Verfügbarkeit: Sustainable forest management

Sustainable forest management: growth models for Europe

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Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin [u.a.] Springer 2006
Schlagworte:	Foresterie durable - Europe Foresterie durable - Gestion - Europe Forêts - Gestion - Europe Forstwirtschaft Wachstumsmodell Nachhaltigkeit Europa
Online-Zugang:	Inhaltstext Inhaltsverzeichnis
Beschreibung:	XIX, 398 S. Ill., graph. Darst. 235 mm x 155 mm
ISBN:	9783540260981 3540260986

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Datensatz im Suchindex

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adam_text	iand Petersen, Denmark; Wolf Dieter Radike, many; and Johannes Wohlmacher, Austria - as ility assurance panel - Marijan Kota, Slovenia; nna Maria Puumalainen; Finland; Konstantin iinfurter, Austria. Their participation in all the ns are greatly appreciated, e the following colleagues for reviewing one L. Amateis, USA; Peter Biber, Germany; Mike t; USA; Georg Gratzer, Austria; Dionys Hallen- kel, Germany; Kevin O’Hara, USA; Jens Haufe, e Michie, Finland; Kelsey Milner, USA; Robert USA; Arne Pommerening, UK; Philp J. Radtke, ieith M. Reynolds, USA; Klemens Schadauer, lul Tabusch, UK; Harald Vacik, Austria; Sauli agg, Switzerland. resented in this book require funding and pro- thank the European Commission and our two :h in Brussels, Alexandros Arabatzis and Sjur as the office manger of the ITM program, Ro- n track throughout the 3 years of our endeav- g theories in Europe. Contents Part I Topics Related to General Modeling Issues......................... 1 Chapter 1 Concepts Within Tree Growth Modeling.............................. 3 Hubert Hasenauer 1.2 Tree Growth Models ......................................... 4 1.3 General Structure of a Tree Growth Model ................... 5 1.3.1 Increment Functions......................................... 6 1.3.2 Competition Indices ........................................ 7 1.3.3 Crown Models................................................ 9 1.3.4 Mortality Models ........................................... 9 1.3.5 Regeneration Models........................................ 10 1.4 Data Needed for Calibrating Tree Growth Models ........... 11 1.4.1 The Heuristic Transformation of Input Data ................ 12 1.5 Summary and Conclusion..................................... 13 References................................................ 14 Chapter 2 End User Needs and Requirements................................... 19 Konstantin von Teuffel, Sebastian Hein, Marijan Kotar, Emilia Pinto Preuhsler, Jana Puumalainen, Peter Weinfurter 2.1 Historic Development....................................... 20 2.2 Yield Tables .............................................. 20 2.3 Changing User Needs........................................ 21 2.3.1 Preference of Mixed Stands................................. 22 2.3.2 Changing Treatment .......................................... 23 2.3.3 Change from Even-Aged to Uneven-Aged Management Methods........................................ 23 2.3.4 Changing Growth Conditions................................... 24 2.4 Purposes of Modern Tree Models............................... 25 2.4.1 Tree Models in Forest Management Planning.................... 26 2.4.2 Long-Term Silvicultural Production Programmes................ 28 2.4.3 Decision Support Systems..................................... 29 2.4.4 Natural Regeneration......................................... 29 2.4.5 Coppice Management and Cork Production....................... 30 2.5 Required Attributes, Limits and Unsolved Problems of Tree Models.............................................. 31 2.5.1 Clear Purpose Specification.................................. 32 2.5.2 Reasonable Accuracy of Prediction Value and Trustworthiness ........................................ 32 2.5.3 Integration Into Information Flow in Forestry................ 32 2.5.4 Communicability of Model Results............................. 33 2.5.5 User Friendliness and Documentation of Simulation Process ... 33 2.6 Conclusion................................................... 34 References.................................................. 35 Chapter 3 Standardizing and Categorizing Tree Growth Models................ 39 Hans Prf.tzsch, Peter Biber, Jan Dursky, Klaus von Gadow, Hubert Hasenauer, Gerald Kändlf.r, Georg Kenk, Edgar Kublin, Jürgen Nagel, Timo Pukkala, Jens Peter Skovsgaard, Rainer Sodtke, Hubert Sterba 3.1 Introduction.................................................. 39 3.2 Background and Objectives of the Recommendations.............. 40 3.3 Arguments for a Transition to New Growth Simulators........... 40 3.4 Forest Growth Simulators and Their Application Potential .... 41 3.4.1 Simulators Based on Stand-Level Models ....................... 41 3.4.2 Simulators Based on Distribution Models....................... 42 3.4.3 Simulators Based on Tree-Level Models......................... 42 3.4.4 Combining Different Types of Models........................... 44 3.5 Standards for Model Description............................... 44 3.5.1 Model Approach................................................ 