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Çok İşlevli Ormanlar-Rüzgar Kıran Sistemlerinin Yeniden Oluşturulması Üzerine Bir Çalışma

Year 2012, Volume: 12 Issue: 2, 270 - 278, 01.06.2012

Lubomir Salek Lubomir Tipmann Hedvika Psotova

Abstract

Keywords

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References

  • Bernier-Leduc M., Vanasse A., Olivier A., Bussieres D., Maisonneuve C., 2009 : Avian fauna in windbreaks integrating shrubs that produce non-timber forest products. Agriculture Ecosystems and Environment, 131, 16-24
  • Bird P.R., Jackson T.T., Kearney K.A., Roache A., 2007: Effects of windbreak structure on shelter chracteristics. Australian Journal of Experimental Agriculture, 47, 727-737
  • Brandle J.R., Hodges L., Zhou X.H., 2004: Windbreaks in North American agricultural systems. Agroforestry Systems, 61-2, 65-78
  • David C.A., Rhyner V., 1999: An assessment of windbreaks in central Wisconsin. Agroforestry Systems, 44, 313-331
  • Evrendilek F., Ertekin C., 2002: Agricultural sustainability in Turkey: Integrating food, environmental and energy securities. Land Degradation and Development, 13, 61-67
  • Grala R.K., Tyndall J.C., Mize C.W., 2010: Impact of field windbreaks on visual appearance of agricultural lands, Agroforestry Systems, 80, 411-422
  • Hagen L.J., 1976: Windbreak design for optimum wind erosion control. Proceeding from symposium “Shelterbelts on the Great Plains”, Denver, Colorado
  • Hess G.R., Bay J.M., 2000: Regional assessment of windbreak habitat suitability. Environmental Monitoring and Assessment, 61, 237-254.
  • Honda H., 1974: Fundamental study of the planting and space effects in public nuisance preventing the city: III. Dust catching ability of plant foliage. Technical Bulletin of the Faculty of Horticulture, Chiba University, 22, 81-88
  • Foereid B., Bro R., Mogensen V.O., Porter J.r., 2002: Effects of windbreaks strips of willow coppice – modeling and field experiment on barley in Denmark. Agriculture Ecosystems and Environment, 93, 25-32
  • Němeček J., 2001: Taxonomický klasifikační systém v České republice. ČZU Praha, 78 p
  • Vacek S., Simon J. et al, 2009: Zakládání a stabilizace lesních porostů na bývalých zemědělských a degradovaných půdách. Lesnická Práce, Kostelec nad Černými lesy, 784 p

Multifunctional Forests - A Case Study of Windbreak System Regeneration

Year 2012, Volume: 12 Issue: 2, 270 - 278, 01.06.2012

Lubomir Salek Lubomir Tipmann Hedvika Psotova

Abstract

Bu çalışma, rüzgar kıran sistemlerin kurulma ve tamamlanma örneğinden yola çıkarak, çok işlevli ormanların oluşturulmasında ortaya çıkan problemleri çözmektedir. Yerel halk içerisinden seçilen sekiz çıkar grubuna mensup kişilerin gereksinimleri belirlenmiş ve bu gereksinim duyulan işlevleri karşılayabilme yeterliliklerine göre özel ağaç türleri değerlendirilmiştir. Uygun ağaç türleri seçilmiş ve bu türlerin dikim yöntemleri ve gelişimleri gösterilmiştir. Seçilen en önemli ağaç türü, gereksinim duyulan işlevleri en iyi karşılayacak özelliklere sahip olan, ıhlamur ağacı (Tilia cordata) olmuştur. Üç türü karıştırmak ve rüzgar kıran profilinin uygun yapısını ve çatı-şeklini oluşturmak için, 20 metre enindeki bir hat üzerinde dikimin yapıldığı iki-katlı rüzgar kıranlar kullanılmıştır

