Research Article
Year 2018,
Volume: 6 Issue: 2, 294 - 300, 23.06.2018
Abstract
İklimin ana elemanlarını
oluşturan meteorolojik parametrelerden sıcaklık ve yağış verileri küresel iklim
karakterinin ortaya konulmasında büyük öneme sahiptir. Bu parametreler hem
bölgesel hem de zamana bağlı olarak büyük değişimlere sahiptir. Çalışma alanı
olarak belirlenen Doğu Anadolu Bölgesinde yer alan Ağrı, Ardahan, Bingöl,
Bitlis, Elazığ, Erzincan, Erzurum, Hakkari, Iğdır, Kars, Malatya, Muş, Tunceli
ve Van illeri için sıcaklık ve yağış trend analizi yapılmıştır. Analizler
Mann-Kendall testleri ile araştırılmış elde edilen sonuçlar tablolar halinde
özetlenmiştir.
Keywords
References
- Bacanli, U. (2017). Trend analysis of precipitation and drought in the Aegean region, Turkey. Meteorological Applications, 24(2), 239-249.
- Bahadır, M. (2011). Güneydoğu Anadolu Proje (GAP) Alanında Sıcaklık ve Yağış Trend Analizi. Uluslar Arası Sosyal Araştırmalar Dergisi, 4, 46-59.
- Bahadır, M., & Özdemir, M. A. (2011). Trabzon ve Rize’de Yağışın Mevsimsel Değişimlerinin Marginal ve Matrix Yöntemleri ile Belirlenmesi ve Trend Analizleri. Uluslararası Sosyal Araştırmalar Dergisi, 4(17), 457-473.
- Baria, S., Rahman, M., Hoqueb, M., & Hussain, M. (2016). Analysis of seasonal and annual rainfall trends in the northern region of Bangladesh. Atmospheric Research, 176-177, 148-158.
- Bustins, J., Vide, J., & Lorenzo, A. (2008). Iberia winter rainfall trends based upon changes in teleconnection and. Global and Planetary Change, 63, 171-176.
- Cannarozzo, M., Noto, L., & Viola, F. (2006). Spatial distribution of rainfall trends in Sicily (1921–2000). Physics and Chemistry of the Earth , 31, 1201–1211.
- Carvalhoa, J., Assad, E., Oliveiraa, A., & Pinto, H. (2014). Annual maximum daily rainfall trends in the Midwest, southeast and southern Brazil in the last 71 years. Weather and Climate Extremes, 5(6), 7-15.
- Casaa, A., & Nasello, O. (2010). Breakpoints in annual rainfall trends in Córdoba, Argentina. Atmospheric Research, 95, 419-427.
- Gocic, M., & Trajkovic, S. (2013). Analysis of changes in meteorological variables using Mann-Kendall and Sen's slope estimator statistical tests in Serbia. Global and Planetary Change, 100, 172-182.
- Goenstera, S., Wiehlea, M., Gebauerb, J., Mohamed Alic, A., Stern, R., & Buerkert, A. (2015). Daily rainfall data to identify trends in rainfall amount and rainfall-induced agricultural events in the Nuba Mountains of Sudan. Journal of Arid Environments, 122, 16-26.
- Gregory, G. (1956). Regional variations in the trends of annual rainfall over the British Isles. Georgr. J., 122, 346-353.
- Kamruzzamana, M., Beechama, S., & Metcalfe, A. (2016). Estimation of trends in rainfall extremes with mixed effects models. Atmospheric Research, 168, 24-32.Kendall, M. (1975). Rank Correlation Methods. London: Charles Griffin.
- Keskin, M., Aksoy, Y., Aksoy, A., & Yılamzkoç, B. (2017). Göl Seviye Tahmini : Eğirdir Gölü. Journal of Engineering Sciences and Design, 5(3), 601-608.
- Kumar, S., Merwade, V., Kam, J., & Thurner, K. (2009). Streamflow trends in Indiana: Effects of long term persistence, precipitation and subsurface drains. Journal of Hydrology, 374, 171–183.
- Mann, H. (1945). Non-parametric test against trend. Econometrika, 13, 245-259.
- Partal, T., & Kahya, E. (2006). Trend analysis in Turkish precipitation data. Hydrological Proceses, 20, 2011-2026.
- Seo, L., Kim, T., & Kwon, H. (2012). Investigation of Trend Variations in Annual Maximum Rainfalls in South Korea. KSCE Journal of Civil Engineering, 16(2), 215-221.
- Şen, Z. (2012). Innovative trend analysis methodology. Journal of Hydrologic Engineering, 17(9), 1042-1046.
- Yue, S., Pilon, P., & Cavadias, G. (2002). Power of the Mann Kendall and series. J. Hydro, 259, 254-271.
