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4. Endemic forest birds of the Taita Hills

Author

Githiru, M, Githiru, Mwangi, Lens, L, Cresswell, W, and Perrins, C

Subjects
Fragmented landscapes, Taita Hills, Kenya, Forest birds
Abstract

Despite intense publicity, habitat loss still remains a serious threat to biodiversity. Forest destruction is its frontrunner, both in terms of physical habitat under threat and potential for biodiversity loss. In the fragmented landscape of the Taita Hills, SE Kenya, several bird species are facing the threat of extinction from forest loss. They are absent from many of the remnant forest patches and/or are showing negative effects with increasing disturbance. Using a relatively common forest-dependent bird species - the whitestarred robin Pogonocichla stellata - as a model, the current status of this ecosystem was examined, and future patterns predicted in view of the unrelenting destruction. As expected, the robin population in the largest and most intact fragment (c35 ha) was the healthiest, suggesting that this was indeed the best quality habitat patch: it had the highest population density, highest productivity (low nest predation and high juvenile to adult ratio) and lowest turnover rates. Effects of forest deterioration were evident from the fact that the medium-sized patch (c95 ha), which is undergoing severe degradation, was a worse habitat for the robin than the tiny patches (c2-8 ha): it had the lowest population density, lowest productivity (highest nest predation rates and lowest juvenile to adult ratio), and highest turnover rates. The explanation for this is twofold. Besides the smallest patches facing lower levels of habitat loss recently, they also had high levels of dispersal between them. They occasionally operated as a finegrained system with individuals moving between them in the space of a few days. In general, the robin metapopulation is demographically (rate of change, λ = 0.996) and genetically (at migration- and mutation-drift equilibrium) stable at present. The populations in the largest and smallest patches were potential sources providing emigrants that were possibly crucial in sustaining the population in the medium-sized patch (given its low productivity and high turnover rates). Overall, these findings underscore the importance of within-patch processes, both for ensuring persistence of subpopulations and providing dispersers, as well as between-patch processes (chiefly dispersal) for ensuring metapopulation persistence. Thus, by furnishing ample sample sizes that enabled work to be carried out in all fragments throughout this landscape, the model species approach was useful for identifying the need for a two-pronged conservation strategy. First, a need to focus within fragments to reduce habitat loss and degradation, and second, to address among fragment issues relating to land-use and maintaining a forested landscape, in order to enhance connectivity between patches. Finally, based on the mechanisms by which disturbance and fragmentation are affecting bird populations e.g. predator influxes from the surrounding matrix, conservation recommendations for the Taita Hills are offered.

Published
2016

5. Avifauna of Ishaqbini Community Conservancy in Ijara District, NE Kenya

Author

Njoroge, P, Muchane, M, Wamiti, W, Kimani Kamau, D, and Githiru, M

Abstract

Ishaqbini community conservancy, in the arid northern-eastern Kenya was established in 2006 by local pastoralists as a community initiative to safeguard their wildlife heritage especially the endemic Hirola Beatragus hunteri. Prior to this survey there were no known recent avifaunal surveys for the area despite the fact that the conservancy lies adjacent to the relatively well-known lower Tana River forests, an important bird area (Bennun & Njoroge 1999), as well as the East Africa coast forests endemic bird area (Stattersfield et al. 1998). In this paper we present the results of an avifaunal survey of the conservancy that includes a description of the bird assemblages in the conservancy, and an annotated account of some species of global and regional conservation concern occurring there.

Published
2015

6. Avian diversity in forest gaps of Kibale Forest National Park, Uganda

Author

Githiru, M and Dejene, S

Abstract

We studied gap avifaunal diversity in eight forest gaps within Kibale NationalPark using point counts. A total of 348 individuals comprising 55 species wererecorded. A species-accumulation curve showed that, although not all possiblespecies were recorded, this was a reliable representation of the entire gapavian diversity of Kibale forest. Next, we categorized the observed avifaunain terms of forest dependence and feeding guilds. Whereas the proportionsbased on forest-dependency were significantly different from the expectedproportions when considering the avian community for the entire forest,those based on feeding guilds were not. Gap size and vegetation cover densityboth had positive correlations with species richness and abundance, thoughnot always statistically significant. This study shows that gaps significantlycontribute to the overall avian species richness of Kibale forest. This could beeither through supporting entirely different species, or providing a burst ofnew resources that enables forest species to extend their home ranges or liveat higher densities.

