Evaluarea biodiversității în arborete de amestec din nordul Carpaților Orientali: un studiu de caz bazat pe indicele biodiversității potențiale

Autori

  • Mihai-Cătălin Burlui Universitatea „Ștefan cel Mare” din Suceava, Facultatea de Silvicultură, str. Universității nr. 13, 720229, Suceava, România; Direcția Silvică Suceava, bld. 1 Mai, nr. 6, 72224, Suceava
  • Radu-Leontie Cenușă Universitatea „Ștefan cel Mare” din Suceava, Facultatea de Silvicultură, str. Universității nr. 13, 720229, Suceava, România

DOI:

https://doi.org/10.4316/bf.2017.003%20

Rezumat

În curând

Descărcări

Datele despre descărcarea articolului nu sunt încă disponibile.

Referințe

Amenajamentul Unității de Producție II "Ursoaia", Ocolul Silvic Frasin, ediția 2009.

Bartels R., Dell J.D., Knight R. L., Schaefer G, 1985. Dead and down woody material, pp: 171-186.

DeGraaf, R.M., M. Yamasaki, W.B. Leak, and J.W. Lanier. 1992. New England wildlife: management of forested habitats. USDA For. Serv., Radnor, P.A. Gen. Tech. Rep. 144, 271 p.

Cibien C., Sempere A., 1989. Food availability as a factor in habitat use by roe deer. Acta Theriologica 34: 111-123. https://doi.org/10.4098/AT.arch.89-7

Doniță N., Chiriță C., Stănescu V., 1990. Tipuri de ecosisteme forestiere din România. Editura Tehnică Silvică.

Felton A., Lindbladh M., Brunet J., Fritz O., 2010. Replacing coniferous monocultures with mixed-species production stands: An assessment of the potential benefits

https://doi.org/10.1016/j.foreco.2010.06.011

for forest biodiversity in northern Europe. Forest Ecology and Management 260: 939-947.

FSC Forest Stewardship Council, 2015. Manualul de Proceduri de Management Forestier.

Gill R.M.A., Peace A.J. 1996. Changes in roe deer (Capreolus capreolus L.) population density in response to forest habitat succesion. Forest Ecology and Management 88: 31-41. https://doi.org/10.1016/S0378-1127(96)03807-8

Gonzalez J. R., Palahi M., Trasobares A., Pukkala T., 2006. A fire probability model for forest stands in Catalonia (north-east Spain. Annals of Fores Science 63: 136-176.

https://doi.org/10.1051/forest:2005109

Gosselin M.,Valadon A.,Bergès L., Dumas Y., Gosselin F., Baltzinger Ch., Archaux F., 2006 - Prise en compte de la biodiversité dans la gestion forestière: état des connaissances et recommandations. ONF, Nogent- sur-Vernisson. Cemagref, 161 p.

Gro Flatebo, 1999. Vertical Structure and crown closure. University of Maine, cooperative extension, pp. 17-22.

Hayes P.J., Gruver J.C., 2000. Vertical stratification of bat activity in an old-growth forest in western Washington. Nortwest Science 74: 102-108.

Jactel H., Brockerhoff E-G., 2007. Tree diversity reduces herbivory by forest insects. Ecology Letters 10: 835- 848. https://doi.org/10.1111/j.1461-0248.2007.01073.x

Jonsell M., Hansson J., Wedmo L., 2007. Diversity of saproxylic beetle species in logging residues in Sweden - comparisons betwen tree species and diameters. Biological Conservation 138: 89-99. https://doi.org/10.1016/j.biocon.2007.04.003

Koop H., Rijksen H.D., Wind J., 1994. Tools to diagnose forest integrity: an appraisal method substantiated by Silvi-Star assessment of diversity and forest structure.

Laurent Larrieu, Pierre Gonin, 2008. L'indice de Biodiversite Potentielle (IBP): une methode simple et rapide pour evaluer la biodiversite potentielle des peuplements forestiers. Revue Forestiere Francaise LX: 727-748. https://doi.org/10.4267/2042/28373

Lõhmus, A., Kinks, R. and Soon, M. 2010. The importance of dead-wood supply for woodpeckers in Estonia. Baltic Forestry, 16 (1): 76-86.