Year 2018,
Volume: 6 Issue: 2, 294 - 300, 23.06.2018
Abstract
Two basic parameters of climatic are air temperature
and precipitation. These parameters are very important to global climatic
characteristics. These parameters also change depend on spatial and time. Eastern Anatolia Region was
selected for studying area. Trend analysis for temperature and precipitation
was done for existing cities such as Ağrı, Ardahan, Bingöl,
Bitlis, Elazığ, Erzincan, Erzurum, Hakkari, Iğdır, Kars, Malatya, Muş, Tunceli,
Van. Results of analysis were given as Tables
References
- Bacanli, U. (2017). Trend analysis of precipitation and drought in the Aegean region, Turkey. Meteorological Applications, 24(2), 239-249.
- Bahadır, M. (2011). Güneydoğu Anadolu Proje (GAP) Alanında Sıcaklık ve Yağış Trend Analizi. Uluslar Arası Sosyal Araştırmalar Dergisi, 4, 46-59.
- Bahadır, M., & Özdemir, M. A. (2011). Trabzon ve Rize’de Yağışın Mevsimsel Değişimlerinin Marginal ve Matrix Yöntemleri ile Belirlenmesi ve Trend Analizleri. Uluslararası Sosyal Araştırmalar Dergisi, 4(17), 457-473.
- Baria, S., Rahman, M., Hoqueb, M., & Hussain, M. (2016). Analysis of seasonal and annual rainfall trends in the northern region of Bangladesh. Atmospheric Research, 176-177, 148-158.
- Bustins, J., Vide, J., & Lorenzo, A. (2008). Iberia winter rainfall trends based upon changes in teleconnection and. Global and Planetary Change, 63, 171-176.
- Cannarozzo, M., Noto, L., & Viola, F. (2006). Spatial distribution of rainfall trends in Sicily (1921–2000). Physics and Chemistry of the Earth , 31, 1201–1211.
- Carvalhoa, J., Assad, E., Oliveiraa, A., & Pinto, H. (2014). Annual maximum daily rainfall trends in the Midwest, southeast and southern Brazil in the last 71 years. Weather and Climate Extremes, 5(6), 7-15.
- Casaa, A., & Nasello, O. (2010). Breakpoints in annual rainfall trends in Córdoba, Argentina. Atmospheric Research, 95, 419-427.
- Gocic, M., & Trajkovic, S. (2013). Analysis of changes in meteorological variables using Mann-Kendall and Sen's slope estimator statistical tests in Serbia. Global and Planetary Change, 100, 172-182.
- Goenstera, S., Wiehlea, M., Gebauerb, J., Mohamed Alic, A., Stern, R., & Buerkert, A. (2015). Daily rainfall data to identify trends in rainfall amount and rainfall-induced agricultural events in the Nuba Mountains of Sudan. Journal of Arid Environments, 122, 16-26.
- Gregory, G. (1956). Regional variations in the trends of annual rainfall over the British Isles. Georgr. J., 122, 346-353.
- Kamruzzamana, M., Beechama, S., & Metcalfe, A. (2016). Estimation of trends in rainfall extremes with mixed effects models. Atmospheric Research, 168, 24-32.Kendall, M. (1975). Rank Correlation Methods. London: Charles Griffin.
- Keskin, M., Aksoy, Y., Aksoy, A., & Yılamzkoç, B. (2017). Göl Seviye Tahmini : Eğirdir Gölü. Journal of Engineering Sciences and Design, 5(3), 601-608.
- Kumar, S., Merwade, V., Kam, J., & Thurner, K. (2009). Streamflow trends in Indiana: Effects of long term persistence, precipitation and subsurface drains. Journal of Hydrology, 374, 171–183.
- Mann, H. (1945). Non-parametric test against trend. Econometrika, 13, 245-259.
- Partal, T., & Kahya, E. (2006). Trend analysis in Turkish precipitation data. Hydrological Proceses, 20, 2011-2026.
- Seo, L., Kim, T., & Kwon, H. (2012). Investigation of Trend Variations in Annual Maximum Rainfalls in South Korea. KSCE Journal of Civil Engineering, 16(2), 215-221.
- Şen, Z. (2012). Innovative trend analysis methodology. Journal of Hydrologic Engineering, 17(9), 1042-1046.
- Yue, S., Pilon, P., & Cavadias, G. (2002). Power of the Mann Kendall and series. J. Hydro, 259, 254-271.
There are 19 citations in total.
Details
| Primary Language | Turkish |
|---|---|
| Subjects | Civil Engineering |
| Journal Section | Research Articles |
| Authors | |
| Publication Date | June 23, 2018 |
| Submission Date | February 21, 2018 |
| Acceptance Date | May 17, 2018 |
| Published in Issue | Year 2018 Volume: 6 Issue: 2 |