Congo Basin Hydrology, Climate, and Biogeochemistry. Группа авторов

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Название Congo Basin Hydrology, Climate, and Biogeochemistry
Автор произведения Группа авторов
Жанр География
Серия
Издательство География
Год выпуска 0
isbn 9781119656999



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alt="Schematic illustration of (a) Mean annual rainfall (mm) based on gauge data for the period 1945 to 1984 and CHIRPS2 data for the period 1981 to 2019. (b) Mean rainfall for four individual months from CHIRPS2 for the period 1981 to 2019."/>

      Throughout the basin mean annual rainfall exceeds 1250 mm, but it exceeds 1500 mm over most of the region. In the core of the basin, annual rainfall exceeds 1750 mm. Within that area are three maxima, located at roughly the equator and 20°E, 2°S, and 28°E, and 3°N and 28°E. CHIRPS2 shows the maximum at 2°S and 28°E to be the strongest. Mean annual rainfall exceeds 2000 mm in at least some areas. Rainfall maxima are also evident along the Atlantic coast between roughly the equator and 7°N, over the Ethiopian highlands, over the western portion of Lake Victoria, and in a small sector of western Kenya (northeast of Lake Victoria). The aridity of eastern Africa contrasts sharply with the high rainfall over the Congo Basin.

      3.4.2. Monthly Rainfall

      Figure 3.9 also shows mean rainfall during four individual months based on CHIRPS2: January, April, July, and October. The gauge analysis indicates similar results and hence is not shown. The seasonal shift in the tropical rainbelt over the region is clearly evident. In January peak rainfall is south of the equator, with monthly rainfall on the order of 100 to 200 mm. It exceeds 150 mm over most of that area. North of the equator monthly rainfall progressively decreases from 100 mm near the equator to less than 10 mm at around 6°N. In April the rainbelt is displaced northward. Mean rainfall is on the order of 100 to 200 mm throughout the latitude span of 10°S to 7°N, with rainfall decreasing rapidly further north. Further displacement is evident in July, with high rainfall north of the equator and a rapid decrease southward from the equator. July rainfall decreases from roughly 50 mm near the equator to less than 10 mm in the southernmost regions. In October the rain belt retreats southward and high rainfall extends throughout the basin. The rainbelt is most extensive and strongest during this month. Vast areas receive 200 to 300 mm of rainfall.

      3.4.3. The Seasonal Cycle

Schematic illustration of percent concentration of rainfall in the wettest quarter of the year, based on CHIRPS2 and averaged for the period 1981 to 2019. Schematic illustration of the seasonal cycle of rainfall, with bar graphs indicating mean rainfall in each month.

      In both regions, the relative importance of the boreal autumn rainy season decreases across the east–west extent of the basin. Reasons for the shift appear to be related to the Walker‐type over‐turnings discussed in Section 3.2. Over central equatorial Africa (Figure 3.3), the column of ascent is stronger during the boreal autumn than in the boreal spring, consistent with stronger rainy season during autumn. Over eastern equatorial Africa, the descending branch of the Indian Ocean cell is stronger in the boreal autumn than the boreal spring, thus conditions are more conducive to rainfall in the boreal spring.

      In the latitudes further to the north and further to the south, the rainfall regime tends to become unimodal. That is clearly the case in the latitudes 5°N to 10°N, where peak rainfall occurs during June‐to‐September. In those latitudes November‐to‐February or March is generally dry. To the south (latitudes 5°S to 10°S) the dry period of the boreal summer is more pronounced, with May‐to‐September being relatively dry. Although a bimodal distribution is clear in the westernmost sectors, elsewhere there is a more or less continuous rainy season from September or October through to April.

Schematic illustration of mean rainfall (mm/mo) for the driest three-month season based on gauge data for the period 1945–1984.