McElhinny C., Gibbson P., Brack C., Bauhus J., 2005. Forest and woodland stand structural complexity: Its definition and measurement. Forest Ecology and Management 218: 1-24. https://doi.org/10.1016/j.foreco.2005.08.034

Măciucă A., 2003. Ecologie cu elemente de meteorologie și Climatologie, Editura Universității Ștefan cel Mare Suceava , 219 p.

Mannan, R.W., E.C. Meslow, H.M. Wight. 1980. Use of snags by birds, Douglas-fir forests, western Oregon. Journal of Wildlife Management 44(4): 787-797.

https://doi.org/10.2307/3808306

Marcot B., 2007. Biodiversity and the lexican zoo. Forest Ecology and Management 246: 4-13. https://doi.org/10.1016/j.foreco.2007.03.046

Molder A., Bernhardt-Romermann, Schimdt W. 2008. Herb layer diversity in deciduous forests: Raised by tree richness or beaten by beech. Forest Ecology and Management 256: 272-281. https://doi.org/10.1016/j.foreco.2008.04.012

Oliver H.R., Mayhead G.J. 1974. Wind measurements in pine forests during a destructive gale. Forestry 47:185-195. https://doi.org/10.1093/forestry/47.2.185

Parkes, D., Newell, G. and Cheal, D., 2003. Assessing the quality of native vegetation: the 'habitat hectares' approach. Ecological Management & Restoration, 4(s1).

https://doi.org/10.1046/j.1442-8903.4.s.4.x

Pastorella F., Paletto A., 2011. Stand structure indices as tools to support forest management: an application in Trentino Forests (Italy). Journal of Forest Science 59: 159-168. https://doi.org/10.17221/75/2012-JFS

Pârnuță G., Stuparu E., Scărlătescu V., Lalu I., Lorenț A, Teodosiu M., Chesnoiu E., Mirancea I., Pepelea D., Marin S., Daia M., Șofletea N., Budeanu M., Marica F., Tudoroiu M., Filat M., Nică M., Pârnuță P., Marcu C., Dinu C., Dima G., Curtu A., 2012. Catalogul national al resurselor genetice forestiere. Editura Silvică.

Raphael M.G, 1980. Utilization of standing dead trees by breeding birds at Sagehen Creek, California.

Saetre P., 1999. Spatial patterns of ground vegetation, soil microbial biomass and activity in a mixed spruce-birch stand. Ecography 22: 183-192. https://doi.org/10.1111/j.1600-0587.1999.tb00467.x

Schua K., Wende S., Wagner S., Feger K-H., 2015. Soil chemical and microbial properties in a mixed stand of spruce and birch in the Ore Mountains (Germany) - A case study. Forests 6: 1949-1965. https://doi.org/10.3390/f6061949

Teodosiu M., 2016. Păduri cu grad ridicat de naturalitate: Rezervația Codrul Secular Giumalău Structură, diversitate și regenerare. Editura Silvică, pp. 1, 128.

Trass, H., Vellak, k., Ingerpuu, N., 1999. Floristical and ecological properties for identifying primeval forests in Estonia. Annales Botanici Fennici 36: 67-80.

Van Den Meersschaut, Diego; Vandekerkhove, Kris 2000. Development of a stand-scale forest biodiversity index based on the state forest inventory. In: Hansen M., Burk, T. (eds.), Integrated tools for natural resources inventories in the 21st century. Gen. Tech. Rep. NC-212. St. Paul, MN: U.S. Dept. of Agriculture, Forest Service, North Central Forest Experiment Station, pp. 340-350.

V.N. Stinghe, D.A. Sburlan, 1968. Agenda forestieră.Editura Agro Silvică.

Descărcări

Publicat

2017-07-02

Cum cităm

Burlui, M.-C., & Cenușă, R.-L. (2017). Evaluarea biodiversității în arborete de amestec din nordul Carpaților Orientali: un studiu de caz bazat pe indicele biodiversității potențiale. Bucovina Forestieră, 17(1), 35-45. https://doi.org/10.4316/bf.2017.003

Număr

Secțiune

Articole de cercetare