BibTex RIS Kaynak Göster

Examining The Effect of Reed Mowing Model and Rate on Natural Filtering Areas with The Example of Bendimahi Delta Van-Turkey

Yıl 2010, Cilt: 38 Sayı: 4, 325 - 331, 01.12.2010

Öz

Reeds emerge in shallow coastal areas where water and land meet. Because of this feature they are at transition and buffer point between two ecosystems. Not only they contain creatures belonging to these two environments but also they help shaping the interaction between the environments in a balanced manner. A reed which has not been ruined functions just as a technical treatment system. Firstly, the plants in the water cut the speed of the water and makes the particles’ in it sink thus providing physical treatment. At eh second stage, the creatures living in reeds decompose the organic substances and realize biological treatment step. At the last stage, plants and other creatures living in reeds takes the substances they need into their bodies thus providing chemical treatment. After passing these stages, the water infiltrates through the dunes and joins the system in a clear manner. Today, cleaning waters by establishing artificial reed pools in the areas, where no natural reeds have grown, has become a commonly used method. The aim of this study is to put forward the relation between the mowing manner of reed plants which were cut generally for economical reasons in wetlands and the natural filtration by means of Bendimahi example. Images taken from the mentioned area and other satellite images that have been taken from the area during the study, which has taken one year, have been blended with literature knowledge and interpreted. The idea of mowing a certain amount of reeds every year which has been recommended by the experts may be useful for shallow and still waters without a large amount of water input-output and which do not flow into a water system thereafter. However, this idea does not provide an efficient solution for streams flowing down fast from highlands such as Bendimahi Stream. Instead of this, it will be more appropriate to cut the reeds as wide bands to clean the water and in a way to cut down the speed of the water and provide a dam before it. This model may be applied by cutting different bands every year. The desired continuous filtration will be provided with this system which we can call as “bands model”. Implementation of such a model will contribute to the protection of both biodiversity and clean state of Van Lake.

Kaynakça

  • Chambers, M.R., Mayerson, L.A. and Saltonstall, K., Expansion of Phragmites australis into tidal wetlands of North America. Aqua. Bot., 64, 261, 1999.
  • Tilton, D., Fahey, B. and Merkey, D., A Wetland Protection Plan for the Headwaters of Johnson Creek and the Middle Rouge River. Rouge River National Wet Weather Demonstration Project; RPO-NPS-TM25.00; Michigan, 1997.
  • Schmidt, M.H., Lefebvre, G., Poulin, B. and Tscharntke, T., Reed cutting affects arthropod communities, potentially reducing food for passerine birds. Biol. Conserv., 121, 157, 2005.
  • Mitsch, W.J., Lefeuvre, J.C., and Bouchard, V., Ecological engineering applied to river and wetland restoration. Ecol. Eng., 18, 529, 2002.
  • Fleming, M.S. and Horne, A.J., Balancing wildlife needs and nitrate removal in constructed wetlands: The case of the Irvine Ranch Water District’s San Joaquin Wildlife Sanctuary. Ecol. Eng., 26, 147, 2006.
  • Vymazal, J., The use constructed wetlands with horizontal sub-surface flow for various types of wastewater. Ecol. Eng., 35, 1, 2009.
  • Zhang, D., Gersberg, R.M. and Keat, T.S., Constructed wetlands in China. Ecol. Eng., 35, 1367, 2009.
  • Zhang, L.Y., Zhang, L., Liu, Y., Shen, Y. and Xiong, Y., Effect of limited artificial aeration on constructed wetland treatment of domestic wastewater. Desalination, 250, 915, 2010.
  • Gunes, K., Tuncsiper, B., A serially connecte d sand filtration and constructed wetland system for small community wa stewater treatment. Ecol. Eng., 35, 120, 2009.
  • Coveney, M.F., Stites, D.L., Lowe, E.F., Battoe, L.E. and Conrow, R., Nutrient removal from eutrophic lake water by wetland filtration. Ecol. Eng., 19, 141, 2002.
  • Greenway, M., The role of constructed wetlands in secondary effluent treatment and water reuse in subtropical and arid Australia. Ecol. Eng., 25, 501, 2005.
Yıl 2010, Cilt: 38 Sayı: 4, 325 - 331, 01.12.2010

