The Cradle of Knowledge: African Journal of Educational and Social Science Research

Mount Kilimanjaro, a giant volcanic mountain in Tanzania, Africa, is the highest mountain in the continent. It has experienced observable changes as this paper will discuss. The objective of this study is to describe Mount Kilimanjaro’s climate, ecosystems, geology, the impact of climate change on its flora and fauna and model the mountain’s lateral cliff retreat with respect to years. Mount Kilimanjaro serves as the source of several water systems in both Kenya and Tanzania. Global warming’s impact on the mountain’s glacier affects the river systems through flood occurrences. The impact is also felt on the mountain as temperatures rise above the optimum temperatures of normal body activities of many species (both flora and fauna). The data was extracted from a publication. The researchers used the model to predict the elevation in 2040.This could result in suppression of some species and enhancement for those that are able to adapt to warmer temperatures. Invasive species may also be introduced to this environment and thrive. This study found that climate change dictated changes in patterns of large animals’ migration and changes in flora and fauna species’ population and structure.

Key words: Mount Kilimanjaro; Climate change; flora; and Fauna

Akinsemolu, A. A., & Akinsemolu, A. A. (2020). Effects of Everyday Activities on the E Butynski, T. M., & de Jong, Y. A. (2018). Geographic range, taxonomy, and conservation of the Mount Kilimanjaro guereza colobus monkey (Primates: Cercopithecidae: Colobus). Hystrix, 29(1), 81. cosystem. The Principles of Green and Sustainability Science, 81-107.

Butynski, T. M., & de Jong, Y. A. (2018). Geographic range, taxonomy, and conservation of the Mount Kilimanjaro guereza colobus monkey (Primates: Cercopithecidae: Colobus). Hystrix, 29(1), 81.

Hastenrath, S. (2017). Changes in African Glaciers since the 19th Century. In Oxford Research Encyclopedia of Climate Science.

Hemp, A. (2006). Continuum or zonation? Altitudinal gradients in the forest vegetation of Mt. Kilimanjaro. Plant ecology, 184, 27-42.

Minja, G. (2014). Vulnerability of tourism in Kilimanjaro national park and the livelihoods of adjacent communities to the impacts of climate change and variability. European Scientific Journal, 10(29).

Pepin, N. C., Duane, W. J., Schaefer, M., Pike, G., & Hardy, D. R. (2014). Measuring and modeling the retreat of the summit ice fields on Kilimanjaro, East Africa. Arctic, Antarctic, and Alpine Research, 46(4), 905-917.

Schüler, L., Hemp, A., Zech, W., & Behling, H. (2012). Vegetation, climate, and fire-dynamics in East Africa inferred from the Maundi crater pollen record from Mt Kilimanjaro during the last glacial–interglacial cycle. Quaternary Science Reviews, 39, 1-13.

Spehn, E. (2011). Mountain biodiversity: effects of climate change and how to manage them. Mountain biodiversity: effects of climate change and how to manage them., (60), 40-43.

Vimercati, L., Darcy, J. L., & Schmidt, S. K. (2019). The disappearing periglacial ecosystem atop Mt. Kilimanjaro supports both cosmopolitan and endemic microbial communities. Scientific Reports, 9(1), 10676.

Zawierucha, K., & Shain, D. H. (2019). Disappearing Kilimanjaro snow—Are we the last generation to explore equatorial glacier biodiversity? Ecology and Evolution, 9(15), 8911-8918