Assessing the potential impact of climate change in the south-eastern Great Escarpment, Southern Africa

Bentley, Luke Kinross

Title: Assessing the potential impact of climate change in the south-eastern Great Escarpment, Southern Africa
Creator: Bentley, Luke Kinross
ThesisAdvisor: Barker, Nigel
ThesisAdvisor: Robertson, Mark
Subject: Mountain plants -- Climatic factors -- Drakensberg Mountains
Subject: Mountain biodiversity -- Drakensberg Mountains
Subject: Climatic changes -- Drakensberg Mountains
Subject: Rain and rainfall -- Drakensberg Mountains
Subject: Plant diversity -- Climatic factors -- Drakensberg Mountains
Date: 2017
Type: Thesis
Type: Masters
Type: MSc
Identifier: http://hdl.handle.net/10962/4657
Identifier: vital:20709
Description: Rapid, anthropogenic climate change is a contemporary phenomenon which is threatening natural ecosystems. Mountains are globally important, housing high levels of plant and animal biodiversity, as well as being important suppliers of water with 50% of mountainous regions being essential for the provision of water to downstream inhabitants. Owing to their importance, an assessment of the historical, current and potential impacts of climate change on the south-eastern Great Escarpment encompassing South Africa and Lesotho is necessary and is the primary aim of this thesis. In order to assess the historical and current impacts of climate change, historical rainfall records were collected from 78 sites throughout the Eastern Cape. These records were used to determine rainfall trends and trends in the frequency of daily extreme events. Climate change projections predict increasing trends in summer and annual rainfall, and a marginal increase to a slightly decreasing trend in winter rainfall, depending on if statistically downscaled or dynamically downscaled projections are examined. Extreme events are also predicted to increase in frequency. Results showed trends which generally agree with the predictions, except for extreme events for which there was insufficient data to support the projections. This has implications for farmers in the area and validates the downscaled Regional Climate Models (RCMs) to be used for the predictive analysis determining the potential future impacts of climate change on plant species' distributions in the south-eastern Great Escarpment. In order to assess montane plant species to future climate predictions, occurrence records of 46 species were correlated to rainfall and temperature predictor variables and predictions for species richness and beta diversity were made for current and future climates. This predictive analysis used and compared two correlative species distribution modelling methods - one method used one correlating algorithm in a nuanced manner and the other method used five correlating algorithms in an ensemble. A trend of range restriction to higher elevations for the 46 species analysed was as expected from a warming climate. The nuanced, single algorithm modelling method produced less conservative models. The predicted trend of an elevational increase in montane vegetation in this region points to Lesotho and the Drakensberg highlands as being an important refugium for montane plant taxa of the southeastern Great Escarpment. The Maloti Drakensberg Transfrontier Conservation Area hence needs to be expanded and its mandate properly enforced to protect this region adequately.
Format: 102 pages, pdf
Publisher: Rhodes University, Faculty of Science, Botany
Language: English
Rights: Bentley, Luke Kinross

Hits: 1606
Visitors: 2399
Downloads: 1020

Collections

RU Department of Botany

		Thumbnail	File	Description	Size	Format
View Details			SOURCE1	Adobe Acrobat PDF	3 MB	Adobe Acrobat PDF	View Details