Last updated: January 18, 2025
İsmayıllı, Azerbaijan experiences a Dfa Köppen-Geiger climate classification, characterized by significant seasonal temperature variations. The region endures cold winters, with minimum temperatures plummeting to -14°C (7°F) in January. As the seasons transition, the average annual temperature stabilizes around 10°C (51°F), leading to warm summers that can reach a maximum of 35°C (95°F) in July. This climate framework plays a vital role in shaping the local ecosystem and agricultural practices, highlighting İsmayıllı's unique meteorological profile.
The temperature patterns in İsmayıllı, Azerbaijan, reveal a clear seasonal progression marked by significant fluctuations. Winter months are characterized by frigid conditions, with January and February experiencing minimum temperatures as low as -14°C (7°F) and -14°C (8°F), respectively. As spring unfolds, temperatures gradually rise, with March and April recording average temperatures climbing from 3°C (38°F) to 8°C (48°F), and maximums nearing 25°C (77°F). The onset of summer brings a pronounced warmth, highlighted by July's peak average of 23°C (73°F) and maximum of 35°C (95°F). Transitioning into autumn, temperatures begin to dip again, with September reflecting an average of 17°C (63°F) and gradually declining through October and November, where minimum temperatures drop to -9°C (16°F). This cyclical climate pattern in İsmayıllı not only shapes the local environment but also influences agricultural activities throughout the year.
Ismayilli experiences a temperature range from a minimum of -13°C (9°F) in February to a maximum of 35°C (95°F) in July monthly temperatures in Ismayilli. Similarly, Lahic has a minimum of -14°C (7°F) in January and peaks at 34°C (94°F) in July monthly temperatures in Lahic. Basqal mirrors Lahic's climate with a minimum of -14°C (7°F) in January and a maximum of 34°C (94°F) during July monthly temperatures in Basqal.
İsmayıllı, Azerbaijan experiences a variable precipitation pattern throughout the year, with the wettest months typically occurring in spring. March and April stand out, with rainfall measuring 74 mm (2.9 in) and 81 mm (3.2 in), respectively, and an increase in the number of rainy days, peaking at 12 days in April. The transition from winter to spring shows a significant rise in precipitation, beginning with 32 mm (1.3 in) in January and gradually escalating to the spring peak, reflecting the seasonal shift and the region's reliance on this moisture for agricultural productivity.
As summer arrives, precipitation levels taper off, with July and August seeing considerably lower averages of 33 mm (1.3 in) and 31 mm (1.2 in), accompanied by fewer rainy days. The trend shifts again in autumn, as September brings a resurgence of rainfall at 50 mm (2.0 in), followed by consistent precipitation through October and November, with averages of 62 mm (2.4 in) and 61 mm (2.4 in), respectively. This rainfall variance plays a crucial role in determining the local ecosystem's health and farming cycles, marking İsmayıllı as a region of notable hydrological shifts across the calendar.
In İsmayıllı, Azerbaijan, sunshine duration exhibits a distinct seasonal trend, transitioning from the stark low of 201 hours in January to a summer peak of 406 hours in July. The early months of the year show a gradual increase in sunlight, with February and March receiving 251 hours and 306 hours, respectively. This upward trend continues, reaching 326 hours in April and 385 hours in May, as the region shakes off winter's chill and welcomes the brightness of spring, making these months critical for agricultural preparation and growth.
As summer progresses, the sun shines its longest in July, and while August remains bright with 385 hours, the gradual decline begins in September with 324 hours. The autumn months see a noticeable decrease in sunshine, with October, November, and December recording 279 hours, 238 hours, and 233 hours, respectively. This pattern underscores the importance of summer sunlight for local ecosystems and agriculture, while the shorter daylight hours in winter highlight a period of dormancy in the region's flora and fauna. Overall, İsmayıllı's sunshine duration illustrates a vibrant cycle that significantly influences both the climate and the livelihoods of those who call this area home.