45 3.5.2 Range of Application.......................................... 45 3.5.3 Parameterization and Calibration Specifications............... 45 3.5.4 Input ........................................................ 45 3.5.5 Program Control ............................................. 45 3.5.6 Output ...................................................... 49 3.5.7 Sub-Models of the Growth Simulator........................... 49 3.5.8 Additional Algorithms........................................ 49 3.5.9 Model Validation ............................................ 49 3.5.10 Software and Hardware........................................ 50 3.6 Criteria for Model Evaluation..........................,. . . 50 3.6.1 Evaluation of Model Approach ................................ 50 3.6.2 Validation of the Growth Model............................... 51 3.6.3 Evaluation of the Software................................... 52 3.7 Research and Development Needs .............................. 52 3.7.1 Database for Model Parameterization and Model Validation ... 53 3.7.2 Further Development of Growth Models......................... 53 3.7.3 Software Development......................................... 54 References.................................................. 54 Chapter 4 Description of Tree Growth Models Used............................. 59 4.1 The Silvicultural Decision Support System BWINPro.......... 59 Jürgen Nagel, Matthias Schmidt References................................................ 62 4.2 The Tree Growth Model MOSES 3.0 ........................... 64 Hubert Hasenauer, Georg Kindermann, Petra Steinmetz 4.2.1 Introduction............................................... 64 4.2.2 Model Approach............................................. 64 4.2.3 Model Application and Validity............................. 66 4.2.4 Software and Data Input Requirements ...................... 66 4.2.5 STANDGEN 2.1 .............................................. 67 References................................................ 69 4.3 Description of PrognAus for Windows 2.2.................... 71 Thomas Ledermann 4.3.1 Model Approach............................................. 71 4.3.2 Range of Application....................................... 72 4.3.3 Validity................................................... 73 4.3.4 Input ..................................................... 73 4.3.5 Program Control ........................................... 73 73 74 75 76 76 76 78 78 79 79 80 80 80 81 81 81 81 82 82 83 84 85 85 86 86 87 87 88 88 88 88 89 90 Output ............................................. Growth Model........................................ Additional Algorithms............................... Model Precision..................................... Software and Hardware............................... References.......................................... The Individual-Tree-Based Stand Simulator SILVA .... H. Pretzsch, P. Biber, J. Ïursky, R. Sodtke Introduction........................................ Database............................................ Tree Representation and Model Initialisation........ Core Model Description.............................. General Considerations.............................. Inter-Tree Competition.............................. Mortality........................................... Thinning............................................ Height and Diameter Growth.......................... Crown Development .................................. Output ............................................. Model Evaluation.................................... Model Application................................... References.......................................... STAND: A Decision Support System for the Management of Even-Aged Stands in Finland Timo Pukkala, Jari Miina Introduction........................................ Optimization........................................ Integrating Risk.................................... Integrating Multiple Objectives..................... Time Preferences ................................... Risk Preferences.................................... Optimization Method................................. Simulation Model.................................... Models for Uncontrollable Variables................. Stand Simulator..................................... References.......................................... Chapter 5 Modeling Forest Regeneration ......................................... 93 Jari Miina, Kalle Eerikäinen, Hubert Hasenauer 5.1 Introduction................................................... 93 5.2 Modeling Approaches for Forest Regeneration.................... 95 5.2.1 Mechanistic and Gap Models..................................... 95 5.2.2 Statistical Models........................................... · 96 5.2.2.1 Whole Stand and Size Class Models ............................. 96 5.2.2.2 Individual-Tree Models......................................... 97 5.2.3 Nonparametric Models........................................... 99 5.3 Data Collection .............................................. 101 5.3.1 Controlled Regeneration Experiments........................... 