Published
2015

8. The birds of Gongoni Forest Reserve, South Coast, Kenya

Author

Ogoma, M O, Breckling, B, Reuter, H, Muchane, M, and Githiru, M

Abstract

Between November 2007 and February 2008, bird species composition, richness and abundance were assessed at Gongoni Forest Reserve (classified as a Key Biodiversity Area) using transect and timed-species counts. A total of 140 bird species in 51 families were recorded with species accumulation curves indicating that a few more species could be discovered with additional search efforts. Four Near Threatened species―Southern Banded Snake Eagle Circaetus fasciolatus, Sooty Falcon Falco concolor, Martial Eagle Polemaetus bellicocus and Fischer’s Turaco Tauraco fischeri, 15 East Africa Coast biome species and 13 regionally threatened species were recorded. Owing to the presence of these species of conservation concern both globally and regionally, and past and ongoing threats, this site merits more attention than previously accorded.

Published
2014

9. A survey of the birds of Ol Donyo Sabuk National Park, Kenya

Author

Munyekenye, F B and Githiru, M

Abstract

A survey of bird species of the Ol Donyo Sabuk National Park was carried out between 24 October and 2 November 2007. From 14 1-km transects distributed across the three habitat categories―forest, woodland and grassland―dominant in this park, 913 individual birds comprising 72 species were recorded. An additional 53 species were recorded from opportunistic observations bringing the total to 125 species from 48 families. Besides the Grey Crowned Crane Balearica regulorum, which is listed as Vulnerable in the IUCN Red Data List, seven Palaearctic migrants and five Afrotropical migrants were recorded. There were clear differences amongst transects in the three habitat categories in terms of species richness but not abundance. The proximity of the park to Nairobi, being only 65 km away, as well as its considerable avian diversity, makes it a close-to-ideal weekend getaway and great bird watching spot.

Published
2014

12. Demography of an Afrotropical passerine in a highly fragmented landscape.

Author

Githiru, M. and Lens, L.

Subjects
*ANIMAL populations, *HABITATS, *ROBINS, *FOREST birds, *ANIMAL offspring sex ratio
Abstract

Demographic attributes of discrete subpopulations of animals and plants that constitute a larger (meta)population network may affect the strength and direction of local population responses to habitat loss or degradation. To address this question in an Afrotropical context, we studied survival rates, population densities, sex ratios and age distributions in seven white-starred robin Pogonocichla stellata populations inhabiting differently sized forest remnants in a highly fragmented Kenyan landscape. Sex ratios were strongly male biased, especially during the non-breeding season, but the level of bias did not differ between age groups nor fragment sizes. Juvenile to adult ratios were smallest in the medium-sized fragment, but did not differ between the largest and smallest fragments. Low population density combined with a skewed sex ratio in the medium-sized fragment pointed towards a local scarcity of females, which was supported by the presence of unmated territorial males. Based on capture–recapture analysis, all populations were considered stable on average. When combining demographic patterns with those emerging from a recent population genetic study and removal experiment, our results support the notion that small populations inhabiting tiny habitat remnants may play an important role in augmenting the long-term survival of spatially structured populations. [ABSTRACT FROM AUTHOR]

Published
2006
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14. Cooperative breeding alters physiological and behavioral responses to habitat fragmentation.

Author

Apfelbeck B, Cousseau L, Kung'u GN, Canoine V, Heiskanen J, Korir DK, Lala F, Pellikka P, Githiru M, and Lens L

Abstract

Animals respond to habitat alteration with changes in their behavior and physiology. These changes determine individual performance and thus precede changes in population size. They are therefore hypothesized to provide important insights into how animals cope with environmental change. Here, we investigated physiological and behavioral responses of a cooperatively breeding bird, the placid greenbul ( Phyllastrephus placidus ), in a severely fragmented tropical biodiversity hotspot and combined these data with remotely sensed (LiDAR) environmental data. We found that individuals had increased glucocorticoid hormone levels when breeding in territories with low native canopy cover or located within small fragments. However, when breeding with the help of subordinates, breeders in low quality territories had similar glucocorticoid levels as those in higher quality territories. Our study shows that sociality may impact how well animals cope with environmental change and contributes to our understanding of the role of glucocorticoid physiology and behavior in response to anthropogenic change., Competing Interests: The authors declare no competing interests., (© 2023 The Author(s).)

