Evaluation of spatial and temporal relationships between large‐scale atmospheric oscillations and meteorological drought indexes in Turkey

Tosunoğlu, Fatih; Can, İbrahim; Kahya, Ercan

doi:10.1002/joc.5698

Cited by 25 publications

(10 citation statements)

References 69 publications

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“…Association between oscillation indices and the AIMF series of station 2122, 2164 and 2149 were generally weak and insignificant, suggesting these oscillations are not mainly responsible for the variability in the annual maximum flood process. Only for station 2154, the NAO showed significant correlation with the AIMF series, confirming previous findings that the NAOI generally shows a weak relationship with Turkish hydro‐meteorological data in southeastern Turkey (Tosunoglu et al, 2018). The physical covariates were included in the fitting of GAMLSS models (as well as time) at the selected stations as shown in Table 5.…”

Section: Resultssupporting

confidence: 88%

“…The corresponding indicators for these atmospheric oscillations were obtained for the study period from the Climate Prediction Center (http://www.cpc.ncep.noaa.gov/). Detailed information of these oscillations and their indicators can be found in (Baltaci, Akkoyunlu, & Tayanc, 2018; Mellado‐Cano, Barriopedro, Garcia‐Herrera, Trigo, & Hernandez, 2019; Tosunoglu, Can, & Kahya, 2018).…”

Section: Resultsmentioning

confidence: 99%

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Decreasing flood hazard evaluated in Turkey using nonstationary models

Tosunoğlu

Slater

2022

River Research & Apps

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An assessment of changing flood hazard in the river basins of Turkey is currently lacking. This study evaluates the drivers of flood flows using distributional regression models. The generalized additive models for location, scale, and shape (GAMLSS), a flexible framework well‐suited to probabilistic nonstationary modeling, is applied to annual instantaneous maximum flows (AIMF) from 12 gauging stations located in the upper, middle and lower parts of the Euphrates basin, the most important river basin in the Middle East. First, the Pettitt test was used to detect abrupt changes in the AIMF data series, and the Mann–Kendall test to evaluate temporal trends. Significant change points for two stations and significant decreasing temporal changes for seven stations were observed. Three strictly positive, continuous distributions (namely, Gamma, Lognormal, and Weibull) were then fitted to the AIMF data series and the distribution parameters were specified as functions of both time and physically based covariates (precipitation, temperature, and climate oscillation indices). Among the candidate distributions, the Lognormal was found to be the most appropriate for describing flood flows across the basin. Annual precipitation, seasonal temperature and annual oscillation indices were the most relevant covariates. Among the climate indices, the East Atlantic Oscillation was most relevant in the lower part of the basin, the Southern and North Atlantic Oscillations in the middle, and the East Atlantic‐West Russia pattern in the upper part. The models were then employed to estimate and compare historical stationary flood quantiles with nonstationary quantiles (identified with physically based covariates) under various return periods (10, 20, 50, 100, and 200 years). Results indicate that flood processes can be better described by employing distributional regression models with physical covariates and this study can serve as a reference for regional water resources management in the basin and possibly for other river basins.

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Section: Resultssupporting

confidence: 88%

Section: Resultsmentioning

confidence: 99%

Decreasing flood hazard evaluated in Turkey using nonstationary models

Tosunoğlu

Slater

2022

River Research & Apps

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“…To date, a large number of studies have been conducted indicating appropriate drought indices for different case study regions (e.g. Jiang et al 2015, Meresa et al 2016, Hesami Afsar 2016, Rhee and Yang 2018, Tosunoglu et al 2018, Myronidis et al 2018). If one looks at the index referred to as 'integrated surface drought index' (Wu et al 2013), the data inputs for model construction are grouped under three main categories, namely:…”

Section: Introductionmentioning

confidence: 99%

Climate change impacts on meteorological drought using SPI and SPEI: case study of Ankara, Turkey

Mehr

Şorman

Kahya

et al. 2019

Hydrological Sciences Journal

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126

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Using regionally downscaled and adjusted outputs of three global climate models (GCMs), meteorological drought analysis was accomplished across Ankara, the capital city of Turkey. To this end, standardized precipitation index (SPI) and standardized precipitation evapotranspiration index (SPEI) were projected under (representative concentration pathway) RCP4.5 and RCP8.5 greenhouse gas scenarios. In general, our results show that Ankara experienced six severe and two extreme drought events during the reference period, 1971-2000. However, the projections indicate fewer drought events for the near future period of 2016-2040, with no potential extreme drought events. While the RCP4.5 scenario showed that dry spells will be dominant in the second half of the near future period, the RCP8.5 scenario projected that dry spells will be evenly distributed during the entire near future period.

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“…Q(t-1), Q(t-2) and Q(t-3)). To guarantee the final quality of the streamflow series, we checked the homogeneity of the data series using the standard normal homogeneity test (SNHT) and Pettitt tests, which are the commonly used statistical method for evaluation change point (abrupt changes) in the hydro-meteorological data series (Tosunoglu et al, 2018). These homogeneity analyses were performed on the annual mean streamflow data.…”

Section: Location and Datamentioning

confidence: 99%

Monthly Streamflow Forecasting Using Machine Learning

Tosunoğlu

Hanay

Çintaş

et al. 2020

Erzincan Üniversitesi Fen Bilimleri Enstitüsü Dergisi

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Streamflow forecasting holds a vital role in planning, design, and management of basin water resources. Accurate streamflow forecast provides a more efficient design of water resources systems technically and economically. In this study, various machine learning algorithms were evaluated to model monthly streamflow data in the Coruh river basin, Turkey. The dataset contains the mean monthly streamflow between 1963 and 2011. For the machine learning model, Support Vector Machines (SVM), Adaptive Boosting (AdaBoost), K-Nearest Neighbours (KNN) and Random Forest algorithms were considered and compared. Based on the test scores of the considered models with the hyperparameters, Random Forest based model outperforms all other models.

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Evaluation of spatial and temporal relationships between large‐scale atmospheric oscillations and meteorological drought indexes in Turkey

Cited by 25 publications

References 69 publications

Decreasing flood hazard evaluated in Turkey using nonstationary models

Decreasing flood hazard evaluated in Turkey using nonstationary models

Climate change impacts on meteorological drought using SPI and SPEI: case study of Ankara, Turkey

Monthly Streamflow Forecasting Using Machine Learning

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