Abstract:
Tropical montane forests are known to support many endemic species with restricted geographic ranges. Many of
these species are however, faced with numerous threats, most notably from habitat loss and degradation,
invasive alien species, and climate change. Examples include Taita Apalis and Taita Thrush. Taita Apalis (Apalis
fuscigularis) and Taita Thrush (Turdus helleri) are species of birds listed as Critically Endangered by the Gov-
ernment of Kenya and the International Union for Conservation of Nature (IUCN). They are endemic to Taita
Hills’ cloud forests in southeastern Kenya and protected under Wildlife Conservation and Management Act. As
they face high risk of extinction, exploring their habitat suitability is imperative for their protection. To deter-
mine the current spatial distribution and the key ecogeographical explanatory factors and conditions affecting
species distribution and indirect effects on species survival and reproduction, we employed Maximum Entropy
(MaxEnt) modelling. This study was conducted in Ngangao and Vuria forests in June and July 2019 and 2020.
Ngangao forest is gazetted as forest reserve and managed by the Kenya Forest Service whereas Vuria is non-
gazetted and thus remains without official protection status. Ecogeographical explanatory variables; climatic,
remote sensing-, LIDAR-, topography- and landscape-based variables were used in modelling and separate
models were produced. 23 occurrence records of Taita Apalis and 30 of Taita Thrush from Ngangao and 21 of
Taita Apalis from Vuria forests were used in the modelling. According to the models, less than 7% of the total
area of Ngangao and Vuria forests was predicted as suitable habitat for Taita Apalis and Taita Thrush. This shows
that these two species are more vulnerable to extinction from demographic stochasticity. Consequently, man-
aging their habitats is critical for their long-term persistence. LIDAR-based canopy height range and elevation
greatly influenced Taita Apalis distribution in Ngangao forest, with areas of high elevation (1620–1750 m a.s.l.)
and having open middle-storey preferred. Elevation, slope and topographic wetness index (twi) were the major
determinants of Taita Thrush distribution in Ngangao, where gentle sloping areas with moderately dry surfaces
within high elevation (1620–1730 m a.s.l.) were favoured. Mean annual temperature, Euclidean distance to the
forest edge, slope and land cover type greatly influenced the distribution of Taita Apalis in Vuria, with gentle
sloping areas within forest interior made up of indigenous vegetation preferred. This study proposes reforesting
open and degraded sites next to areas predicted as highly suitable for the two species; establishment of agro-
forestry belts based on indigenous trees on the boundaries of the two forests to reduce grazing and firewood
collection pressure and enhance resilience to the edge effects; and enhancing forest protection through Partic-
ipatory Forest Management.