1. Multidecadal Trends and Interannual Variability of Rainfall as Observed from Five Lowland Stations at Mt. Kilimanjaro, Tanzania
- Author
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Insa Otte, Tim Appelhans, Ephraim Mwangomo, Thomas Nauss, Florian Detsch, and Andreas Hemp
- Subjects
Atmospheric Science ,010504 meteorology & atmospheric sciences ,biology ,Global climate ,Sugar cane ,0208 environmental biotechnology ,02 engineering and technology ,biology.organism_classification ,01 natural sciences ,020801 environmental engineering ,La Niña ,Tanzania ,Climatology ,Environmental science ,Ecosystem ,0105 earth and related environmental sciences - Abstract
Future rainfall dynamics in the Kilimanjaro region will mainly be influenced by both global climate and local land-cover change. An increase in rainfall is expected, but rising temperatures are also predicted for the ecosystem. In situ rainfall of five stations is analyzed to determine seasonal variability and multidecadal trends in the lowlands and lower elevations of the Kilimanjaro region. Monthly rainfall totals are obtained from the Tanzanian Meteorological Agency, from two mission stations, and from a sugar cane plantation. The datasets of the two mission stations cover time spans of 64 and 62 years, starting in 1940 and 1942, while rainfall data obtained from the Tanzanian Meteorological Agency and from the sugar cane plantation start in 1973 and 1974 and thus cover 40–41 years. In one out of five stations, a significant weak negative linear long-term trend in rainfall is observable, which is also evident in the other locations but is not significant. However, humid and dry decades are evident and seasonality has changed, especially during the long rains between March and May. El Niño–Southern Oscillation (ENSO) in combination with positive Indian Ocean dipole (IOD) leads to enhanced rainfall during the year of ENSO onset and the following year. During La Niña years, rainfall increases in the following year, while during the onset year rainfall patterns are more diverse. Positive IOD leads to enhanced rainfall amounts.
- Published
- 2017