Published
2024
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15. Habitat fragmentation shapes natal dispersal and sociality in an Afrotropical cooperative breeder.

Author

Cousseau L, Hammers M, Van de Loock D, Apfelbeck B, Githiru M, Matthysen E, and Lens L

Subjects
Animals, Female, Male, Reproduction, Animal Distribution, Ecosystem, Passeriformes
Abstract

It remains poorly understood how effects of anthropogenic activity, such as large-scale habitat fragmentation, impact sociality in animals. In cooperatively breeding species, groups are mostly formed through delayed offspring dispersal, and habitat fragmentation can affect this process in two opposite directions. Increased habitat isolation may increase dispersal costs, promoting delayed dispersal. Alternatively, reduced patch size and quality may decrease benefits of philopatry, promoting dispersal. Here, we test both predictions in a cooperatively breeding bird (placid greenbul, Phyllastrephus placidus ) from an Afrotropical cloud forest archipelago. Males born in fragmented forest dispersed about 1 year earlier than those born in continuous forest. Contrary to females, males also started to reproduce earlier and mostly settled within their natal patch. Females only rarely delayed their dispersal for more than 1 year, both in fragmented and continuous forests. Our results suggest that early male dispersal and reproduction is jointly driven by a decrease in the value of the natal territory and an increase in local breeding opportunities in fragmented forest. While plasticity in dispersal strategies of cooperative breeders in response to anthropogenic change is believed to optimize reproduction-survival trade-offs, to what extent it shapes the ability of species to respond to rapid environmental change remains to be studied.

Published
2020
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16. Cooperative breeding shapes post-fledging survival in an Afrotropical forest bird.

Author

Van de Loock D, Strubbe D, De Neve L, Githiru M, Matthysen E, and Lens L

Abstract

For avian group living to be evolutionary stable, multiple fitness benefits are expected. Yet, the difficulty of tracking fledglings, and thus estimating their survival rates, limits our knowledge on how such benefits may manifest postfledging. We radio-tagged breeding females of the Afrotropical cooperatively breeding Placid greenbul ( Phyllastrephus placidus) during nesting. Tracking these females after fledging permitted us to locate juvenile birds, their parents, and any helpers present and to build individual fledgling resighting datasets without incurring mortality costs or causing premature fledging due to handling or transmitter effects. A Bayesian framework was used to infer age-specific mortality rates in relation to group size, fledging date, maternal condition, and nestling condition. Postfledging survival was positively related to group size, with fledglings raised in groups with four helpers showing nearly 30% higher survival until independence compared with pair-only offspring, independent of fledging date, maternal condition or nestling condition. Our results demonstrate the importance of studying the early dependency period just after fledging when assessing presumed benefits of cooperative breeding. While studying small, mobile organisms after they leave the nest remains highly challenging, we argue that the telemetric approach proposed here may be a broadly applicable method to obtain unbiased estimates of postfledging survival.

Published
2017
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17. Genetic signature of population fragmentation varies with mobility in seven bird species of a fragmented Kenyan cloud forest.

