Last updated: January 18, 2025
Ağcabǝdi, Azerbaijan, exhibits a Cfa Köppen-Geiger climate, characterized by hot summers and cool winters. The region experiences a marked temperature range, with January witnessing minimum temperatures plummeting to -6°C (21°F), and a striking maximum of 46°C (114°F) recorded in July, highlighting the intensity of the summer heat. The average annual temperature hovers around 17°C (64°F), providing a temperate backdrop to the diverse climate experienced throughout the year. This climatic variability contributes significantly to the local ecology and agricultural practices.
Ağcabǝdi, Azerbaijan, showcases distinct seasonal temperature patterns throughout the year. The winter months of January and February are moderately cold, with minimum temperatures reaching as low as -6°C (21°F) and average highs around 19°C (67°F). As spring approaches in March and April, temperatures begin to rise, peaking in April with averages of 16°C (60°F) and maximums soaring to 35°C (95°F). This warming trend continues into the summer months of June and July, where the climate becomes notably hot; July records an average of 31°C (89°F), with extremes hitting 46°C (114°F). August maintains these high temperatures before transitioning into the cooler months of September and October, where a gradual decline occurs. By November and December, the temperatures drop again, with averages around 11°C (52°F) and minimums between -1°C (30°F) and -4°C (26°F), heralding the return of winter. This cyclical temperature pattern highlights the region's transition from cold winters to sweltering summers and back, making it a unique climatic zone.
Avsar and Agdzhabedy experience similar extreme temperature ranges, with January lows plummeting to -6°C (21°F) and July highs soaring to 46°C (114°F). For detailed monthly temperatures in Avsar, visit monthly temperatures in Avsar, and to explore the climate specifics of Agdzhabedy, check out monthly temperatures in Agdzhabedy.
Precipitation in Ağcabǝdi, Azerbaijan, displays distinct seasonal fluctuations, with the winter months of January and February receiving the highest amounts, recording 22 mm (0.9 in) and 36 mm (1.4 in), respectively. The spring season, particularly March, sees further increases in rainfall, peaking at 49 mm (1.9 in), which supports the growth of local flora. However, April and May maintain relatively similar precipitation levels of 35 mm (1.4 in) and 33 mm (1.3 in), while the frequency of rainy days remains moderate, contributing to a fertile environment.
In contrast, summer marks a significant reduction in precipitation, with temperatures at their peak but rainfall diminishing to just 4 mm (0.2 in) in July and 5 mm (0.2 in) in August. This dry period is reflected in the absence of significant rainfall, as no measurable precipitation occurs on these months. As the autumn months approach, there is a gradual increase in rainfall, with October receiving 20 mm (0.8 in) and November 31 mm (1.2 in). Overall, Ağcabǝdi's precipitation patterns illustrate the region's transition from relatively wet winters and springs to drier summers, culminating in a return to moderate rainfall in the fall.
In Ağcabǝdi, Azerbaijan, sunshine duration exhibits a clear seasonal pattern, with a notable increase from winter to summer months. January begins the year with 198 hours of sunshine, gradually rising through February with 234 hours. The transition into spring sees a significant boost as March and April bring 297 hours and 318 hours, respectively. By May, the days become increasingly illuminated, reaching 383 hours, setting the stage for the sunniest period of the year.
Summer peaks in July with 402 hours of sunshine, closely followed by August, which collects 383 hours. This high solar availability provides ample energy for agricultural activities during the growing season. As the year progresses into autumn, sunshine hours decline, although September remains relatively bright with 320 hours. The diminishing daylight culminates in November and December, where sunshine durations drop to 228 hours and 213 hours, respectively, heralding the return of the winter gloom. This seasonal trend emphasizes the importance of sunlight patterns for both ecological and human activities in the region throughout the year.
The UV Index in Ağcabǝdi, Azerbaijan, illustrates a marked seasonal variation in ultraviolet radiation exposure, with notable highs during the summer months. Starting with a moderate UV Index of 3 in January and February, outdoor activities can be enjoyed with a safe burn time of 30 minutes. However, as spring approaches, the UV Index escalates sharply, peaking at 7 in March as the sun gains strength. By April and May, the index climbs to 8 and 9 respectively, indicating very high exposure levels, which necessitates increased sun protection measures and a significantly reduced burn time of just 15 minutes.
In the height of summer, the UV Index reaches its maximum of 10 in both June and July, demanding vigilant sun safety practices due to the potential for rapid skin damage under prolonged sun exposure. Even in August and September, the index remains high at 8, before tapering off in the fall. By October, it decreases to 5, returning to a moderate exposure category. The year concludes with lower indices of 3 in November and 2 in December, implying a reduced risk of sunburn with longer 45-minute burn times. This data serves as an essential guide for residents and visitors alike, emphasizing the importance of sun protection particularly during the peak summer months.
UV Risk Categories
Daylight duration in Ağcabǝdi, Azerbaijan, exhibits a clear seasonal pattern, reflecting the shifts in sunlight throughout the year. Starting with 9 hours of daylight in January, the days gradually lengthen as winter transitions into spring, reaching 10 hours in February and 11 hours in March. This increase continues into April with 13 hours and peaks at 14 hours in both May and June, providing ample time for outdoor activities and agricultural growth during these vibrant months.
The trend begins to reverse in late summer, with daylight gradually tapering off to 13 hours in August and down to 12 hours in September. By October, daylight shortens further to 11 hours, indicating the onset of autumn. As the year concludes, daylight descends back to 9 hours in both November and December, returning to the shorter days of winter. This cyclical daylight pattern profoundly influences the daily rhythm of life in Ağcabǝdi, informing both cultural practices and ecological systems throughout the seasons.
Agdzhabedy, Azerbaijan experiences a diverse climate with cold winters and hot summers. January temperatures range from a minimum of -6°C to a maximum of 19°C, while July sees highs of up to 46°C. Precipitation varies throughout the year, peaking in March at 49 mm, with significantly drier conditions during the summer months. The region enjoys abundant sunshine, particularly in July with 402 hours, ensuring a vibrant summer environment. For more detailed information, visit Agdzhabedy climate.
The climate in Avsar, Azerbaijan, features distinct seasonal variations, with hot summers and cold winters. January sees minimum temperatures around -6°C (21°F) and average highs reaching 19°C (67°F), while July can peak at a sweltering 46°C (114°F). Precipitation is most abundant in the spring months, with March recording 49 mm (1.9 in), while summer is relatively dry. Sunshine hours are plentiful, especially from May to July, with June boasting up to 397 hours of sunlight. For more details, visit Avsar climate.
In conclusion, the climatic and environmental patterns of Ağcabǝdi, Azerbaijan, reflect a dynamic interplay between temperature, precipitation, sunshine duration, UV index, and daylight hours throughout the year. The region experiences hot summers characterized by high temperatures and abundant sunlight, alongside cooler winters with moderate precipitation and shorter days. Understanding these seasonal trends is crucial for local agriculture, ecological balance, and public health, particularly regarding UV exposure and sun safety. As climate variability continues to impact weather patterns globally, awareness of these elements will remain vital for the residents and decision-makers in Ağcabǝdi to navigate the changing landscape effectively.