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journal article Open Access Aug 25, 2021

Ecosystem functions in degraded riparian forests of southeastern Kenya

Jan Christian Habel ORCID Werner Ulrich ORCID
Ecology and Evolution Vol. 11 No. 18 pp. 12665-12675 · Wiley
View at Publisher Save 10.1002/ece3.8011
Abstract
AbstractSpecies community structures shape ecosystem functions, which are mostly stronger pronounced in intact than in degraded environments. Riparian forests in semiarid Africa provide important habitats for endangered plant and animal species and provide various ecosystem functions, that is, services to people settling along these streams. Most of these riparian forests are severely disturbed by human activities and dominated by invasive exotic plant species in the meanwhile. Thus, ecosystem functions are negatively influenced. While most studies have analyzed a specific metric to measure the degree of ecosystem function, little is known about how strongly different ecosystem functions respond to anthropogenic disturbances in parallel. In this study, we analyzed a set of four proxies of ecosystem functions, ground‐dwelling arthropod abundances, pollination, seed dispersal, and predation, along a highly disturbed riparian forest in southeastern Kenya. We assessed the land cover and land use manually and with an Unmanned Aerial Vehicle. Our data show that ecosystem functions respond differently to vegetation cover, human disturbances, and the availability of the invasive exotic shrub Lantana camara. The occurrence of representatives from the groups Saltatoria and Formicidae profits from heterogeneous habitat structures and natural riparian forest, while representatives of the Araneae profit from high proportion of agricultural fields. In general, predation is higher in mixed land use and natural riparian forest, while pollination and seed dispersal showed no significant trend in regard on land coverage. Along with this, predation also increased with rising proportion of natural riparian forest, while the proportion of agricultural land negatively affects predation, but in parallel showed a slightly significant positive trend with seed dispersal. Human disturbances and the occurrence of the invasive exotic L. camara shrub did not significantly affect our metrics of ecosystem functioning, except of the negative impact of human disturbances on pollinators. In conclusion, our results underpin that ecosystem functions respond highly variable and individually to environmental changes.
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Details
Published
Aug 25, 2021
Vol/Issue
11(18)
Pages
12665-12675
License
View
Authors
J
Jan Christian Habel

Evolutionary Zoology Department of Biosciences University of Salzburg Salzburg Austria

W
Werner Ulrich

Department of Ecology and Biogeography Nicolaus Copernicus University Toruń Toruń Poland

Cite This Article
Jan Christian Habel, Werner Ulrich (2021). Ecosystem functions in degraded riparian forests of southeastern Kenya. Ecology and Evolution, 11(18), 12665-12675. https://doi.org/10.1002/ece3.8011
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