101 5.3.2 Routine Inventory Data........................................ 101 5.3.3 Regeneration Surveys.......................................... 102 5.4 Discussion and Conclusions.................................... 104 References.................................................... 106 Chapter 6 Harvesting Rules and Modules for Predicting Commercial Timber Assortments............................................Ill Hubert Sterba, Sonja Vospernik, Ingrid Soderbergh, Thomas Ledermann 6.1 Introduction................................................... 112 6.2 Simulating Thinning and Harvesting............................. 112 6.2.1 Freely Defined Harvesting and Thinning Methods................. 113 6.2.2 Mimicking Practically Performed Thinning and Harvesting Procedures (Empirical Approach)................ 114 6.2.3 Developing Algorithms to Simulate Silviculturally Defined Thinning and Harvesting Rules (Analytical Approach) ......................................... 115 6.2.4 Deterministic and Stochastic Implementation of Harvesting Algorithms ...................................... 117 6.3 Commercial Assortments and Stem Quality........................ 118 6.3.1 Modelling Individual Tree Stem Quality......................... 118 6.3.2 Correspondence Between Observed Log Quality and Stem Quality Assessment in Inventories .................... 120 6.3.3 Stem Quality Modelling as Part of the Individual Tree Growth Simulators ........................................ 122 6.3.4 Sensitivity Analysis of the Damage and Harvest Models.......... 123 References 123 Chapter 7 Applications of Tree Growth Modelling in Decision Support for Sustainable Forest Management..............................131 Hans Pretzsch, Heinz Utschig, Rainer M. Sodtke 7.1 Introduction.................................................. 132 7.2 Setting the Stage - Decision Support Systems and Tree Growth Models for Strategic Forest Enterprise Planning....... 133 7.2.1 Decision Support Systems...................................... 133 7.2.2 Enterprise Simulation as the Backbone of Strategic Planning . . . 134 7.3 From Monitoring Forest Development to Strategic Planning . . . 135 7.3.1 Monitoring.................................................... 135 7.3.2 Simulation and Scenario Analysis.............................. 136 7.4 Simulation Models as a Tool for Strategic Planning and Decision-Making of Sustainable Development............... 137 7.5 Spatially Explicit Modelling and Visualisation of Natural Scenery ........................................... 140 7.6 Structural Diversity and Biodiversity......................... 142 7.6.1 Identifying Structures at Estate Level: the Species Profile Index..................................... 143 7.6.2 Scale-Comprehensive Indicators ............................... 144 7.7 Conclusion and Perspectives................................... 146 References.................................................... 147 Chapter 8 Evaluating Individual Tree Growth Models...............................151 M. Schmidt, J. Nagel, J.P. Skovsgaard 8.1 Introduction.................................................. 151 8.2 Evaluation Topics............................................. 152 8.2.1 Model Form, Parameterisation and Estimation Methods..........153 8.2.2 Variable Selection and Model Simplicity....................... 155 8.2.3 Biological Realism............................................ 156 8.2.4 Compatibility................................................. 158 8.2.5 Reliability................................................... 159 8.3 Conclusion.................................................... 160 References.................................................... 160 Part II Demonstrating the Problem-Solving Potential of Tree Growth Models 165 Chapter 9 Modeling Regeneration in Even and Uneven-Aged Mixed Species Forests . . 167 Hubert Hasenauer, Georg Kindermann 9.1 Introduction........................................... 167 9.2 Data......................................................... 168 9.3 Methods ..................................................... 171 9.3.1 Regeneration Assessment ..................................... 171 9.3.2 Juvenile Height Growth....................................... 175 9.3.3 Juvenile Tree Mortality...................................... 179 9.4 Analyses and Results......................................... 180 9.4.1 Assessing Regeneration....................................... 180 9.4.2 Height Increment Predictions................................. 184 9.4.3 Assessing Browsing Impacts................................... 185 9.5 Discussion and Conclusion ................................... 188 References................................................... 192 Chapter 10 Evaluating Management Regimes and Their Impact on Commercial Timber Supply Using an Individual-Tree Growth Model and Scenario Analysis..........................................195 Thomas Ledermann, Hubert Sterba 10.1 Introduction.......................................... 195 10.2 The Individual-Tree Growth Simulator.................. 196 10.3 Model Calibration..................................... 197 10.4 Defining Stand Management Objectives and Management Regimes................................ 