Zmiany w środowisku drzewostanów sosnowych na gruntach porolnych w warunkach przebudowy częściowej oraz obecności grzyba Phlebiopsis gigantean: praca zbiorowa pod red. Z.Sieroty; Instytut Badawczy Leśnictwa. - Sękocin Stary: Instytut Badawczy Leśnictwa, 2011. - 279 s.: il. - (Prace Instytutu Badawczego Leśnictwa. Rozprawy i Monografie; 17). - ISBN 978-83-62830-00-8  Место хранения:   034 | Институт леса СО РАН | Красноярск | Библиотека

Оглавление / Contents

From the Editor ................................................ 13 Zbigniew Sierota, Tadeusz Zachara 1 Stands on post agricultural lands - in the past and today ... 15 References .................................................. 21 Zbigniew Sierota 2 Creative restructuring of pine monocultures ................. 23 References .................................................. 31 Zbigniew Sierota, Monika Małecka 3 Selection criteria for the restructuring of pine stands growing on former agricultural land ......................... 34 3.1 Criteria for stand selection ........................... 34 3.2 Choice of forest districts and establishment of study plots .................................................. 38 3.3 Performing the "artificial gap" treatment .............. 40 3.4 Stump inoculation with Phlebiopsis gigantea fungus and subsequent assessment .............................. 42 References .................................................. 45 Monika Małecka, Zbigniew Sierota, Katarzyna Sikora 4 Biological treatment of artificial gaps ..................... 47 4.1 Stump inoculation with Phlebiopsis gigantea preparation ............................................ 47 4.1.1 Introduction .................................... 47 4.1.2 Methods ......................................... 48 4.1.3 Effectiveness of treatment ...................... 48 References .................................................. 52 4.2 Genetic verification of P. gigantea and H. annosum presence in biological treatment plots ................. 52 4.2.1 Procedures used ................................. 52 4.2.2 Material and isolation methods .................. 53 4.2.3 Molecular analysis .............................. 54 4.2.4 Results of analysis ............................. 55 References .................................................. 56 Monika Małecka, Zbigniew Sierota 5 Meteorological conditions ................................... 57 5.1 Introduction ........................................... 57 5.2 Material and methods ................................... 58 5.3 Precipitation .......................................... 59 5.4 Air temperature ........................................ 64 5.5 Sielianinow hydrothermal coefficient (K) ............... 68 References .................................................. 70 Józef Wójcik, Monika Małecka, Zbigniew Sierota 6 Chemical characteristics of the soil ........................ 71 6.1 Introduction ........................................... 71 6.2 Methods ................................................ 73 6.3 Characteristics of stand soils ......................... 74 6.4 Results summary ........................................ 79 References .................................................. 80 Attachments ................................................. 82 Hanna Rekosz-Burlaga, Julitta Gajewska, Mieczysław K. Błaszczyk 7 Assessment of soil microbial activity ....................... 96 7.1 Introduction ........................................... 96 7.2 Scope of the research .................................. 98 7.3 Material and methods ................................... 99 7.4 Results ............................................... 102 7.4.1 The number of bacteria and fungi in soil samples taken from pine stands ................. 102 7.4.2 The number of copiotrophs and oligotrophs ...... 103 7.4.3 The number of nitrifying bacteria and their potential nitrification activity ............... 105 7.4.4 The number of ammonifying bacteria ............. 107 7.4.5 The number of anaerobic and aerobic cellulolytic bacteria .......................... 108 7.4.6 The values of ATP in soil samples taken from pine stands .................................... 109 7.4.7 Dehydrogenaze activity in pine stands soil ..... 110 7.4.8 Microbiological activity of soil from the BIOLOG test .................................... 112 7.4.9 Results summary ................................ 115 References ................................................. 117 Attachments ................................................ 119 Dorota Hilszczańska 8 Mycorrhizal structure of Scots pine stands, in natural and artificial gaps ........................................ 129 8.1 Introduction .......................................... 129 8.2 Material and methods .................................. 130 8.3 Results ............................................... 131 8.3.1 Mycorrhizal community .......................... 131 8.3.2 Species richness and relative abundance ........ 132 8.3.4 Non-vital mycorrhizae .......................... 