Last updated: January 18, 2025
Karbinci, North Macedonia, is characterized by a Cfa climate classification, indicative of a humid subtropical climate. This region experiences a diverse temperature range, with a notable minimum of -22°C (-7°F) in January, illustrating the potential for extreme cold during winter months. Conversely, the summer season can reach scorching highs of 41°C (105°F) in July, contributing to an average annual temperature of 14°C (57°F). This climatic variability supports a unique ecosystem while presenting distinct challenges and opportunities for the local environment and agricultural practices.
In Karbinci, North Macedonia, temperatures exhibit distinct seasonal patterns throughout the year. Winter months, particularly January and February, witness the coldest temperatures, with January reaching a minimum of -22°C (-7°F) and averaging around 1°C (34°F). As spring arrives in March and April, the region begins to warm, characterized by a steady increase in average temperatures, peaking at 30°C (86°F) by late April. The transition into summer brings the hottest months, notably July and August, where highs can soar to 41°C (105°F) and 40°C (105°F) respectively, accompanied by warm nights. As autumn takes hold in September, temperatures gradually decrease, with September averaging 20°C (69°F) before dropping to more moderate conditions by November and December, signalling the arrival of winter once again. This cyclical temperature shift not only shapes the local climate but also influences the agricultural practices and lifestyle of its residents.
In Karbinci, temperatures exhibit a significant range throughout the year, with January experiencing a chilly minimum of -22°C (-7°F) and July soaring to a maximum of 41°C (105°F). This climate variation highlights the extremes faced in this region, making it imperative to prepare accordingly for both severe cold and intense heat. For more detailed information on the climate patterns, visit monthly temperatures in Karbinci.
Karbinci experiences a varied precipitation pattern throughout the year, with December typically recording the highest rainfall at 73 mm (2.9 in) across 8 days. The winter months of January and February also see substantial precipitation, though less than in December, averaging 59 mm (2.3 in) and 43 mm (1.7 in) respectively. As spring approaches, precipitation in March reaches 64 mm (2.5 in), indicating a trend of wet conditions, while April and May maintain similar levels at 48 mm (1.9 in), supporting the burgeoning vegetation during this season.
Summer months witness a noticeable decline in precipitation, with July and August experiencing the lowest totals at 22 mm (0.9 in) and 38 mm (1.5 in), respectively. This reduction, coupled with fewer rainfall days, promotes dry conditions during the summer, which is often accompanied by high temperatures. In contrast, autumn sees a gradual increase again, with October and November bringing back modest rainfall of 42 mm (1.7 in) and 49 mm (1.9 in), respectively. The overall precipitation pattern in Karbinci not only shapes the landscape but also has crucial implications for agriculture and local water resources throughout the year.
In Karbinci, North Macedonia, sunshine duration exhibits a pronounced seasonal trend, with notable increases as the year progresses. Beginning in the winter months, January records 183 hours of sunshine, which gradually rises to 236 hours in February. The trend continues upwards through early spring, with March and April enjoying 298 hours and 333 hours of sunshine, respectively. This steady increase in sunshine not only signals the change in season but also sparks the onset of growth in local flora as temperatures begin to rise.
Summer in Karbinci brings the highest sunshine duration, peaking in July with an impressive 426 hours of sunlight, followed closely by August at 399 hours. This abundance of sunlight during the warmest months enhances the region’s agricultural outputs and outdoor activities. As autumn arrives, sunshine hours begin to taper off, with 345 hours in September and dropping further to 297 hours in October. The decline continues into the winter months, where November and December see just 225 hours and 215 hours of sunshine, respectively. Overall, the clear cycle of sunshine duration in Karbinci highlights the importance of seasonal changes in influencing both the environment and the daily lives of its residents.
The UV Index in Karbinci, North Macedonia, demonstrates a clear seasonal pattern, illustrating the variation in sun exposure and associated risks throughout the year. In winter, both January and December feature low UV Index values of 2, allowing for longer safe exposure times of 45 minutes without significant risk of sunburn. As February rolls in, the Index rises to 4, marking a transition to moderate exposure, with recommended burn times reducing to 30 minutes. The arrival of spring brings even more considerable increases, reaching a high of 6 in March and 8 in April, where individuals need to be more vigilant, as burn times decrease significantly to just 15 minutes.
Summer months are characterized by exceptionally high UV Index ratings, peaking at 10 in both June and July, prompting extreme caution with a burn time of only 15 minutes. Although August experiences a slight dip to 9, the risks associated with UV exposure remain pronounced, necessitating protective measures during outdoor activities. As the season shifts to autumn, the UV Index gradually declines, returning to a 6 in October and then 4 in November, before closing the year back at a low of 2 in December. This cyclical trend emphasizes the importance of adapting sun safety practices throughout the year, particularly in the high summer months when the risk of UV damage is at its peak.
UV Risk Categories
In Karbinci, North Macedonia, daylight duration exhibits a clear seasonal trend, with significant fluctuations throughout the year. Starting in January, the region experiences about 9 hours of daylight, which gradually increases to 10 hours in February and 11 hours in March, marking the early signs of spring. As the days lengthen further into April and May, daylight spans 13 hours and 14 hours, respectively, providing ample time for outdoor activities and agricultural growth as the vibrant awakening of nature unfolds.
The peak of daylight duration occurs in June with approximately 15 hours of sunlight, offering an abundance of daylight during the height of summer. Following this peak, the duration begins to decrease, with July and August recording 14 and 13 hours of daylight, respectively. As autumn approaches, daylight dwindles further, falling to 12 hours in September and continuing to decline until it reaches back to 9 hours by November and December. This cyclical daylight pattern not only influences the daily rhythm of life in Karbinci but also underscores the importance of adapting lifestyles and activities in harmony with the changing seasons.
Karbinci, North Macedonia, experiences a continental climate with cold winters and hot summers. January sees temperatures ranging from -22°C to 14°C, while July peaks at scorching highs of 41°C. Precipitation is highest during the winter and early spring months, notably in December with 73 mm, while summers are relatively dry, especially in July with only 22 mm. The area enjoys significant sunshine, particularly during the warmer months, with July receiving around 426 hours of sunshine. For more detailed climate information, visit Karbinci climate.
In conclusion, the climate of Karbinci, North Macedonia, characterized by its variability in temperature, precipitation, sunshine duration, UV Index, and daylight hours, profoundly shapes both the local environment and the lifestyle of its residents. As the region transitions from the cold winter months to the warm embrace of summer, patterns of sunshine and UV exposure reflect the need for adaptive practices in agriculture and outdoor recreation. This cyclical nature of climate encourages a harmonious relationship between the community and its surroundings, ensuring residents are well-prepared to navigate the distinct challenges and opportunities presented by each season. Ultimately, understanding these climatic dynamics is essential for fostering sustainable practices and maintaining the well-being of the local population.