198 10.5 Evaluation of Management Alternatives................. 198 10.6 CONVERSION-Demo........................................200 10.6.1 Data...................................................200 10.6.2 Stand Management Objective.............................201 10.6.3 Management Regimes ................................... 201 10.6.4 Evaluation of the CONVERSION-Demo......................203 10.7 PEELING-Demo.......................................... 204 10.7.1 Data...................................................204 10.7.2 Stand Management Objective.............................205 10.7.3 Management Regimes ....................................205 10.7.4 Evaluation of the PEELING-Demo.......................206 10.8 Summary..............................................208 References......................................... 208 Chapter 11 A Decision Support System for Multi-Criteria Forest Estate Planning, Integrating a Forest Growth Simulator, Fuzzy-Inference Techniques and a Heuristic Optimisation Approach .................................211 Rainer M. Sodtke, Heinz Utschig, Hans Pretzsch 11.1 Introduction...................................................212 11.2 The DSS Approach ..............................................213 11.2.1 Fields of Application..........................................213 11.2.2 Data...........................................................213 11.2.3 DSS Structure................................................. 214 11.2.4 Decision Space.................................................217 11.2.5 Objective System ..............................................219 11.2.6 Evaluation ....................................................220 11.2.7 Optimisation.................................................. 225 11.3 Demonstration................................................. 230 11.4 Discussion.....................................................232 11.5 Perspectives ..................................................233 References................................................... 233 Chapter 12 The Use of Tree Models for Silvicultural Decision Making.............237 Matthias Schmidt,Thomas Böckmann, Jürgen Nagel 12.1 Introduction................................................. 237 12.2 The Growth Model BWINPro..................................... 238 12.3 BWINPro in Forest Planning ...................................239 12.4 Decision Support in Forest Planning...........................241 12.4.1 Database......................................................243 12.4.2 Analysis of the Current Situation and Scenarios...............243 12.4.3 Updating of the Current Status Considering Different Thinning and Harvest Regimes (Scenario Simulation)...........245 12.4.4 Graphical Presentation of Simulation Results..................246 12.5 Examples..................................................... 247 12.5.1 Automatic Assignment of Forest Types of Management Objective (WET) and Stratification of Silvicultural Units..247 12.5.2 Scenario Simulations Applying Different Silvicultural Treatments.................................................... 250 12.5.3 Further Description for Silvicultural Units or Any User-Defined Stratification of the Forest District....253 12.5.4 Regeneration Status............................................255 12.6 Summary....................................................... 257 References.....................................................260 Chapter 13 The Use of Multi-Criteria Decision Analysis and Multi-Objective Optimisation in Forest Planning........................................263 TlMO PUKKALA 13.1 Introduction...................................................263 13.2 Multi-Criteria Decision Analysis in Strategic Planning ........264 13.2.1 The Basic Set-up...............................................264 13.2.2 Simple Multi-Attribute Rating Technique........................266 13.2.3 The Analytic Hierarchy Process.................................267 13.2.4 Outranking Methods.............................................269 13.2.5 Voting Methods.................................................271 13.2.6 Summary....................................................... 272 13.3 Multi-Objective Optimisation in Tactical Planning..............273 13.3.1 The Basic Set-up.............................................. 273 13.3.2 Random Ascent................................................. 276 13.3.3 Hero.......................................................... 277 13.3.4 Simulated Annealing........................................... 277 13.3.5 Threshold Accepting............................................278 13.3.6 Great Deluge...................................................279 13.3.7 Tabu Search .................................................. 279 13.3.8 Genetic Algorithms............................................ 281 13.3.9 Summary....................................................... 282 References.................................................... 283 Chapter 14 Modeling Cork Oak Production in Portugal.............................285 Nuno de Almeida Ribeiro, Peter Surový, Ängelo Carvalho Oliveira 14.1 Introduction................................................. 