Research Article
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Year 2022, , 24 - 31, 06.07.2022
https://doi.org/10.53093/mephoj.1123641

Abstract

References

  • http://global-flood-database.cloudtostreet.ai/
  • https://www.afad.gov.tr/kurumsal-raporlar
  • Horton, R. E. (1945). Erosional Development of Streams and Their Drainage Basins; Hydrophysical Approach to Quantitative Morphology. Geological Society of America Bulletin, 56, 275.
  • Strahler, A. N. (1964). Quantitative geomorphology of the drainage basin and channel networks, Handbook of applied hydrology.
  • Schumm, S. A. (1956). Evolution of drainage systems and slopes in badlands at Perth Amboy. New Jersey, Geological society of America bulletin, 67, 597-646.
  • Miller, V. C. (1953). A Quantitative geomorphic study of drainage basin characteristics in the Clinch Mountain area Virginia and Tennessee.
  • Smith, K. G. (1950). Standards for grading texture of erosional topography. American Journal of Science, 248, 655–668.
  • Strahler, A. N. (1952). Hypsometric (Area altitude) analysis of erosional topology. Geological Society of America Bulletin, 63(11), 1117-1142
  • Strahler, A. N. (1958). Dimensional analysis applied to fluvial eroded landforms. Geological Society of America Bulletin, 69, 279-300
  • Ödeker B. & Türkoğlu N. (2020). Sabuncular Deresi Havzası'nın (Rize/Çayeli) Morfometrik Özelliklerinin Coğrafi Bilgi Sistemleri (CBS) İle Belirlenmesi, DTCF Dergisi 60.1: 14-38, DOI: 10.33171/dtcfjournal.2020.60.1.2
  • https://asterweb.jpl.nasa.gov/GDEM.asp
  • Özdemir, H. (2011) Havza Morfometrisi ve Taşkınlar. Fiziki Coğrafya Araştırmaları, Sistematik ve Bölgesel, Türk Coğrafya Kurumu Yayınları. 507-526
  • Görgülü, E., Göl, C., (2021). Coğrafi Bilgi Sistemleri ile havza morfometrik analizi: Sarayköy Göleti Havzası (Çankırı). Anadolu Orman Araştırmaları Dergisi, 7(2), 107-118
  • Utlu M., Özdemir H. (2018) Havza Morfometrik Özelliklerinin Taşkın Üretmedeki Rolü Biga Çayı Havzası Örneği, Coğrafya Dergisi – Journal of Geography 36, 49-62.
  • https://www.haberturk.com/son-dakika-sinop-ta-sel-felaketi-sinop-ayancik-sel-felaketinde-son-durum-3159719 Date of access: 23 April 2022
  • https://www.pusulahaber.com.tr/sinopta-sel-ayancik-cayi-tasti-1450223h.htm Date of access: 23 April 2022
  • https://m.bianet.org/bianet/iklim-krizi/248746-ayancik-dag-koylerinde-tahribat-cok-buyuk Date of access: 23 April 2022
  • https://www.aa.com.tr/tr/gundem/ayancikta-sel-sularinin-altyapi-ve-dogaya-tahribati-havadan-goruntulendi/2365192 Date of access: 23 April 2022
  • https://www.eskisehirhaber.com/asayis/sinop-ayanciktaki-sel-afeti-havadan-goruntulendi-h474127.html Date of access: 23 April 2022
  • https://www.dunya.com/gundem/bartin-kastamonu-ve-sinopta-sel-felaketi-6-olu-1-kayip-haberi-630513 Date of access: 23 April 2022
  • https://www.sozcu.com.tr/2021/gundem/sinopta-sel-ayancik-cayi-tasti-6586692/

Determination of Ayancık Stream Basin and its morphometric parameters

Year 2022, , 24 - 31, 06.07.2022
https://doi.org/10.53093/mephoj.1123641

Abstract

As a result of the increase in the negative effects of climate change, many natural disasters such as drought, forest fires, and floods are experienced all over the world. In Türkiye, especially in the Black Sea region, floods and overflows are frequently seen due to excessive precipitation. The use of current data obtained from the land management information system in the disaster management information system increases the accuracy of the predictability of disasters and ensures their sustainability. For this reason, the accuracy and up-to-date data obtained from the land management information system are important. Storage, modeling, querying, analysis, and tracking model has created for local and private administrations thanks to the acquisition of data by remote sensing and photogrammetry methods and their integration with GIS. Thus, natural disasters caused by the negative effects of climate change can be prevented. It is necessary to model the basin in terms of geological, geomorphological, and hydrographic and to create a basin management model, especially to predict, monitor, and take precautions for flood and overflow events. In this study, the boundaries of the Ayancık Stream Basin, which is located on the Sinop Plateau and flows into the Black Sea by mostly flowing in the north-south direction, were determined and morphometric analyses of the basin were made. With the help of morphometric analysis, the hydrographic features of the Ayancık Stream Basin were determined.

