Last updated: January 18, 2025
The climate of Batman, Turkey, is classified under the Köppen-Geiger system as Csa, characterized by hot-summer Mediterranean conditions. Temperature extremes fluctuate significantly throughout the year, with a minimum of -20°C (-4°F) recorded in February, juxtaposed against soaring summer highs that can reach up to 44°C (112°F) in July. The annual average temperature hovers around a comfortable 17°C (63°F), reflecting the region's diverse climatic attributes and underscoring the distinct seasonal variations experienced in this intriguing part of Turkey.
In Batman, Turkey, temperature patterns reveal a clear seasonal transition, with the winters characterized by significantly low temperatures, as evidenced by January's minimum of -17°C (3°F) and February's plunge to -20°C (-4°F). As spring approaches, temperatures gradually rise, with March seeing a notable increase, peaking at a maximum of 25°C (77°F) by the end of the month. The region experiences its warmest months in June through August, where maximum temperatures consistently reach up to 44°C (112°F), highlighting a stark contrast to the winter chill. As autumn arrives, a cooling trend resumes; October’s comfortable averages give way to November's drop, culminating in December’s return to colder temperatures. This cycle underscores the significant thermal variations across Batman's annual climate.
Hasankeyf and Karakoy experience similar climatic conditions, with January temperatures dropping to a minimum of -14°C (7°F) and soaring to a maximum of 43°C (110°F) in July. For more detailed monthly temperatures, visit monthly temperatures in Hasankeyf and monthly temperatures in Karakoy.
Batman, Turkey, experiences a distinctive precipitation pattern that is closely tied to the seasonal cycles. The wettest months occur in late winter and early spring, with March receiving the highest rainfall at 149 mm (5.9 in) over about 14 days, followed by April with 121 mm (4.8 in) across 12 days. December also contributes to the winter precipitation with 110 mm (4.3 in) over 12 days, while January and February maintain comparatively high levels of rainfall at 94 mm (3.7 in) and 79 mm (3.1 in), respectively, both occurring over approximately 10 days.
In stark contrast, the summer months are characterized by minimal precipitation, with June receiving only 5 mm (0.2 in) over a single day and July and August recording exceptionally low totals of just 1 mm (0.0 in) and 2 mm (0.1 in), respectively, resulting in virtually no rainy days. The transitional months of October and November see a moderate return of rainfall, with October bringing in 36 mm (1.4 in) over 3 days and November 66 mm (2.6 in) over 8 days. This fluctuation in precipitation showcases Batman's Mediterranean climate, characterized by wet winters and dry, hot summers.
In Batman, Turkey, sunshine duration exhibits a clear seasonal trend, with hours of sunlight steadily increasing from winter to summer. Starting the year with a low of 189 hours in January, the region gradually brightens as spring approaches, hitting 294 hours in March and reaching 334 hours in April. May marks a significant shift, as daylight hours soar to 394, paving the way for the sun-soaked months ahead. This upward trajectory continues through June and July, where sunshine peaks at an impressive 421 hours, providing an abundance of daylight that characterizes the height of summer.
As summer transitions into autumn, the sunshine duration begins to decline, although it remains substantial. August retains a considerable 396 hours, before it drops to 350 hours in September and further to 309 hours in October. The decline continues into the colder months, with November and December reflecting shorter days at 261 and 223 hours respectively. This cyclical variation highlights Batman's Mediterranean climate, showcasing vibrant summers rich in sunlight, contrasted with the shorter, cloudier days of winter, ultimately shaping the region's agricultural patterns and outdoor lifestyle.
In Batman, Turkey, the UV Index demonstrates a pronounced seasonal variation, with levels peaking during the summer months and plummeting in winter. In January, the UV Index is relatively mild at 4, classified as moderate, allowing for about 30 minutes of safe sun exposure. As spring arrives, UV levels rise sharply, with March soaring to a very high index of 10 and April following closely at 9. By May and June, the situation intensifies, with UV indices reaching extreme levels of 11 and 12, demanding attention and caution for sun exposure limited to just 10 minutes.
As summer progresses, July maintains the extreme UV Index of 12 before slightly declining in August to 10, while remaining in the very high exposure category. The subsequent months of September and October reflect a continued decrease, with indices of 9 and 7, respectively, indicating a shift toward safer sun exposure levels. As winter reestablishes itself, the UV Index drops back to moderate levels, with November at 4 and December at 3, allowing for a longer burn time of 30 minutes. This fluctuation in UV Index throughout the year underscores the importance of sun protection during the high exposure months, especially in the summer.
UV Risk Categories
In Batman, Turkey, daylight duration exhibits a clear seasonal cycle, with noticeable fluctuations that reflect the transition from winter to summer. Beginning in January, the region experiences only 9 hours of daylight, a pattern that gradually increases to 10 hours in February and 11 hours in March. As spring unfolds, daylight lengthens significantly, peaking at 14 hours by May and remaining consistent through June and July. This abundance of sunlight during the summer months not only enhances outdoor activities but also supports agricultural growth in the region.
As summer wanes and autumn approaches, daylight begins to shorten, with August seeing a slight decline to 13 hours. The trend continues into September, October, and November, where daylight hours decrease to 12, 11, and 10 hours, respectively. By December, daylight returns to the winter low of 9 hours. This cyclical change in daylight duration not only influences daily life in Batman but also emphasizes the region's distinctive climatic characteristics, marking the interplay between seasons and sunlight throughout the year.
Hasankeyf, Turkey experiences a significant temperature variation throughout the year, with January temperatures ranging from -14°C (7°F) to 16°C (62°F) and peaks in July and August reaching up to 43°C (110°F). The region sees substantial rainfall primarily in the winter and early spring months, with March being the wettest at 151 mm (6.0 in), while summer months are notably dry. Sunshine hours are abundant, peaking in July with 419 hours, contributing to the region's warm climate. For more detailed information, visit Hasankeyf climate.
Karakoy, Turkey experiences a diverse climate with cold winters and hot summers. January and February see temperatures ranging from -14°C to 19°C (7°F to 67°F) and high precipitation, while summer months like July and August boast maximum temperatures up to 43°C (110°F) with minimal rainfall. Precipitation peaks in March at 151 mm (6.0 in), decreasing significantly in summer. The region enjoys abundant sunshine, with July receiving the most hours at 419. For more detailed information, visit Karakoy climate.
In conclusion, the climate of Batman, Turkey, is marked by pronounced seasonal variations that profoundly influence its temperature, precipitation, sunshine duration, UV Index, and daylight hours. The region experiences cold winters with significant snowfall and warm summers characterized by high temperatures, ample sunshine, and extreme UV levels. The rainfall, primarily concentrated in the winter and spring months, supports the vibrant agricultural landscape of the area. Conversely, the peak sunlight hours during the summer months facilitate outdoor activities and contribute to local lifestyles. This interplay of climatic factors not only underscores the unique environmental characteristics of Batman but also highlights the importance of seasonal adaptations for both its residents and the ecosystems within the region.