The UV Index in İsmayıllı, Azerbaijan, reflects significant seasonal variations, emphasizing the need for sun protection, especially during the warmer months. The year begins with a moderate UV Index of 3 in January and December, gradually increasing to 4 in February and remaining steady in the early spring months. However, March and April witness a sharp rise to 8, indicating very high UV levels, necessitating caution during outdoor activities. As spring transitions into summer, the UV Index peaks at 10 in May and June, maintaining very high levels before reaching an extreme measurement of 11 in July, where the burn time is notably reduced to just 10 minutes.
As summer wanes, the UV Index begins to decline, with August recorded at 9 and September returning to 8. October marks a further decrease to 6, categorized as high exposure, with a burn time extending to 25 minutes. In November, the Index returns to 4, and once again, in December, it stabilizes at 3. This seasonal fluctuation highlights not only the heightened risk of UV exposure during mid-year but also serves as a reminder for residents and visitors to adopt appropriate sun safety measures throughout the year to mitigate harmful effects on health.
UV Risk Categories
In İsmayıllı, Azerbaijan, daylight duration showcases a dynamic seasonal pattern that directly influences daily activities and natural cycles throughout the year. Beginning with 9 hours of daylight in January, the days gradually lengthen, reaching 10 hours in February and 11 hours in March as winter progresses into spring. This trend accelerates significantly, with daylight extending to 13 hours in April and peaking at 15 hours in June, reflecting the region's transition into the vibrant days of summer.
As summer draws to a close, daylight hours start to recede, with July witnessing 14 hours before tapering to 13 hours in August. The autumn months see further reductions, as September's 12 hours yield to November's return to 9 hours of daylight. December follows suit, also returning to 9 hours. This cyclical daylight pattern is essential not only for coordinating human activities but also for regulating the growth and behaviors of local ecosystems, emphasizing the importance of seasonal changes in İsmayıllı's climate.
The climate in Basqal, Azerbaijan, features cold winters and warm summers, with January temperatures ranging from -14°C to 11°C (7°F to 52°F) and July temperatures reaching up to 34°C (94°F). Precipitation is highest in April at 79 mm (3.1 in), while summer months see reduced rainfall, notably in July with 35 mm (1.4 in). Sunshine hours peak in July with 406 hours, offering ample daylight during the warmer months. For more detailed information, visit Basqal climate.
The climate in Ismayilli, Azerbaijan, is characterized by cold winters and warm summers. January temperatures can drop as low as -12°C (10°F), while July sees highs around 35°C (95°F). Precipitation is highest in spring, peaking in April with 86 mm (3.4 in) of rainfall, and sunshine hours are abundant in summer, with July receiving 406 hours of sunlight. This region experiences a notable seasonal variation, making it distinct for both winter sports and summer activities. For more detailed information, visit Ismayilli climate.
Lahic, Azerbaijan experiences a diverse climate, with temperatures ranging from a frigid -14°C (7°F) in January to warm highs of 34°C (94°F) in July. The area receives varying precipitation throughout the year, peaking with 79 mm (3.1 in) in April, while summer months remain relatively drier. Sunshine hours are abundant, particularly during the summer, with July boasting the highest at 406 hours. For more detailed information on the climate in Lahic, visit Lahic climate.
In conclusion, İsmayıllı, Azerbaijan, exhibits a unique climatic profile characterized by distinct seasonal variations in temperature, precipitation, sunshine duration, UV Index, and daylight hours. The transition from cold winters to warm summers influences both the local environment and agricultural practices, while significant changes in sunshine and daylight highlight the importance of sun exposure throughout the year. Understanding these patterns is essential for residents and visitors alike, as they navigate both the opportunities and challenges presented by this diverse climate. Emphasizing sun safety measures during peak UV periods and leveraging the longer daylight hours in summer can enhance quality of life and promote sustainable practices in this beautiful region.