Structure and spatial interactions of savanna trees along a local stress gradient in a semi-arid environment
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Structure and spatial interactions of savanna trees along a local stress gradient in a semi-arid environment Justice Muvengwi & Hilton G. T. Ndagurwa & Monicah Mbiba & Ed T. F. Witkowski
Received: 30 October 2019 / Revised: 8 August 2020 / Accepted: 12 September 2020 # Institute of Botany, Czech Academy of Sciences 2020
Abstract Competition and facilitation vary inversely along environmental stress gradients. Here we ask how environmental stress along a slope gradient influences plant-plant interaction in a semi-arid savanna. We attempted to link spatial patterns and ecological interactions, so we analysed the spatial distribution of three Vachellia (Acacia) tree species and assessed the consequences of their interaction on plant structural variables (height, basal area, biomass and canopy cover) at Matopos Research Station, Zimbabwe. Spatial patterns among and between the tree species were assessed using both univariate and bivariate analysis. To understand the extent of tree species isolation, we applied the species mingling index. Canopy cover varied significantly between species at both ends of the stress gradient, while basal area did not differ among the three species at any slope position. The woodland showed differential recruitment levels for the three
species across the catena, which may indicate future changes in composition. The mingling index showed that there was species isolation in the bottom and middle catena. Pair-wise interactions of plants reflected two common spatial patterns, clustering, interpreted as suggesting facilitation, and random, interpreted as neutral. In some cases these patterns changed with spatial scale, indicating that the stress gradient hypothesis (SGH) may be influenced by the spatial scale at which species are interacting. Our univariate analyses corroborate the evidence that plants in semi-arid environments have a clustered distribution and that catenas can produce differential recruitment levels of the different species.
Keywords Catena . Competition . Facilitation . Mingling index . Pair correlation . Spatial distribution . Stress gradient hypothesis
Electronic supplementary material The online version of this article (https://doi.org/10.1007/s12224-020-09374-4) contains supplementary material, which is available to authorized users. J. Muvengwi : H. G. T. Ndagurwa : E. T. F. Witkowski School of Animal, Plant and Environmental Sciences, University of the Witwatersrand, Private Bag 3, Johannesburg 2050, South Africa J. Muvengwi (*) Department of Natural Resources, Bindura University of Science Education, Private Bag, 1020 Bindura, Zimbabwe e-mail: [email protected]
H. G. T. Ndagurwa Department of Forest Resources & Wildlife Management, Faculty of Applied Science, National University of Science & Technology, P.O. Box AC 939, Ascot, Bulawayo, Zimbabwe M. Mbiba Sustainability Research Unit, Nelson Mandela University, George Campus, P/Bag X6531, George 6530, South Africa
Muvengwi et al.
Introduction The stress gradient hypothesis (SGH) is based on several me
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