005]. Plant Science, 45: 393–397.Search in Google Scholar

Ryu, M., Mishra, R.C., Jeon, J., Lee, S.K., Bae, H., 2018. Drought-induced susceptibility for Cenangium ferruginosum leads to progression of Cenangium-dieback disease in Pinus koraiensis. Scientific Reports, 8: article number 16368.10.1038/s41598-018-34318-6621952630401938Search in Google Scholar

Schönfelder, O., Zeidler, A., Borůvka, V., Bilek, L., 2017. Influence of site conditions and silvicultural practice on the wood density of Scots pine (Pinus sylvestris L.) – a case study from the Doksy locality, Czech Republic. Journal of Forest Science, 63: 457–462.10.17221/62/2017-JFSSearch in Google Scholar

Stankova, T., 2017. Savrmenen dinamitchen model za pastezh, stroezh i proizvoditelnost na bjialborovite kulturi v nas [Contemporary dynamic model for growth, yield and structure of Scots pine plantations in Bulgaria]. Nauka za Gorata – Forest Science, 1: 3–15.Search in Google Scholar

Szmyt, J., Dobrowolska, D., 2016. Spatial diversity of forest regeneration after catastrophic wind in northeastern Poland. iForest, 9: 414–421.10.3832/ifor1699-008Search in Google Scholar

Szmyt, J., Tarasiuk, S., 2018. Species-specific spatial structure, species coexistence and mortality pattern in natural, uneven-aged Scots pine (Pinus sylvestris L.)-dominated forest. European Journal of Forest Research, 137: 1–16.10.1007/s10342-017-1084-xSearch in Google Scholar

Šebeň, V., 2017. Národná inventarizácia a monitoring lesov Slovenskej republiky 2015–2016 [National forest inventory and monitoring of the Slovak Republic 2015–2016]. Lesnícke štúdie, 65. Zvolen: Národné lesnícke centrum. 255 p.Search in Google Scholar

Špulák, O., Souček, J., Černý, J., 2018. Do stand structure and admixture of tree species affect Scots pine aboveground biomass production and stability on its natural site? Journal of Forest Science, 64: 486–495.10.17221/117/2018-JFSSearch in Google Scholar

Takov, D., Doychev, D., Linde, A., Draganova, S., Pilarska, D., 2011. Pathogens of bark beetles (Coleoptera: Curculionidae) in Bulgarian forests. Phytoparasitica, 39: 343–352.10.1007/s12600-011-0167-3Search in Google Scholar

Tsankov, G., Mirchev, P., Tomovsky, H., 1997. Proutchvanije na drvesinoiadite i koroiadite v bjialborovi ekosistemi v Bulgaria [A study on wood eaters and bark beetles in Scots pine ecosystems in Bulgaria]. Nauka za Gorata – Forest Science, 3-4: 71–83.Search in Google Scholar

Ulbrichová, I., Janeček, V., Vítámvás, J., Černý, T., Bílek, L., 2018. Clonná obnova borovice lesní (Pinus sylvestris L.) ve vztahu ke stanovištním a porostním podmínkám [Curtain restoration of Scots pine (Pinus sylvestris L.) in relation to habitat and stand conditions]. Zprávy Lesnického Výzkumu, 63: 153–164.Search in Google Scholar

Un-Ece, 2008. Forest condition in Europe 2008 – technical report of ICP Forest. Hamburg: Johann Heinrich von Thünen-Institut. 107 p.Search in Google Scholar

Vergarechea, M., del Río, M., Gordo, J., Martín, R., Cubero, D., Calama, R., 2019. Spatio-temporal variation of natural regeneration in Pinus pinea and Pinus pinaster Mediterranean forests in Spain. European Journal of Forest Research, 138: 313–326.10.1007/s10342-019-01172-8Search in Google Scholar

Vitali, A., Garbarino, M., Camarero, J.J., Malandra, F., Toromani, E., Spalevic, V., Čurović, M., Urbinati, C., 2019. Pine recolonization dynamics in Mediterranean human-disturbed treeline ecotones. Forest Ecology and Management, 435: 28–37.10.1016/j.foreco.2018.12.039Search in Google Scholar