285 14.2 Data......................................................... 287 14.3 Model Structure.............................................. 288 14.4 Methods ..................................................... 291 14.4.1 Model Evaluation Outside the Parameterization Area............291 14.4.2 Modelling Procedures..........................................294 14.4.2.1 Recalibration.................................................294 14.4.2.2 Mortality.................................................... 294 14.4.3 Creation of an Individual Tree Model for Identification and Delineation of Cork Oak Crowns ..........................294 14.4.3.1 Image Segmentation .......................................... 295 14.4.3.2 Individual Crown Delineation..................................296 14.4.3.3 Computation of Input Data for CORKFITS........................296 14.4.4 Software Development and Implementation.......................297 14.5 Analyses, Results and Software Implementations................297 14.5.1 Evaluation Results of the Simulator Outside the Parameterization Area....................................297 14.5.2 Recalibrated Model Parameters and Statistics..................302 14.5.2.1 Potential Cork Growth for the 9-Year Period...................303 14.5.2.2 Potential Crown Horizontal Projection Area Increment for the 5-Year Period....................................... 303 14.5.2.3 Mortality Model.............................................. 305 14.5.3 Individual Cork Oak Model for Crown Identification and Delineation in NIR.......................................306 14.5.4 Software Developments and a Simulation Study Example........308 14.5.4.1 Development in the Data Management Unit.......................308 14.5.4.2 Development of Simulation Options.............................308 14.5.4.3 Development of Output Options ................................309 14.6 Conclusion................................................... 311 References.................................................. 312 Chapter 15 Implementing Tree Growth Models in Slovakia..........................315 Marek Fabrika, Ján Íurský 15.1 Introduction................................................. 315 15.2 Experimental Material and Data Background.....................316 15.3 Methods and Principles of Model Calibration and Development............................................. 318 15.3.1 Calibration of Diameter and Height Increment in the Model SILVA SK....................................... 318 15.3.2 Development of the SIBYLA Growth Model........................320 15.3.2.1 Basic Concepts of the SIBYLA Model.......................... 321 15.3.2.2 Stand Structure Generator.................................... 322 15.3.2.3 The Three-Dimensional Forest Structure Model..................324 15.3.2.4 The Calculating Model........................................ 324 15.3.2.5 The Mortality Model.......................................... 326 15.3.2.6 The Thinning Model............................................326 15.3.2.7 The Competition Model.........................................327 15.3.2.8 The Increment Model.......................................... 328 15.4 Software Implementation of the Models.........................331 15.4.1 Software Solutions for the SILVA SK Model.....................331 15.4.2 Software Solutions for the SIBYLA Model.......................333 15.5 Discussion and Conclusions....................................336 References...................................................339 Chapter 16 Conversion of Norway Spruce: A Case Study in Denmark Based on Silvicultural Scenario Modelling.................................343 Andreas Brunner, Katrine Hahn, Peter Biber, Jens Peter Skovsgaard 16.1 Introduction...................................................... 343 16.2 The SILVA Model....................................................344 16.3 Calibration of SILVA for Denmark...................................344 16.3.1 Calibration Strategy.............................................. 344 16.3.1.1 Height Growth Potential........................................... 345 16.3.1.2 Diameter Growth Potential ........................................ 347 16.3.2 Calibration Data.................................................. 347 16.3.2.1 Height Growth Potential........................................... 347 16.3.2.2 Site Variables.................................................... 349 16.3.2.3 Diameter Growth Potential ........................................ 35O 16.3.3 Calibration Results .............................................. 350 16.3.3.1 Height Growth Potential........................................... 350 16.3.3.2 Diameter Growth Potential ........................................ 352 16.4 Model Evaluation.................................................. 353 16.4.1 Evaluation Data................................................... 353 16.5.1 The Model Stand ................................................ 359 16.5.2 Conversion Silviculture......................................... 360 16.5.2.1 Uniform Shelterwood............................................. 