Variations in Impacts of Climate Change on Giant <i>Lobelia</i> Species in East Africa

Variations in Impacts of Climate Change on Giant <i>Lobelia</i> Species in East Africa

Climate change presents major challenges to global biodiversity and ecosystems. Related species distributed in the same region may exhibit differential response patterns to global climate change, resulting in divergent conservation strategies. East Africa is a critical hub for the diversity and dist...

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Bibliographic Details
Main Authors: Radwa Salah, Mohamed Ezzat, Elijah Mbandi Mkala, Mohammed A. Dakhil, Tao Wan, Jun-Nan Wan
Format: Article
Language:English
Published: MDPI AG 2025-04-01
Series:Diversity
Subjects:
climate change
giant <i>Lobelia</i>
East Africa
species distribution models
biodiversity conservation
Online Access:https://www.mdpi.com/1424-2818/17/4/274
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Summary:Climate change presents major challenges to global biodiversity and ecosystems. Related species distributed in the same region may exhibit differential response patterns to global climate change, resulting in divergent conservation strategies. East Africa is a critical hub for the diversity and distribution of giant <i>Lobelia</i>. In this study, we examined the potential distribution of seven giant <i>Lobelia</i> species (<i>Lobelia aberdarica</i>, <i>L. telekii</i>, <i>L. gibberoa</i>, <i>L. bambuseti</i>, <i>L. deckenii</i>, <i>L. gregoriana</i>, and <i>L. rhynchopetalum</i>) across six East African countries (Kenya, Ethiopia, Tanzania, Rwanda, Uganda, and Burundi) under projected climate change scenarios both RCP4.5 and RCP8.5. Species distribution models yielded high predictive accuracy (TSS > 0.8), with the mean temperature of the driest quarter (bio9) emerging as the most influential climatic variable determining future species distribution. The study found considerable variation in the species’ climatic niches, identifying distinct regions of climatically suitable habitats for each. <i>Lobelia</i> species at lower altitudes, such as <i>L. giberroa</i> and <i>L. bambuseti</i>, showed greater stability and expansion. In comparison, species at higher altitudes, such as <i>L. telekii</i>, <i>L. deckenii</i>, and <i>L. rhynchopetalum</i>, faced significant contraction in suitable habitats. These high-altitude species are particularly vulnerable and require urgent conservation interventions. This research highlights the importance of climate change considerations in the conservation of <i>Lobelia</i> species and provides a basis for developing targeted sustainable conservation.
ISSN:1424-2818

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