Author

Callens T, Galbusera P, Matthysen E, Durand EY, Githiru M, Huyghe JR, and Lens L

Subjects
Animals, Inbreeding, Kenya, Microsatellite Repeats genetics, Population genetics, Population Density, Reproduction genetics, Species Specificity, Trees, Birds genetics, Ecosystem, Gene Flow, Genetic Variation
Abstract

Habitat fragmentation can restrict geneflow, reduce neighbourhood effective population size, and increase genetic drift and inbreeding in small, isolated habitat remnants. The extent to which habitat fragmentation leads to population fragmentation, however, differs among landscapes and taxa. Commonly, researchers use information on the current status of a species to predict population effects of habitat fragmentation. Such methods, however, do not convey information on species-specific responses to fragmentation. Here, we compare levels of past population differentiation, estimated from microsatellite genotypes, with contemporary dispersal rates, estimated from multi-strata capture-recapture models, to infer changes in mobility over time in seven sympatric, forest-dependent bird species of a Kenyan cloud forest archipelago. Overall, populations of sedentary species were more strongly differentiated and clustered compared to those of vagile ones, while geographical patterning suggested an important role of landscape structure in shaping genetic variation. However, five of seven species with broadly similar levels of genetic differentiation nevertheless differed substantially in their current dispersal rates. We conclude that post-fragmentation levels of vagility, without reference to past population connectivity, may not be the best predictor of how forest fragmentation affects the life history of forest-dependent species. As effective conservation strategies often hinge on accurate prediction of shifts in ecological and genetic relationships among populations, conservation practices based solely upon current population abundances or movements may, in the long term, prove to be inadequate., (© 2011 Blackwell Publishing Ltd.)

Published
2011
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18. Genetic equilibrium despite habitat fragmentation in an Afrotropical bird.

Author

Galbusera P, Githiru M, Lens L, and Matthysen E

Subjects
Animals, Conservation of Natural Resources, Demography, Gene Frequency, Genetic Drift, Kenya, Likelihood Functions, Markov Chains, Microsatellite Repeats genetics, Monte Carlo Method, Mutation genetics, Population Dynamics, Environment, Genetic Variation, Genetics, Population, Models, Genetic, Songbirds genetics
Abstract

We examined the effects of habitat fragmentation of the white-starred robin Pogonocichla stellata metapopulation in the Taita Hills archipelago, a hotspot for biodiversity which was fragmented approximately 40 years ago. Using seven microsatellite markers, we analysed the robin's genetic structure and tested for equilibrium between migration and drift (testing the probability of decreased dispersal) as well as between mutation and drift (test for recent reduction in effective population size, i.e. bottlenecks). This metapopulation was found to retain relatively high levels of genetic variability (H(E) between 0.63 and 0.71) and to be in migration-drift equilibrium, suggesting that increased isolation between fragments did not have much effect on the dispersal between them. Furthermore, this equilibrium test greatly enhanced the interpretation of parameters (e.g. F(ST)) assumed to have reached an equilibrium value. In contrast to previous findings on the related and sympatric Taita thrush Turdus helleri (which is critically endangered), there were no indications for recent bottlenecks in any of the robin subpopulations. This difference can be attributed to the higher dispersal capacity of the robin compared with the thrush (deduced from both the genetic and capture-recapture data). Our results stress the importance of sustained dispersal for species conservation.

Published
2004
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19. Avian persistence in fragmented rainforest.

Author

Lens L, Van Dongen S, Norris K, Githiru M, and Matthysen E

Subjects
Animals, Conservation of Natural Resources, Kenya, Logistic Models, Models, Biological, Models, Statistical, Phenotype, Population Dynamics, Probability, Species Specificity, Tarsus, Animal anatomy & histology, Birds anatomy & histology, Birds physiology, Ecosystem, Environment, Trees
Abstract

What factors determine the persistence of species in fragmented habitats? To address this question, we studied the relative impacts of forest deterioration and fragmentation on bird species in 12 rainforest fragments in Kenya, combining 6 years of individual capture-recapture data with measurements of current captures and museum specimens. Species mobility, as estimated from species-specific dispersal rates, and tolerance to habitat deterioration, as estimated from change in fluctuating asymmetry with increasing habitat disturbance, explained 88% of the variation in patch occupancy among eight forest bird species. Occupancy increased with mobility and with tolerance to deterioration, where both variables contributed equally to this relationship. We conclude that individual-level study, such as of dispersal behavior and phenotypic development, can predict patterns of persistence at the species level. More generally, for conservation tactics to stand a high chance of success, they should include action both within sites, to minimize habitat deterioration, and across landscapes, to maximize dispersal.

Published
2002
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