Environmental drivers of aquatic macrophyte communities in southern tropical African rivers: Zambia as a case study

Kennedy, M. P. et al. (2015) Environmental drivers of aquatic macrophyte communities in southern tropical African rivers: Zambia as a case study. Aquatic Botany, 124, pp. 19-28. (doi: 10.1016/j.aquabot.2015.03.002)

Full text not currently available from Enlighten.


The first-ever extensive macrophyte survey of Zambian rivers and associated floodplain waterbodies, conducted during 2006–2012, collected 271 samples from 228 sites, mainly located in five freshwater ecoregions of the world primarily represented in Zambia. The results supported the hypothesis that variation in macrophyte community structure (measured as species composition and diversity) in southern tropical African river systems, using Zambia as a case study area, is driven primarily by geographical variation in water physico-chemical conditions. In total, 335 macrophyte taxa were recorded, and a chronological cumulative species records curve for the dataset showed no sign of asymptoting: clearly many additional macrophyte species remain to be found in Zambian rivers. Emergent macrophytes were predominant (236 taxa), together with 26 floating and 73 submerged taxa. Several species were rare in a regional or international context, including two IUCN Red Data List species: Aponogeton rehmanii and Nymphaea divaricata. Ordination and classification analysis of the data found little evidence for temporal change in vegetation, at repeatedly-sampled sites, but strong evidence for the existence of seven groups of samples from geographically-varied study sites. These supported differing sets of vegetation (with eight species assemblages present in the sample-groups) and showed substantial inter-group differences in both macrophyte alpha-diversity, and geographically-varying physico-chemical parameters. The evidence suggested that the main environmental drivers of macrophyte community composition and diversity were altitude, stream order, shade, pH, alkalinity, NO3-N, and underwater light availability, while PO4-P showed slightly lower, but still significant variation between sample-groups.

Item Type:Articles
Glasgow Author(s) Enlighten ID:Murphy, Dr Kevin and Briggs, Professor John and Lowe, Dr Steven and Martins, Miss Sara and Lang, Dr Pauline
Authors: Kennedy, M. P., Lang, P., Grimaldo, J. T., Martins, S. V., Bruce, A., Hastie, A., Lowe, S., Ali, M. M., Sichingabula, H., Dallas, H., Briggs, J., and Murphy, K. J.
College/School:College of Medical Veterinary and Life Sciences > School of Biodiversity, One Health & Veterinary Medicine
College of Medical Veterinary and Life Sciences > School of Life Sciences
Journal Name:Aquatic Botany
Publisher:Elsevier B.V.
ISSN (Online):1879-1522
Published Online:14 March 2015

University Staff: Request a correction | Enlighten Editors: Update this record