Öz

Kaynakça

  • Chambers, M.R., Mayerson, L.A. and Saltonstall, K., Expansion of Phragmites australis into tidal wetlands of North America. Aqua. Bot., 64, 261, 1999.
  • Tilton, D., Fahey, B. and Merkey, D., A Wetland Protection Plan for the Headwaters of Johnson Creek and the Middle Rouge River. Rouge River National Wet Weather Demonstration Project; RPO-NPS-TM25.00; Michigan, 1997.
  • Schmidt, M.H., Lefebvre, G., Poulin, B. and Tscharntke, T., Reed cutting affects arthropod communities, potentially reducing food for passerine birds. Biol. Conserv., 121, 157, 2005.
  • Mitsch, W.J., Lefeuvre, J.C., and Bouchard, V., Ecological engineering applied to river and wetland restoration. Ecol. Eng., 18, 529, 2002.
  • Fleming, M.S. and Horne, A.J., Balancing wildlife needs and nitrate removal in constructed wetlands: The case of the Irvine Ranch Water District’s San Joaquin Wildlife Sanctuary. Ecol. Eng., 26, 147, 2006.
  • Vymazal, J., The use constructed wetlands with horizontal sub-surface flow for various types of wastewater. Ecol. Eng., 35, 1, 2009.
  • Zhang, D., Gersberg, R.M. and Keat, T.S., Constructed wetlands in China. Ecol. Eng., 35, 1367, 2009.
  • Zhang, L.Y., Zhang, L., Liu, Y., Shen, Y. and Xiong, Y., Effect of limited artificial aeration on constructed wetland treatment of domestic wastewater. Desalination, 250, 915, 2010.
  • Gunes, K., Tuncsiper, B., A serially connecte d sand filtration and constructed wetland system for small community wa stewater treatment. Ecol. Eng., 35, 120, 2009.
  • Coveney, M.F., Stites, D.L., Lowe, E.F., Battoe, L.E. and Conrow, R., Nutrient removal from eutrophic lake water by wetland filtration. Ecol. Eng., 19, 141, 2002.
  • Greenway, M., The role of constructed wetlands in secondary effluent treatment and water reuse in subtropical and arid Australia. Ecol. Eng., 25, 501, 2005.
Toplam 11 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Bölüm Research Article
Yazarlar

Özdemir Adizel Bu kişi benim

Atilla Durmuş Bu kişi benim

İlhami Kiziroğlu Bu kişi benim

Yayımlanma Tarihi 1 Aralık 2010
Yayımlandığı Sayı Yıl 2010 Cilt: 38 Sayı: 4

Kaynak Göster

APA Adizel, Ö., Durmuş, A., & Kiziroğlu, İ. (2010). Examining The Effect of Reed Mowing Model and Rate on Natural Filtering Areas with The Example of Bendimahi Delta Van-Turkey. Hacettepe Journal of Biology and Chemistry, 38(4), 325-331.
AMA Adizel Ö, Durmuş A, Kiziroğlu İ. Examining The Effect of Reed Mowing Model and Rate on Natural Filtering Areas with The Example of Bendimahi Delta Van-Turkey. HJBC. Aralık 2010;38(4):325-331.
Chicago Adizel, Özdemir, Atilla Durmuş, ve İlhami Kiziroğlu. “Examining The Effect of Reed Mowing Model and Rate on Natural Filtering Areas With The Example of Bendimahi Delta Van-Turkey”. Hacettepe Journal of Biology and Chemistry 38, sy. 4 (Aralık 2010): 325-31.
EndNote Adizel Ö, Durmuş A, Kiziroğlu İ (01 Aralık 2010) Examining The Effect of Reed Mowing Model and Rate on Natural Filtering Areas with The Example of Bendimahi Delta Van-Turkey. Hacettepe Journal of Biology and Chemistry 38 4 325–331.
IEEE Ö. Adizel, A. Durmuş, ve İ. Kiziroğlu, “Examining The Effect of Reed Mowing Model and Rate on Natural Filtering Areas with The Example of Bendimahi Delta Van-Turkey”, HJBC, c. 38, sy. 4, ss. 325–331, 2010.
ISNAD Adizel, Özdemir vd. “Examining The Effect of Reed Mowing Model and Rate on Natural Filtering Areas With The Example of Bendimahi Delta Van-Turkey”. Hacettepe Journal of Biology and Chemistry 38/4 (Aralık 2010), 325-331.
JAMA Adizel Ö, Durmuş A, Kiziroğlu İ. Examining The Effect of Reed Mowing Model and Rate on Natural Filtering Areas with The Example of Bendimahi Delta Van-Turkey. HJBC. 2010;38:325–331.
MLA Adizel, Özdemir vd. “Examining The Effect of Reed Mowing Model and Rate on Natural Filtering Areas With The Example of Bendimahi Delta Van-Turkey”. Hacettepe Journal of Biology and Chemistry, c. 38, sy. 4, 2010, ss. 325-31.
Vancouver Adizel Ö, Durmuş A, Kiziroğlu İ. Examining The Effect of Reed Mowing Model and Rate on Natural Filtering Areas with The Example of Bendimahi Delta Van-Turkey. HJBC. 2010;38(4):325-31.

HACETTEPE JOURNAL OF BIOLOGY AND CHEMİSTRY

Copyright © Hacettepe University Faculty of Science

http://www.hjbc.hacettepe.edu.tr/

https://dergipark.org.tr/tr/pub/hjbc