References

  • http://global-flood-database.cloudtostreet.ai/
  • https://www.afad.gov.tr/kurumsal-raporlar
  • Horton, R. E. (1945). Erosional Development of Streams and Their Drainage Basins; Hydrophysical Approach to Quantitative Morphology. Geological Society of America Bulletin, 56, 275.
  • Strahler, A. N. (1964). Quantitative geomorphology of the drainage basin and channel networks, Handbook of applied hydrology.
  • Schumm, S. A. (1956). Evolution of drainage systems and slopes in badlands at Perth Amboy. New Jersey, Geological society of America bulletin, 67, 597-646.
  • Miller, V. C. (1953). A Quantitative geomorphic study of drainage basin characteristics in the Clinch Mountain area Virginia and Tennessee.
  • Smith, K. G. (1950). Standards for grading texture of erosional topography. American Journal of Science, 248, 655–668.
  • Strahler, A. N. (1952). Hypsometric (Area altitude) analysis of erosional topology. Geological Society of America Bulletin, 63(11), 1117-1142
  • Strahler, A. N. (1958). Dimensional analysis applied to fluvial eroded landforms. Geological Society of America Bulletin, 69, 279-300
  • Ödeker B. & Türkoğlu N. (2020). Sabuncular Deresi Havzası'nın (Rize/Çayeli) Morfometrik Özelliklerinin Coğrafi Bilgi Sistemleri (CBS) İle Belirlenmesi, DTCF Dergisi 60.1: 14-38, DOI: 10.33171/dtcfjournal.2020.60.1.2
  • https://asterweb.jpl.nasa.gov/GDEM.asp
  • Özdemir, H. (2011) Havza Morfometrisi ve Taşkınlar. Fiziki Coğrafya Araştırmaları, Sistematik ve Bölgesel, Türk Coğrafya Kurumu Yayınları. 507-526
  • Görgülü, E., Göl, C., (2021). Coğrafi Bilgi Sistemleri ile havza morfometrik analizi: Sarayköy Göleti Havzası (Çankırı). Anadolu Orman Araştırmaları Dergisi, 7(2), 107-118
  • Utlu M., Özdemir H. (2018) Havza Morfometrik Özelliklerinin Taşkın Üretmedeki Rolü Biga Çayı Havzası Örneği, Coğrafya Dergisi – Journal of Geography 36, 49-62.
  • https://www.haberturk.com/son-dakika-sinop-ta-sel-felaketi-sinop-ayancik-sel-felaketinde-son-durum-3159719 Date of access: 23 April 2022
  • https://www.pusulahaber.com.tr/sinopta-sel-ayancik-cayi-tasti-1450223h.htm Date of access: 23 April 2022
  • https://m.bianet.org/bianet/iklim-krizi/248746-ayancik-dag-koylerinde-tahribat-cok-buyuk Date of access: 23 April 2022
  • https://www.aa.com.tr/tr/gundem/ayancikta-sel-sularinin-altyapi-ve-dogaya-tahribati-havadan-goruntulendi/2365192 Date of access: 23 April 2022
  • https://www.eskisehirhaber.com/asayis/sinop-ayanciktaki-sel-afeti-havadan-goruntulendi-h474127.html Date of access: 23 April 2022
  • https://www.dunya.com/gundem/bartin-kastamonu-ve-sinopta-sel-felaketi-6-olu-1-kayip-haberi-630513 Date of access: 23 April 2022
  • https://www.sozcu.com.tr/2021/gundem/sinopta-sel-ayancik-cayi-tasti-6586692/
There are 21 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Research Articles
Authors

Emine Müjgan Ergene 0000-0002-1118-0006

Elnaz Najatishendi 0000-0001-7901-5640

Melis Uzar 0000-0003-0873-3797

Füsun Balık Şanlı 0000-0003-1243-8299

Publication Date July 6, 2022
Published in Issue Year 2022

Cite

APA Ergene, E. M., Najatishendi, E., Uzar, M., Balık Şanlı, F. (2022). Determination of Ayancık Stream Basin and its morphometric parameters. Mersin Photogrammetry Journal, 4(1), 24-31. https://doi.org/10.53093/mephoj.1123641
AMA Ergene EM, Najatishendi E, Uzar M, Balık Şanlı F. Determination of Ayancık Stream Basin and its morphometric parameters. Mersin Photogrammetry Journal. July 2022;4(1):24-31. doi:10.53093/mephoj.1123641
Chicago Ergene, Emine Müjgan, Elnaz Najatishendi, Melis Uzar, and Füsun Balık Şanlı. “Determination of Ayancık Stream Basin and Its Morphometric Parameters”. Mersin Photogrammetry Journal 4, no. 1 (July 2022): 24-31. https://doi.org/10.53093/mephoj.1123641.
EndNote Ergene EM, Najatishendi E, Uzar M, Balık Şanlı F (July 1, 2022) Determination of Ayancık Stream Basin and its morphometric parameters. Mersin Photogrammetry Journal 4 1 24–31.
IEEE E. M. Ergene, E. Najatishendi, M. Uzar, and F. Balık Şanlı, “Determination of Ayancık Stream Basin and its morphometric parameters”, Mersin Photogrammetry Journal, vol. 4, no. 1, pp. 24–31, 2022, doi: 10.53093/mephoj.1123641.
ISNAD Ergene, Emine Müjgan et al. “Determination of Ayancık Stream Basin and Its Morphometric Parameters”. Mersin Photogrammetry Journal 4/1 (July 2022), 24-31. https://doi.org/10.53093/mephoj.1123641.
JAMA Ergene EM, Najatishendi E, Uzar M, Balık Şanlı F. Determination of Ayancık Stream Basin and its morphometric parameters. Mersin Photogrammetry Journal. 2022;4:24–31.
MLA Ergene, Emine Müjgan et al. “Determination of Ayancık Stream Basin and Its Morphometric Parameters”. Mersin Photogrammetry Journal, vol. 4, no. 1, 2022, pp. 24-31, doi:10.53093/mephoj.1123641.
Vancouver Ergene EM, Najatishendi E, Uzar M, Balık Şanlı F. Determination of Ayancık Stream Basin and its morphometric parameters. Mersin Photogrammetry Journal. 2022;4(1):24-31.