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P. Donald, F. Sanderson, I. Burfield, S. Bierman, R. Gregory, Z. Waliczky (2007)
International Conservation Policy Delivers Benefits for Birds in EuropeScience, 317
M. Mönkkönen, P. Reunanen, A. Nikula, J. Inkeröinen, Jukka Forsman (1997)
Landscape characteristics associated with the occurrence of the flying squirrel Pteromys volans in old-growth forests of northern FinlandEcography, 20
V. Selonen, I. Hanski (2004)
Young flying squirrels (Pteromys volans) dispersing in fragmented forestsBehavioral Ecology, 15
Report on the main results of the surveillance under article 11 for annex II, IV and V species
(2006)
Estimation of population size of Siberian flying squirrel Pteromys volans in Finland
A. Knight, R. Cowling, M. Rouget, A. Balmford, A. Lombard, B. Campbell (2008)
Knowing But Not Doing: Selecting Priority Conservation Areas and the Research–Implementation GapConservation Biology, 22
A. Santangeli, I. Hanski, H. Mäkelä (2013)
Integrating multi-source forest inventory and animal survey data to assess nationwide distribution and habitat correlates of the Siberian flying squirrelBiological Conservation, 157
Frank Wätzold, Kathleen Schwerdtner (2005)
Why be wasteful when preserving a valuable resource? A review article on the cost-effectiveness of European biodiversity conservation policyBiological Conservation, 123
I. Hanski, P. Stevens, Petri Ihalempiä, V. Selonen (2000)
HOME-RANGE SIZE, MOVEMENTS, AND NEST-SITE USE IN THE SIBERIAN FLYING SQUIRREL, PTEROMYS VOLANS, 81
(2000)
Red data book of Latvia: rare and threatened species of plants and animals. Riga: Aka-print and Rigess
V. Selonen, IIpo Hanski, P. Stevens (2001)
Space use of the Siberian flying squirrel Ptevomys volans in fragmented forest landscapesEcography, 24
J. Koskimäki, O. Huitu, J. Kotiaho, S. Lampila, Antero Mäkelä, R. Sulkava, M. Mönkkönen (2014)
Are habitat loss, predation risk and climate related to the drastic decline in a Siberian flying squirrel population? A 15-year studyPopulation Ecology, 56
T. Pukkala, R. Sulkava, Lotta Jaakkola, E. Lähde (2012)
Relationships between economic profitability and habitat quality of Siberian jay in uneven-aged Norway spruce forestForest Ecology and Management, 276
W. Sutherland, R. Freckleton (2012)
Making predictive ecology more relevant to policy makers and practitionersPhilosophical Transactions of the Royal Society B: Biological Sciences, 367
E. McNie (2007)
Reconciling the supply of scientific information with user demands: an analysis of the problem and review of the literatureEnvironmental Science & Policy, 10
(2001)
Biology and conservation of the Siberian flying squirrel (Pteromys volans) in Finland. The Finnish Environment, 459. Ministry of Environment
O. Laiho, E. Lähde, T. Pukkala (2011)
Uneven- vs even-aged management in Finnish boreal forestsForestry, 84
P. Reunanen, A. Nikula, Eija Hurme, V. Nivala (2004)
Assessing landscape thresholds for the Siberian flying squirrel
G. Ficetola, E. Padoa-Schioppa, F. Bernardi (2009)
Influence of Landscape Elements in Riparian Buffers on the Conservation of Semiaquatic AmphibiansConservation Biology, 23
(2004)
Liito-oravan lisääntymis-ja levähdyspaikat (LSL 72a § sekä 24 § ja 25 §) sekä ko. hankinnat valtion omistukseen
P. Rassi, Esko Hyvärinen, Aino Juslén, I. Mannerkoski (2010)
Suomen lajien uhanalaisuus : Punainen kirja 2010 = The 2010 Red List of Finnish species
(2008)
Pteromys volans. In IUCN red list of threatened species. Version 2012.2
最首 太郎 (1999)
生物多様性条約 (Convention on Biological Diversity) 中間会合報告, 57
A. Pullin, T. Knight (2001)
Effectiveness in Conservation Practice: Pointers from Medicine and Public HealthConservation Biology, 15
(2010)
The 2010 assessment of implementing the EU biodiversity action plan
A. Santangeli, Ralf Wistbacka, I. Hanski, T. Laaksonen (2013)
Ineffective enforced legislation for nature conservation: A case study with Siberian flying squirrel and forestry in a boreal landscapeBiological Conservation, 157
(2009)
The statistical yearbook of forestry 2009
T. Tjur (2009)
Coefficients of Determination in Logistic Regression Models—A New Proposal: The Coefficient of DiscriminationThe American Statistician, 63
(2011)
Proposal for species conservation action program – proposals for prioritization and development in species conservation
R. Naidoo, A. Balmford, P. Ferraro, S. Polasky, T. Ricketts, M. Rouget (2006)
Integrating economic costs into conservation planning.Trends in ecology & evolution, 21 12
(2010)
Nature Conservation Policy & Its Implementation
(2006)
European commission biodiversity knowledge base : assessment of reasons for 2010 target failure
W. Murdoch, S. Polasky, K. Wilson, H. Possingham, P. Kareiva, R. Shaw (2007)
Maximizing return on investment in conservationBiological Conservation, 139
(2005)
Vammala: Vammalan Kirjapaino Oy and Finnish Forest Research Institute METLA
H. Hokkanen, T. Tormala, H. Vuorinen (1982)
Decline of the flying squirrel Pteromys volans l. populations in FinlandBiological Conservation, 23
Burnham Burnham, Anderson Anderson (2004)
Multimodel inference: understanding AIC and BIC in Model SelectionSocio. Meth. Res., 33
W. Sutherland, A. Pullin, P. Dolman, T. Knight (2004)
The need for evidence-based conservation.Trends in ecology & evolution, 19 6
A. Pullin, T. Knight, D. Stone, K. Charman (2004)
Do conservation managers use scientific evidence to support their decision-making?Biological Conservation, 119
K. Burnham, David Anderson (2004)
Understanding AIC and BIC in Model Selection
Lack of evaluation of the effectiveness of conservation practices as well as the challenge of converting scientific knowledge into conservation legislation and policy are persistent problems in conservation biology. European Union's Habitats Directive obliges member states to establish and implement a system of strict protection of animal species listed in Annex IV(a). This implies for example, that the deterioration or destruction of breeding sites or resting places of these species is prohibited. Here, we evaluate the effectiveness of the protection procedure aimed at conserving sites occupied by the Siberian flying squirrel Pteromys volans from destruction as a consequence of timber harvesting. We assess the potential effectiveness of the protection procedure by combining survey data with a simulation approach, showing that c. 97% of forests occupied by the species are harvested without authorization, as a result of inadequate information on the occurrence of the species. We assess forest structure around our study sites, visited both at the time of the protection decision and 1–6 years later, and show that clear‐cut areas within 150 m of breeding sites and resting places substantially increase the risk of abandonment. In spite of this, typically only areas of radius 10–30 m are protected from logging. As the territory is abandoned in c. 50% of the cases in spite of protection of breeding sites and resting places, the total effectiveness of this conservation measure is only c. 1.5%. Therefore, the current protection measure is inadequate against the threats that forestry poses for the species in Finland, and the focus should be turned to habitat and population level solutions. We suggest that researchers and decision‐makers should pay more attention to the overall effectiveness of different conservation measures, as this information is crucial for developing effective conservation policies.
Animal Conservation – Wiley
Published: Apr 1, 2015
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