Last updated: January 18, 2025
Qalyubia, Egypt, is characterized by a BWh (arid) Koppen-Geiger climate, indicative of its warm and dry conditions. The temperature profile reveals a notable range, with minimums dipping to 4°C (39°F) in January, showcasing the cooler winter months. In contrast, summer peaks see temperatures soar to an impressive 46°C (115°F) in May, contributing to the region’s overall average of 23°C (74°F). These climatic extremes underscore the need for adaptive strategies in agriculture, water management, and urban planning within this dynamic environment.
In Qalyubia, Egypt, temperature patterns exhibit distinct seasonal trends that reflect the region's arid climate. The year begins with cooler winter months, as January and February showcase minimum temperatures around 4-5°C (39-42°F) and rising averages up to 16°C (60°F). As spring approaches, temperatures gradually increase, with March seeing a notable jump to maximums of 37°C (99°F). The peak of summer arrives in May and June, where extreme highs reach 46°C (115°F) and 42°C (108°F) respectively, while average temperatures hover around 27-29°C (80-84°F). The transition to autumn brings a gradual cooling, with September experiencing maximums of 39°C (103°F), followed by a more moderate October, where highs drop to 38°C (100°F). By December, temperatures begin to cool again, reflecting a return to the milder conditions akin to the start of the year, underscoring the dramatic temperature fluctuations that define Qalyubia's climate throughout the seasons.
Banha, Tukh, and Al Qanatir al Khayriyah experience similar temperature ranges, with minimums of 4°C (39°F) to 4°C (40°F) in January and maximums reaching 46°C (115°F) in May. For detailed monthly temperatures in Banha, visit monthly temperatures in Banha, for Tukh refer to monthly temperatures in Tukh, and for Al Qanatir al Khayriyah check monthly temperatures in Al Qanatir al Khayriyah.
Precipitation in Qalyubia, Egypt, is characterized by its minimal and irregular nature, predominantly occurring in the winter months. January marks the beginning of the year with a scant 3 mm (0.1 in) of rain, while February and March experience slightly higher levels of 9 mm (0.4 in) and 14 mm (0.5 in), respectively. Interestingly, March is the only month with measurable rainfall more than once, typically recording 1 rainy day. Following this brief wet period, April sees a sharp decline with only 2 mm (0.1 in) of precipitation, and by May and the subsequent summer months, rainfall virtually ceases, remaining at 0 mm (0.0 in) through to September.
As the year progresses into autumn and winter, October brings a slight respite with 5 mm (0.2 in) of rain across 1 day, followed by November and December, which see 2 mm (0.1 in) and 4 mm (0.2 in) of precipitation, respectively, with each month also registering a single wet day. This pattern of sporadic rainfall highlights Qalyubia's arid climate, where the total annual precipitation remains remarkably low, averaging around 33 mm (1.3 in), emphasizing the region's need for effective water management and resource allocation strategies.
In Qalyubia, Egypt, sunshine duration exhibits a clear seasonal progression, with hours of sunlight increasing steadily from the winter months to the peak of summer. January begins the year with 235 hours of sunshine, and as February rolls in, this number grows modestly to 276 hours. The trend accelerates in March and April, with sunshine hours reaching 336 and 352 hours, respectively. This upward trajectory culminates in the summer months, where June, July, and August bask in an impressive 391, 404, and 384 hours of bright sunshine, making these the sunniest months of the year.
As the summer transitions into autumn, sunshine begins to decrease, albeit gradually. September records 343 hours, signaling the start of a decline, followed by October at 327 hours. The downward trend continues into the winter months, with November and December featuring 293 and 280 hours. Overall, Qalyubia enjoys abundant sunshine throughout the year, with summer weeks offering an exceptional amount of light, highlighting the potential for solar energy initiatives in the region. The steady pattern of increasing sunshine hours not only defines the climate but also influences agricultural cycles and daily life in this vibrant area.
The UV Index in Qalyubia, Egypt, demonstrates significant seasonal variations, reflecting the region's intense sun exposure. January begins with a moderate UV Index of 5, allowing for a burn time of 30 minutes, indicating that precautions are advisable during outdoor activities. As the months progress into February, the UV Index rises to 6, categorized as high, and burn time decreases to 25 minutes. The real intensity emerges in March and April, where the Index escalates to 9 and 10, respectively, indicating very high levels of UV radiation and a quick burn time of only 15 minutes, underscoring the importance of protective measures during these months.
The summer months present the most extreme conditions, with the UV Index peaking at 11 from May through July, categorized as extreme, where the recommended burn time reduces to a mere 10 minutes. Even as August and September maintain a very high Index of 10, October sees a slight dip to 8, while November and December transition back to moderate levels, with UV Indices of 5 and 4, respectively, and more extended burn times of 30 minutes. These trends highlight the critical need for sun safety awareness, particularly during the summer months when UV exposure poses the highest risk to health.