136 8.3.5 Diversity of mycorrhizae in 2009-2010 growing seasons ........................................ 137 8.3.6 Quantitative status of mycorrhizae ............. 138 8.3.7 Analysis of the similarity of ECM on Scots pine roots ..................................... 138 8.4 Discussion ............................................ 141 References ................................................. 145 Małgorzata Falencka-Jabłońska 9 Floristic dynamics and diversity of gaps ................... 148 9.1 Introduction .......................................... 148 9.2 Material and methods .................................. 150 9.3 Results ............................................... 150 9.3.1 Floristic characteristics of artificial and natural gaps in subsequent vegetation periods ........................................ 150 9.3.2 Diversity of artificial and natural gaps and species richness of plants ..................... 154 9.3.3 Assessment of survival of broadleaved seedlings in artificial gaps ................... 156 9.3.4 Species diversity of natural regeneration ...... 156 9.4 Discussion ............................................ 157 9.5 Conclusions ........................................... 159 References ................................................. 160 Attachments ................................................ 163 Grzegorz Tarwacki 10 Characteristics of Carabidae species clusters in pine stands on former agricultural lands susceptible to root rot ........................................................ 185 10.1 Introduction .......................................... 185 10.2 Material and methods .................................. 186 10.3 Results ............................................... 188 10.3.1 Species characteristics and abundance of Carabidae ...................................... 188 10.3.2 Carabidae developmental cluster groups ......... 194 10.3.3 Carabidae trophic cluster groups ............... 195 10.3.4 Carabidae environmental cluster groups ......... 196 10.3.5 Carabidae geographical cluster groups .......... 198 10.3.6 Average individual biomass coefficient (SBO) ... 199 10.3.7 The sum of positive traits coefficient (SCP) ... 200 10.3.8 Model SCP/SBO of Carabidae clusters ............ 201 10.4 Discussion ............................................ 202 10.5 Conclusions ........................................... 206 References ................................................. 206 Tadeusz Zachara 11 Stand stability and dynamics of regenerations in natural and artificial gaps ........................................ 208 11.1 Introduction .......................................... 208 11.2 Material and methods .................................. 209 11.3 Results ............................................... 210 11.3.1 Biometric tree stands characteristics and scale of tree mortality ........................ 210 11.3.2 Artificial and natural regeneration ............ 219 11.3.2.1 All species ........................... 219 11.3.2.2 Woody species ......................... 222 11.3.2.3 Artificially introduced special ....... 224 11.4 Discussion ............................................ 227 11.5 Conclusions ........................................... 229 References ................................................. 230 Attachments ................................................ 231 Monika Małecka, Alicja Sowińska 12 Health of the stand under restructuring .................... 236 12.1 Occurrence of fungal pathogens ........................ 236 12.1.1 Heterobasidion annosum root rot in stands growing on former agricultural lands ........... 236 12.1.2 Material and methods ........................... 237 12.1.3 Results ........................................ 237 12.1.4 Conclusions .................................... 241 References ................................................. 242 12.2 Phaenops cyanea in gaps and in the stand .............. 243 12.2.1 Introduction ................................... 243 12.2.2 Material and methods ........................... 245 12.2.3 Results ........................................ 245 12.2.4 Discussion ..................................... 248 12.2.5 Conclusions .................................... 249 References ................................................. 249 Zbigniew Sierota, Mieczysław Błaszczyk, Tadeusz Zachara 13 The impact of the stand restructuring on former agricultural lands for specific elements of the forest environment ................................................ 251 13.1 Soil and its components ............................... 251 13.2 Biocoenotic changes in converted stands ............... 258 13.2.1 Artificial gaps ................................ 258 13.2.2 Natural gaps and stands ........................ 264 13.2.3 Initial effects of partial conversion .......... 267 13.3 Conclusions ........................................... 269 References ................................................. 270 Summary ....................................................... 277