Last updated: January 18, 2025
Saldus Rajons, Latvia, exhibits a Dfb climate classification according to the Köppen-Geiger system, characterized by its continental characteristics. The region experiences a notable minimum temperature of -21°C (-5°F) during January, while summer temperatures can peak at an average maximum of 31°C (89°F) in June. An overall average temperature of 8°C (46°F) reflects the distinct seasonal variations synonymous with this climate, contributing to the area's unique ecological and agricultural dynamics.
In Saldus Rajons, Latvia, temperature patterns reveal a striking seasonal progression characterized by cold winters and warm summers. January and February showcase the depths of winter, with minimum temperatures frequently dipping below -20°C and average values hovering around -1°C to -2°C. As spring approaches in March and April, a gradual warming occurs, culminating in a marked increase in temperatures, with April averaging 6°C and reaching a maximum of 25°C. The arrival of summer, particularly in June and July, brings elevated temperatures, with June peaking at 31°C and consistent averages around 17-18°C. This warmth begins to recede in the fall, as September sees a return to milder conditions with average temperatures of 13°C, dipping again by November to 4°C. This cyclical temperature shift underscores the continental climate's distinct seasonal contrasts, significantly influencing the local ecosystem and agricultural practices.
Saldus and Broceni share similar temperature profiles, experiencing a minimum of -21°C (-5°F) in January and a maximum of 31°C (89°F) in June. For more details on the monthly temperatures, you can visit monthly temperatures in Saldus and monthly temperatures in Broceni.
Precipitation patterns in Saldus Rajons, Latvia, demonstrate a distinct seasonal rhythm, with annual rainfall distributed variably throughout the year. The winter months of January and February receive steady precipitation of 39 mm each, occurring over around 10 days. As the year progresses into spring, March sees a slight increase to 51 mm and an uptick in rainy days, followed by a decrease in April to 38 mm, indicating a transition towards drier conditions before the summer. The early summer months maintain relatively stable precipitation levels around 52 mm, with June averaging about 9 rainy days.
The summer months of July and August are the wettest in Saldus Rajons, where precipitation peaks at 90 mm and 96 mm, respectively, often attributed to thunderstorms common in warmer weather, which extend over approximately 14 rainy days. As autumn arrives, precipitation begins to decline but remains significant, with September receiving 66 mm and October 71 mm. November and December display a reduction in rainfall, with 55 mm and 46 mm, respectively, as the region transitions back into a colder climate. This overall precipitation profile highlights the importance of seasonal changes in shaping the local environment and influences on agriculture and water resources.
In Saldus Rajons, Latvia, sunshine duration reveals distinct seasonal trends, with a notable increase from the bleak winter months to the vibrant summer days. January sees a meager 90 hours of sunlight, which gradually rises to 178 hours in February and 263 hours in March. This transition marks the hopeful emergence of spring, further evidenced by a substantial jump in April to 357 hours. The onset of warmer months brings even more sunshine, with May boasting 444 hours, culminating in June, which averages an impressive 461 hours of sunshine—making it the peak month for sunlight in the region.
As summer transitions into autumn, sunshine hours begin to taper off, albeit at a slower pace. July maintains a robust 456 hours, followed by a decline in August to 392 hours, signaling the gradual shift toward shorter days. The trend continues into September with 312 hours, but the decrease becomes more pronounced in October, with only 230 hours of sunlight. By November, the lack of sunlight is palpable at just 137 hours, and December closes the year with a stark 88 hours. Overall, these fluctuations highlight the significant role seasonal changes play in determining sunshine duration in Saldus Rajons, creating a rhythm that profoundly impacts the local environment and daily life.
The UV Index in Saldus Rajons, Latvia, showcases a clear seasonal progression, reflecting changing sunlight intensity throughout the year. During the winter months of January and February, the UV Index remains low at 1 and 2, respectively, indicating minimal risk for sunburn with an ample burn time of 45 minutes. As spring approaches, the index rises to 3 in March, suggesting a moderate exposure level, and then significantly increases to 5 in April. This transition leads into May, where the index reaches 6, categorized as high, signifying a greater risk of skin damage and a reduced burn time of just 25 minutes.
In the heart of summer, June and July maintain a high UV Index of 7, underscoring the need for sun protection and limited outdoor exposure during peak hours; burn time remains at 25 minutes. As summer slowly yields to autumn, the index decreases to 6 in August and 4 in September, transitioning back to moderate levels. The months of October and November experience a further drop to 3 and 1 levels, respectively, returning to low exposure with a gradual burn time of 30 to 45 minutes. This analysis highlights the importance of adjusting sun safety practices throughout the year in alignment with the varying UV Index in Saldus Rajons.
UV Risk Categories
In Saldus Rajons, Latvia, daylight duration exhibits a pronounced seasonal fluctuation, reflecting the changing position of the sun throughout the year. January begins with a brief 7 hours of daylight, gradually increasing to 9 hours in February and 11 hours by March. As spring unfolds, April sees a significant leap to 14 hours, highlighting the lengthening days that lead into the lushness of summer. May continues this trend, offering about 16 hours of daylight, while June and July peak at 17 hours, providing ample opportunity for outdoor activities and fostering a vibrant natural landscape.
However, as summer transitions to autumn, daylight hours begin to decline. August experiences a slight decrease to 15 hours, followed by a further reduction in September to 12 hours. As the year progresses into October, daylight shortens to 10 hours, and by November, it diminishes to 8 hours. The shortest days occur in December, where daylight is reduced to a mere 6 hours. This cyclical pattern of daylight duration underscores the seasonal shifts in Saldus Rajons, significantly impacting daily life and ecological rhythms.
Broceni, Latvia, experiences a temperate continental climate with significant temperature fluctuations throughout the year. Winters are cold, with January averages around -1°C (30°F) and February reaching slightly warmer temperatures. The summer months of June and July bring average highs of 17°C (62°F) and 18°C (64°F) respectively, accompanied by the highest precipitation levels in July and August. Sunshine peaks in May with 444 hours, gradually decreasing into the winter months. For more details, visit Broceni climate.
Saldus, Latvia experiences a varied climate throughout the year, with cold winters and warm summers. January is the coldest month, with average temperatures around -1°C (30°F), while July peaks at an average of 18°C (64°F). Precipitation is highest in summer, particularly in July and August, averaging 90 mm (3.5 in) and 96 mm (3.8 in), respectively. The region enjoys significant sunshine from March to August, with May receiving the most at 444 hours. For more details, visit Saldus climate.
In conclusion, the climate of Saldus Rajons, Latvia, is marked by distinct seasonal variations that influence temperature, precipitation, sunshine duration, UV Index, and daylight hours. The region experiences cold winters with limited exposure to sunlight and a gradual transition to warmer, sunnier summers. The peak summer months offer both high temperatures and considerable daylight, encouraging outdoor activities and agricultural growth. As the seasons shift, the decline in daylight and UV levels in autumn and winter necessitates adaptive practices for health and lifestyle. Understanding these climatic patterns is essential for residents and visitors alike to navigate the environmental conditions and make informed decisions throughout the year.