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In Qalyubia, Egypt, daylight duration showcases a clear cyclical pattern that aligns with the changing seasons. The year begins in January with about 10 hours of daylight, gradually increasing to 11 hours in both February and March. As spring unfolds, daylight stretches further, reaching 12 hours in April, and marking the onset of longer days that culminate in May with 13 hours. The peak of summer arrives in June, where residents enjoy 14 hours of daylight—an optimal period for outdoor activities and agricultural practices.
As summer wanes, daylight duration begins to taper off, with July and August maintaining 13 hours before a decrease to 12 hours in September. The autumn months of October and November see daylight diminish to 11 and 10 hours, respectively, before returning to 10 hours in December, similar to the start of the year. This consistent fluctuation of daylight underscores the rhythm of life in Qalyubia, influencing everything from daily routines to agricultural cycles, as residents adapt to the ebb and flow of natural light throughout the seasons.
The climate in Al Khankah, Egypt, features warm temperatures, with average highs ranging from 14°C (58°F) in January to 30°C (87°F) in July and August. The region experiences minimal precipitation, with the driest months being from May to September, while March receives the most rain at 14 mm (0.5 in). Sunshine is abundant throughout the year, peaking in the summer months, with July averaging 404 hours of sunlight. Overall, Al Khankah has a hot desert climate, making it a warm destination year-round. For more details, visit Al Khankah climate.
Al Qanatir al Khayriyah, Egypt, experiences a hot desert climate with significant temperature variations throughout the year. January sees average temperatures around 14°C (58°F) rising to a peak of 28°C (82°F), while May and June record extremes, reaching up to 46°C (115°F) and 42°C (107°F) respectively. Rainfall is minimal, with most months receiving little to no precipitation, and the highest recorded rainfall occurs in March at only 14 mm (0.5 in). Sunshine is abundant, peaking during the summer months with July enjoying up to 404 hours of sunshine. For more detailed information, visit Al Qanatir al Khayriyah climate.
Banha, Egypt experiences a hot desert climate characterized by high temperatures and minimal rainfall throughout the year. January marks the coolest month with temperatures ranging from 4°C to 28°C, while May through August sees peak temperatures soaring to around 46°C (115°F). Rainfall is scarce, with May to September receiving no precipitation, and the total annual precipitation averaging only 42 mm (1.65 in). The city enjoys abundant sunshine, particularly in the summer months, with July boasting approximately 404 hours of sunlight. For more detailed climate information, visit Banha climate.
Qalyub, Egypt experiences a hot desert climate, characterized by high temperatures and low annual precipitation. January sees temperatures ranging from 4°C (40°F) to a maximum of 28°C (82°F), while the summer months of June through August can reach highs of 41°C (106°F) to 46°C (115°F). Rainfall is minimal throughout the year, with the bulk occurring in early spring; most months record little to no precipitation. Sunshine hours peak in the summer, ensuring almost year-round bright and clear skies. For more detailed information, visit Qalyub climate.
Shibin al Qanatir, Egypt experiences a hot desert climate characterized by minimal rainfall and abundant sunshine. Temperatures vary significantly throughout the year, with January averages around 14°C (58°F) and peaks in May reaching an impressive 46°C (115°F). Precipitation is scarce, with the wettest months being February and March, receiving only 9 mm and 14 mm respectively. The region enjoys long hours of sunlight, especially in summer, where July boasts approximately 404 hours. For more details, visit Shibin al Qanatir climate.
Tukh, Egypt experiences a hot desert climate characterized by high temperatures and minimal rainfall throughout the year. January sees cooler temperatures with averages around 14°C (58°F), while May and June peak with averages of 27°C (80°F) and 29°C (84°F), respectively, reaching maximums of up to 46°C (115°F). Rainfall is scarce, with the majority of months receiving less than 10 mm, and sunshine is abundant, particularly in the summer months, with July boasting over 400 hours. For more detailed climate information, visit Tukh climate.
In conclusion, the climatic and environmental patterns of Qalyubia, Egypt, reflect a region defined by its arid conditions, marked temperature fluctuations, minimal precipitation, abundant sunshine, and notable UV exposure. The data reveals a clear seasonal progression, with warm summers characterized by extreme temperatures and abundant daylight, while winters offer shorter days and moderate UV levels. Understanding these climatic trends is crucial for effective resource management, agricultural planning, and public health strategies, especially concerning sun safety and water conservation. As the region continues to navigate the impacts of climate variability, leveraging its abundant sunlight for sustainable energy and enhancing adaptive measures will be vital in fostering resilience within the community.