The Tibesti-Jebel Uweinat montane xeric woodlands is a deserts and xeric shrublandsecoregion in the eastern Sahara. The woodlands ecoregion occupies two separate highland regions, covering portions of northern Chad, southwestern Egypt, southern Libya, and northwestern Sudan.
Setting
The ecoregion covers 82,200 square kilometers (31,700 sq mi) in the volcanic Tibesti Mountains of Chad and Libya, and 1932-m peak of Jebel Uweinat on the border of Egypt, Libya, and Sudan. The climate is arid and subtropical, but can reach 0°C at the highest altitudes during the winter. Rainfall is irregular but more regular than the surrounding desert and many of the lower wadis are watered by rain which falls higher up.[2]
The ecoregion supports, or supported, populations of several important Saharan large mammals. One, the scimitar-horned oryxOryx dammah is now believed to be extinct in the wild, while the addaxAddax nasomaculatus is critically endangered. Other species include dorcas gazelleGazella dorcas which is assessed as vulnerable, dama gazelleNanger dama which is endangered, Barbary sheepAmmotragus lervia which is vulnerable and cheetahAcinonyx jubatus which is vulnerable. In 2000 Barbary sheep and dama gazelle were recorded in the Jebel Uweinat portion of the ecoregion.[2]
Smaller mammals are abundant, including rock hyraxProcavia capensis, Cape hareLepus capensis, many mice, gerbils and jirds and three species of fox, Rüppell's foxVulpes rueppelli, pale foxVulpes pallida and fennec foxFennecus zerda. Other predators are found in the region including a relict population of African wild dogLycaon pictus as well as striped hyenaHyaena hyaena and golden jackalCanis aureus, primarily in the southern portion of the region.[2]
Locusts
In habitats dominated by Schouwia and Tribulus terrestris in the wadis of this region, have an important role in the life cycle of the desert locust. This is where the female locusts lay their eggs, as the soil is moist and when the locust nymphs emerge, the leaves of Schouwia and Tribulus are fed on, allowing the nymphs to get enough food and water to mature. In some years, if conditions are right they can amass into large swarms, eventually becoming a plague which can reach distant areas of Africa and Europe, and have a huge economic impact by destroying crops.[2]
References
^Eric Dinerstein, David Olson, et al. (2017). An Ecoregion-Based Approach to Protecting Half the Terrestrial Realm, BioScience, Volume 67, Issue 6, June 2017, Pages 534–545; Supplemental material 2 table S1b. [1]