Keywords

Rüzgarkıran çok-işlevli orman erozyon kontrolü çıkar grubu yönetim

References

  • Bernier-Leduc M., Vanasse A., Olivier A., Bussieres D., Maisonneuve C., 2009 : Avian fauna in windbreaks integrating shrubs that produce non-timber forest products. Agriculture Ecosystems and Environment, 131, 16-24
  • Bird P.R., Jackson T.T., Kearney K.A., Roache A., 2007: Effects of windbreak structure on shelter chracteristics. Australian Journal of Experimental Agriculture, 47, 727-737
  • Brandle J.R., Hodges L., Zhou X.H., 2004: Windbreaks in North American agricultural systems. Agroforestry Systems, 61-2, 65-78
  • David C.A., Rhyner V., 1999: An assessment of windbreaks in central Wisconsin. Agroforestry Systems, 44, 313-331
  • Evrendilek F., Ertekin C., 2002: Agricultural sustainability in Turkey: Integrating food, environmental and energy securities. Land Degradation and Development, 13, 61-67
  • Grala R.K., Tyndall J.C., Mize C.W., 2010: Impact of field windbreaks on visual appearance of agricultural lands, Agroforestry Systems, 80, 411-422
  • Hagen L.J., 1976: Windbreak design for optimum wind erosion control. Proceeding from symposium “Shelterbelts on the Great Plains”, Denver, Colorado
  • Hess G.R., Bay J.M., 2000: Regional assessment of windbreak habitat suitability. Environmental Monitoring and Assessment, 61, 237-254.
  • Honda H., 1974: Fundamental study of the planting and space effects in public nuisance preventing the city: III. Dust catching ability of plant foliage. Technical Bulletin of the Faculty of Horticulture, Chiba University, 22, 81-88
  • Foereid B., Bro R., Mogensen V.O., Porter J.r., 2002: Effects of windbreaks strips of willow coppice – modeling and field experiment on barley in Denmark. Agriculture Ecosystems and Environment, 93, 25-32
  • Němeček J., 2001: Taxonomický klasifikační systém v České republice. ČZU Praha, 78 p
  • Vacek S., Simon J. et al, 2009: Zakládání a stabilizace lesních porostů na bývalých zemědělských a degradovaných půdách. Lesnická Práce, Kostelec nad Černými lesy, 784 p
There are 12 citations in total.

Details

Primary Language Turkish
Journal Section Articles
Authors

Lubomir Salek This is me

Lubomir Tipmann This is me

Hedvika Psotova This is me

Publication Date June 1, 2012
Published in Issue Year 2012 Volume: 12 Issue: 2

Cite

APA Salek, L., Tipmann, L., & Psotova, H. (2012). Multifunctional Forests - A Case Study of Windbreak System Regeneration. Kastamonu University Journal of Forestry Faculty, 12(2), 270-278.
AMA Salek L, Tipmann L, Psotova H. Multifunctional Forests - A Case Study of Windbreak System Regeneration. Kastamonu University Journal of Forestry Faculty. June 2012;12(2):270-278.
Chicago Salek, Lubomir, Lubomir Tipmann, and Hedvika Psotova. “Multifunctional Forests - A Case Study of Windbreak System Regeneration”. Kastamonu University Journal of Forestry Faculty 12, no. 2 (June 2012): 270-78.
EndNote Salek L, Tipmann L, Psotova H (June 1, 2012) Multifunctional Forests - A Case Study of Windbreak System Regeneration. Kastamonu University Journal of Forestry Faculty 12 2 270–278.
IEEE L. Salek, L. Tipmann, and H. Psotova, “Multifunctional Forests - A Case Study of Windbreak System Regeneration”, Kastamonu University Journal of Forestry Faculty, vol. 12, no. 2, pp. 270–278, 2012.
ISNAD Salek, Lubomir et al. “Multifunctional Forests - A Case Study of Windbreak System Regeneration”. Kastamonu University Journal of Forestry Faculty 12/2 (June 2012), 270-278.
JAMA Salek L, Tipmann L, Psotova H. Multifunctional Forests - A Case Study of Windbreak System Regeneration. Kastamonu University Journal of Forestry Faculty. 2012;12:270–278.
MLA Salek, Lubomir et al. “Multifunctional Forests - A Case Study of Windbreak System Regeneration”. Kastamonu University Journal of Forestry Faculty, vol. 12, no. 2, 2012, pp. 270-8.
Vancouver Salek L, Tipmann L, Psotova H. Multifunctional Forests - A Case Study of Windbreak System Regeneration. Kastamonu University Journal of Forestry Faculty. 2012;12(2):270-8.

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