Geoffrey Mwangi Wambugu ^1,2* Laura Martínez-Íñigo ¹ Bernard Amakobe ^1,2 Mwangi Githiru ^1,2

• ¹ Wildlife Works, Voi, Kenya
• ² Department of Zoology, National Museums of Kenya, Nairobi, Kenya

Organisms in mountainous areas are frequently exposed to climatic extremes and are among the most vulnerable to climate change. Long-term studies on birds along elevational gradients, which are vital in understanding species dynamics, are rare in tropical mountains, which limits the ability to understand their population trends in the face of climate change.We modelled local abundances of understorey bird species (N=18) over a 13-year period (2011)(2012)(2013)(2014)(2015)(2016)(2017)(2018)(2019)(2020)(2021)(2022)(2023) in Mt. Kasigau, Kenya, using mist netting data collected along an elevational gradient. Our models for species from which we captured more than 20 individuals (N=18)show relatively stable bird abundances in the study period. However, we found two distinct population crashes that affected most species in 2015 and 2022, suggesting that changes in local dynamics may lead to heavy declines of bird populations in mountainous regions. Most species had stable local abundances in the study period, but parametric bootstrapping revealed a declining trend for a few species, including an endemic, threatened species. We highlight the importance of mountainous regions in maintaining relatively stable populations in the face of global environmental transformation such as posed by climate change, and the dynamism of bird species populations across relatively small spatial-temporal variations.While mountain ecosystems are viewed as potential refuges for biodiversity in the face of a warming climate, further studies are needed to understand the drivers of short and longterm declines in bird populations at higher elevations, especially in tropical Africa.