Abstract
Studies associated with climate change and variability are of great importance at both the global and local scale in the global climate crisis. In this study, change-point detection and trend analysis were carried out on mean, maximum, minimum air temperatures and total precipitation based on monthly, seasonal and annual scale in Bartın province located in the western Black Sea Region of Turkey. For this aim, 4-different homogenei-ty tests (von Neumann test, Pettitt test, Buishand range test and standard normal homogeneity test) for change-point detection, Modified Mann–Kendall test and Şen’s innovative trend test for trend analysis, and Sen’s slope test for the magnitude estimation of trends were used. According to the test results, the summer temperatures in particular show increasing trends at the 0.001 significance level. Mean maximum temperature in August, mean minimum temperature in June and August, and mean temperature in July and August are in increasing trend at the 0.001 significance level. Over a 51 year period (1965–2015) in Bartın province, the highest rate of change per decade in air temperatures is in August (0.55°C for Tmax, 0.46°C for Tmin and 0.43°C for Tmean) based on Sen’s slope. However, the study showed that apart from October precipitation, there is no significant trend in monthly, seasonal and annual precipitation in Bartın. Increasing trends in mentioned climate variables are also visually very clear and strong in Şen’s innovative trend method, and they comply with the statistical results. As a result, the study revealed some evidence that temperatures will increase in the future in Bartın and its environs.
Highlights
Based on IPCC’s reports (IPCC 2014, IPCC 2018), we know that global climate change is a reality
Balov & Altunkaynak (2019) studied extreme precipitation indices based on outputs of global circulation models in the western Black Sea region, including Bartın province
Ay (2020) carried out homogeneity and trend tests on the time series of monthly mean temperature and monthly total precipitation recorded in Düzce, Bolu, Zonguldak, Bartın, Kastamonu and Sinop provinces in the western Black Sea region of Turkey
Summary
Based on IPCC’s reports (IPCC 2014, IPCC 2018), we know that global climate change is a reality. The different climate variables of Bartın province have been investigated from various perspectives at both the regional and local scale (Ertuğrul et al 2014, Turoğlu 2014, Bolat et al 2018, Şensoy & Ateşoğlu 2018, Yozgatlıgil & Türkeş 2018, Balov & Altunkaynak 2019, Ay 2020, Cengiz et al 2020, Sönmez & Kale 2020, Yaman et al 2020). Based on the arithmetic averages for the periods 1980–1999 and 2000– 2015 without a statistical significance test, Bolat et al (2018) investigated the temperature (minimum, maximum and mean) and precipitation (maximum and total) values in Bartın province. Balov & Altunkaynak (2019) studied extreme precipitation indices based on outputs of global circulation models in the western Black Sea region, including Bartın province. Cengiz et al (2020) researched historical precipitation change using both graphical and statistical methods in the provinces of the Black
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