@misc{DampteyBirkhoferMenoretal., author = {Damptey, Frederick Gyasi and Birkhofer, Klaus and Menor, Imma Oliveras and Garcia de la Riva, Enrique}, title = {The functional Structure of Tropical Plant Communities and soil Properties Enhance Ecosystem Functioning and Multitunctionality in Different Ecosystems in Ghana}, series = {Forests}, volume = {13}, journal = {Forests}, number = {2}, issn = {1999-4907}, doi = {10.3390/f13020297}, pages = {20}, abstract = {Plant functional traits are useful in tracking changes in the environment, and play an important role in determining ecosystem functioning. The relationship between plant functional traits and ecosystem functioning remains unclear, although there is growing evidence on this relationship. In this study, we tested whether the functional structure of vegetation has significant effects on the provision of ecosystem services. We analysed plant trait composition (specific leaf area, leaf carbon and nitrogen ratio, isotopic carbon fraction, stem dry matter content, seed mass and plant height), soil parameters (nutrients, pH, bulk density) and proxies of ecosystem services (carbon stock, decomposition rate, invertebrate activity) in twenty-four plots in three tropical ecosystems (active restored and natural forests and an agroforestry system) in Ghana. For each plot, we measured above-ground biomass, decomposition rates of leaves and invertebrate activity as proxies for the provision of ecosystem services to evaluate (i) whether there were differences in functional composition and soil properties and their magnitude between ecosystem types. We further aimed to (ii) determine whether the functional structure and/or soil parameters drove ecosystem functions and multifunctionality in the three ecosystem types. For functional composition, both the leaf economic spectrum and seed mass dimension clearly separated the ecosystem types. The natural forest was more dominated by acquisitive plants than the other two ecosystem types, while the non-natural forests (agroforest and restored forest) showed higher variation in the functional space. The natural forest had higher values of soil properties than the restored forest and the agroforestry system, with the differences between the restored and agroforestry systems driven by bulk density. Levels of ecosystem service proxies and multifunctionality were positively related to the functional richness of forest plots and were mainly explained by the differences in site conditions. Our study demonstrated the effects of functional forest structure on ecosystem services in different forest ecosystems located in the semi-deciduous forest zone of Ghana.}, language = {en} } @misc{BodeAgunbiadeMawdoCamaraetal., author = {Bode Agunbiade, Michael and Mawdo, Jallow and Camara, Fagimba and Fotang, Chefor and Tangwa, Elvis and Amos Oladosu, Olayinka and Birkhofer, Klaus}, title = {Mapping suitable habitat for hooded vultures necrosyrtes monachus in one of the last West African strongholds for the species, The Gambia.}, series = {The Ostrich : journal of African ornithology}, volume = {96}, journal = {The Ostrich : journal of African ornithology}, number = {1}, publisher = {NISC}, address = {Grahamstown}, issn = {1727-947X}, doi = {10.2989/00306525.2025.2474919}, pages = {24 -- 35}, abstract = {Hooded Vultures Necrosyrtes monachus are Critically Endangered, with numbers decreasing due to illegal poisoning, hunting for belief-based use and food, and habitat loss. In The Gambia, human activities currently benefit commensalism between humans and Hooded Vultures, as these birds primarily feed on carcasses and organic waste found around human settlements. This study aimed to identify suitable habitats for Hooded Vultures in The Gambia and assess the importance of environmental variables for habitat suitability. We surveyed 791 km of roads by car in 2017 and 2021 for signs of vulture occurrence (n = 179). Occurrence data were combined with 15 environmental variables using the Maximum Entropy species distribution model (MaxEnt) to predict suitable habitats. We found that 43.7\% of the country is unsuitable as habitat for Hooded Vultures, 27.1\% is of low suitability, 17.6\% is of moderate suitability, and 11.6\% is of high suitability. Highly suitable vulture habitats were identified in the western region and the greater Banjul area. The likelihood of vulture occurrence increased with the density of built-up areas and proximity to roads but decreased with the density of water bodies. Vulture habitats are limited across the country and are constrained to certain climatic conditions in areas of intense human settlement, such as arid and semi-arid regions with low rainfall and high temperatures. Although the commensal relationship with humans brings benefits to the vultures, it also exposes them to human-caused threats that can reduce their survival. Our results suggest that urban planning, waste management, and climate impacts should be considered in their long-term conservation planning.}, language = {en} }