360 16.5.2.2 Irregular Shelterwood .......................................... 361 16.5.2.3 Target Diameter Harvesting.......................................361 16.5.3 Model Specifications............................................ 362 16.5.3.1 SILVA Specifications ........................................... 362 16.5.3.2 Regenerator Specifications...................................... 363 16.5.4 Scenario Results................................................ 365 16.5.4.1 Overstorey Removal.............................................. 365 16.5.4.2 Understorey Development..........................................366 16.6 Discussion.......................................................367 16.6.1 Model Calibration and Evaluation ................................367 16.6.2 Demonstration of the Growth Model................................369 16.6.3 Conversion Silviculture......................................... 369 References...................................................... 370 Chapter 17 Modeling the Growth of Quercus frainetto in Greece.....................373 Gregor Chatziphilippidis, Gavriil Spyroglou 17.1 Introduction................................................. 374 17.2 Materials and Methods........................................ 377 17.2.1 Data......................................................... 377 17.2.2 The Diameter Increment Model..................................378 17.2.3 The Height Increment Model................................... 380 17.2.4 The Competition Index........................................ 381 17.2.5 The Crown Model.............................................. 382 17.2.6 The Mortality Model...........................................382 17.3 Results ..................................................... 384 17.3.1 The Diameter Increment Model................................. 384 17.3.2 The Height Increment Model................................... 386 17.3.3 The Crown Model...............................................388 17.3.4 The Mortality Model.......................................... 388 17.3.5 The Computer Program DRYMOS ................................. 389 17.3.6 Oak Stand Simulation......................................... 390
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geographic	Europa (DE-588)4015701-5 gnd
geographic_facet	Europa
id	DE-604.BV020029766
illustrated	Illustrated
indexdate	2024-07-09T20:11:14Z
institution	BVB
isbn	9783540260981 3540260986
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-013351010
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physical	XIX, 398 S. Ill., graph. Darst. 235 mm x 155 mm
publishDate	2006
publishDateSearch	2006
publishDateSort	2006
publisher	Springer
record_format	marc
spelling	Sustainable forest management growth models for Europe H. Hasenauer (ed.) Berlin [u.a.] Springer 2006 XIX, 398 S. Ill., graph. Darst. 235 mm x 155 mm txt rdacontent n rdamedia nc rdacarrier Foresterie durable - Europe Foresterie durable - Gestion - Europe ram Forêts - Gestion - Europe Forstwirtschaft (DE-588)4017966-7 gnd rswk-swf Wachstumsmodell (DE-588)4127141-5 gnd rswk-swf Nachhaltigkeit (DE-588)4326464-5 gnd rswk-swf Europa (DE-588)4015701-5 gnd rswk-swf Europa (DE-588)4015701-5 g Forstwirtschaft (DE-588)4017966-7 s Nachhaltigkeit (DE-588)4326464-5 s Wachstumsmodell (DE-588)4127141-5 s b DE-604 Hasenauer, Hubert Sonstige oth text/html http://deposit.dnb.de/cgi-bin/dokserv?id=2660998&prov=M&dok_var=1&dok_ext=htm Inhaltstext KOBV Fremddatenuebernahme application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=013351010&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Sustainable forest management growth models for Europe Foresterie durable - Europe Foresterie durable - Gestion - Europe ram Forêts - Gestion - Europe Forstwirtschaft (DE-588)4017966-7 gnd Wachstumsmodell (DE-588)4127141-5 gnd Nachhaltigkeit (DE-588)4326464-5 gnd
subject_GND	(DE-588)4017966-7 (DE-588)4127141-5 (DE-588)4326464-5 (DE-588)4015701-5
title	Sustainable forest management growth models for Europe
title_auth	Sustainable forest management growth models for Europe
title_exact_search	Sustainable forest management growth models for Europe
title_full	Sustainable forest management growth models for Europe H. Hasenauer (ed.)
title_fullStr	Sustainable forest management growth models for Europe H. Hasenauer (ed.)
title_full_unstemmed	Sustainable forest management growth models for Europe H. Hasenauer (ed.)
title_short	Sustainable forest management
title_sort	sustainable forest management growth models for europe
title_sub	growth models for Europe
topic	Foresterie durable - Europe Foresterie durable - Gestion - Europe ram Forêts - Gestion - Europe Forstwirtschaft (DE-588)4017966-7 gnd Wachstumsmodell (DE-588)4127141-5 gnd Nachhaltigkeit (DE-588)4326464-5 gnd
topic_facet	Foresterie durable - Europe Foresterie durable - Gestion - Europe Forêts - Gestion - Europe Forstwirtschaft Wachstumsmodell Nachhaltigkeit Europa
url	http://deposit.dnb.de/cgi-bin/dokserv?id=2660998&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=013351010&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT hasenauerhubert sustainableforestmanagementgrowthmodelsforeurope

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