Translating conservation genetics into management: Pan-European minimum requirements for dynamic conservation units of forest tree genetic diversity

► We review theoretical and practical aspects of genetic conservation in forest trees. ► We present pan-European requirements for genetic conservation units of forest trees. ► The requirements promote dynamic conservation of genetic diversity. ► The requirements are now used for managing tree popula...

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Veröffentlicht in:	Biological conservation 2013-01, Vol.157, p.39-49
Hauptverfasser:	Koskela, Jarkko, Lefèvre, François, Schueler, Silvio, Kraigher, Hojka, Olrik, Ditte C., Hubert, Jason, Longauer, Roman, Bozzano, Michele, Yrjänä, Leena, Alizoti, Paraskevi, Rotach, Peter, Vietto, Lorenzo, Bordács, Sándor, Myking, Tor, Eysteinsson, Thröstur, Souvannavong, Oudara, Fady, Bruno, De Cuyper, Bart, Heinze, Berthold, von Wühlisch, Georg, Ducousso, Alexis, Ditlevsen, Bjerne
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Schlagworte:	Agricultural sciences Animal, plant and microbial ecology Applied ecology Biological and medical sciences Conservation, protection and management of environment and wildlife Forest genetic resources forest management forest trees Forestry forests Fundamental and applied biological sciences. Psychology General aspects General forest ecology Generalities. Production, biomass. Quality of wood and forest products. General forest ecology Genetic conservation unit Genetic diversity Genetic management genetic variation In situ inventories Life Sciences monitoring Parks, reserves, wildlife conservation. Endangered species: population survey and restocking population size
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creator	Koskela, Jarkko Lefèvre, François Schueler, Silvio Kraigher, Hojka Olrik, Ditte C. Hubert, Jason Longauer, Roman Bozzano, Michele Yrjänä, Leena Alizoti, Paraskevi Rotach, Peter Vietto, Lorenzo Bordács, Sándor Myking, Tor Eysteinsson, Thröstur Souvannavong, Oudara Fady, Bruno De Cuyper, Bart Heinze, Berthold von Wühlisch, Georg Ducousso, Alexis Ditlevsen, Bjerne
description	► We review theoretical and practical aspects of genetic conservation in forest trees. ► We present pan-European requirements for genetic conservation units of forest trees. ► The requirements promote dynamic conservation of genetic diversity. ► The requirements are now used for managing tree populations in 36 countries. This paper provides a review of theoretical and practical aspects related to genetic management of forest trees. The implementation of international commitments on forest genetic diversity has been slow and partly neglected. Conservation of forest genetic diversity is still riddled with problems, and complexities of national legal and administrative structures. Europe is an example of a complex region where the distribution ranges of tree species extend across large geographical areas with profound environmental differences, and include many countries. Conservation of forest genetic diversity in Europe has been hampered by a lack of common understanding on the management requirements for genetic conservation units of forest trees. The challenge resides in integrating scientific knowledge on conservation genetics into management of tree populations so that recommendations are feasible to implement across different countries. Here, we present pan-European minimum requirements for dynamic conservation units of forest genetic diversity. The units are natural or man-made tree populations which are managed for maintaining evolutionary processes and adaptive potential across generations. Each unit should have a designated status and a management plan, and one or more tree species recognized as target species for genetic conservation. The minimum sizes of the units are set at 500, 50 or 15 reproducing individuals depending on tree species and conservation objectives. Furthermore, silvicultural interventions should be allowed to enhance genetic processes, as needed, and field inventories carried out to monitor regeneration and the population size. These minimum requirements are now used by 36 countries to improve management of forest genetic diversity.
doi_str_mv	10.1016/j.biocon.2012.07.023
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Here, we present pan-European minimum requirements for dynamic conservation units of forest genetic diversity. The units are natural or man-made tree populations which are managed for maintaining evolutionary processes and adaptive potential across generations. Each unit should have a designated status and a management plan, and one or more tree species recognized as target species for genetic conservation. The minimum sizes of the units are set at 500, 50 or 15 reproducing individuals depending on tree species and conservation objectives. Furthermore, silvicultural interventions should be allowed to enhance genetic processes, as needed, and field inventories carried out to monitor regeneration and the population size. 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This paper provides a review of theoretical and practical aspects related to genetic management of forest trees. The implementation of international commitments on forest genetic diversity has been slow and partly neglected. Conservation of forest genetic diversity is still riddled with problems, and complexities of national legal and administrative structures. Europe is an example of a complex region where the distribution ranges of tree species extend across large geographical areas with profound environmental differences, and include many countries. Conservation of forest genetic diversity in Europe has been hampered by a lack of common understanding on the management requirements for genetic conservation units of forest trees. The challenge resides in integrating scientific knowledge on conservation genetics into management of tree populations so that recommendations are feasible to implement across different countries. Here, we present pan-European minimum requirements for dynamic conservation units of forest genetic diversity. The units are natural or man-made tree populations which are managed for maintaining evolutionary processes and adaptive potential across generations. Each unit should have a designated status and a management plan, and one or more tree species recognized as target species for genetic conservation. The minimum sizes of the units are set at 500, 50 or 15 reproducing individuals depending on tree species and conservation objectives. Furthermore, silvicultural interventions should be allowed to enhance genetic processes, as needed, and field inventories carried out to monitor regeneration and the population size. 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General forest ecology</subject><subject>Genetic conservation unit</subject><subject>Genetic diversity</subject><subject>Genetic management</subject><subject>genetic variation</subject><subject>In situ</subject><subject>inventories</subject><subject>Life Sciences</subject><subject>monitoring</subject><subject>Parks, reserves, wildlife conservation. 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This paper provides a review of theoretical and practical aspects related to genetic management of forest trees. The implementation of international commitments on forest genetic diversity has been slow and partly neglected. Conservation of forest genetic diversity is still riddled with problems, and complexities of national legal and administrative structures. Europe is an example of a complex region where the distribution ranges of tree species extend across large geographical areas with profound environmental differences, and include many countries. Conservation of forest genetic diversity in Europe has been hampered by a lack of common understanding on the management requirements for genetic conservation units of forest trees. The challenge resides in integrating scientific knowledge on conservation genetics into management of tree populations so that recommendations are feasible to implement across different countries. Here, we present pan-European minimum requirements for dynamic conservation units of forest genetic diversity. The units are natural or man-made tree populations which are managed for maintaining evolutionary processes and adaptive potential across generations. Each unit should have a designated status and a management plan, and one or more tree species recognized as target species for genetic conservation. The minimum sizes of the units are set at 500, 50 or 15 reproducing individuals depending on tree species and conservation objectives. Furthermore, silvicultural interventions should be allowed to enhance genetic processes, as needed, and field inventories carried out to monitor regeneration and the population size. 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subjects	Agricultural sciences Animal, plant and microbial ecology Applied ecology Biological and medical sciences Conservation, protection and management of environment and wildlife Forest genetic resources forest management forest trees Forestry forests Fundamental and applied biological sciences. Psychology General aspects General forest ecology Generalities. Production, biomass. Quality of wood and forest products. General forest ecology Genetic conservation unit Genetic diversity Genetic management genetic variation In situ inventories Life Sciences monitoring Parks, reserves, wildlife conservation. Endangered species: population survey and restocking population size
title	Translating conservation genetics into management: Pan-European minimum requirements for dynamic conservation units of forest tree genetic diversity
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