The impact of climate change on human security in South Africa

Rabie, Elsa

03 1900

Thesis (MA (Political Science))--Stellenbosch University, 2008. / The Stern Review on the Economics of Climate Change is conclusive that climate change will lead to scarcity of the basic resources that sustain life for people around the world – fresh water supplies, food production and land for habitation and cultivation. It is argued that environmental scarcity leads to migration which in turn results in conflict in the receiving area as competition over resources develops. Based on the main theories relating to resource scarcity and conflict, the purpose of this study is to examine the link between climate change and human security. The relevance of this research is the fact that the Stern Review concludes that climate change poses a serious threat to the world and that Africa will be one of the hardest hit continents. Africa is already vulnerable to climate variability and has the least capacity to respond, and this study aims to establish the impacts of resource scarcity on human security in South Africa. The theoretical approach addresses the much debated concept of ‘human security’ as it has developed since the end of the Cold War and the analysis is based on the main conflict theories that maintain that competition over access to scarce resources is one of the root causes of violent conflict. The research design for this study is of an empirical nature with the units of analysis being states, physical events and processes and the resulting human actions. It is a descriptive analysis, interpreting the impact of climate change on scarce resources and the resulting propensity for conflict. Much of the violence against migrants has been the result of varying degrees of xenophobia amongst all racial groups in South Africa. This study proposes the hypothesis that migration results in increased competition over scarce resources in receiving areas, which as a result of xenophobia leads to conflict. Based on the theoretical arguments put forward, the paper aims to determine what policy options for adaptation, mitigation and governance would be most likely to reduce the harmful impacts of climate change on vulnerable regions and groups of people in South Africa and neighbouring countries in order to contain migration and lessen the likelihood of violent conflict. Having identified xenophobia as a spark that could ignite violent inter-group conflict it would be useful to gain some theoretical insight into reducing group prejudice and attaining group cooperation through inter-group contact. It is apparent that there is no single theoretical approach that can be applied to gain a better insight into the complex link between resource scarcity and conflict. The different theories are mutually compatible and each theoretical perspective contributes a partial elaboration to and additional insights into the climate change/conflict hypothesis. There is possibly room for a new theoretical approach to gain a better understanding of the complexity and the uncertainties that are inherent in the study of a mechanism as complex as climate change. South Africa has the responsibility to use its global political influence to promote a shared understanding of responsible behaviour across all societies. Active participation will enable South Africa to guide global negotiations towards outcomes that will lessen the impact of climate change on the most vulnerable countries and populations. In conclusion, possible policies and actions are identified that could support these objectives. Without urgent, appropriate intervention climate change will undermine any efforts to achieve the Millennium Development Goals, and a crippled African continent will be a threat to world security.

Resource scarcity

Human security

Theses -- Political science

Dissertations -- Political science

Climate changes -- South Africa

Human security -- South Africa

Food security -- South Africa

Political Science

Impacts of Climate Variability and Change on Maize (Zea may) production in Makhuduthamaga Local Municipality, Limpopo Province, South Africa.

Matimolane, Selelo Wilson

21 September 2018

MENVSC (Geography) / Department of Geography and Geo-Information Sciences / Climate variability and change directly affect agricultural production. This is because the agricultural sector is inherently sensitive to climatic conditions and is one of the most vulnerable sectors to risks and impact of global climate change. The aim of this study was to determine maize producer's vulnerability and assess the impact of climate variability and change on maize production in the Makhuduthamaga Local Municipality, of Limpopo Province, South Africa. Climatic and maize yields data utilized in the study are for the period 1985 - 2015). Interviews were also conducted with the producers and various officials from government and non-governmental sectors. The results illustrate significant rainfall and temperature variations both spatially and temporally. The variations observed in the average rainfall and rain days for the period under consideration were not related to the variation in yield of maize for the same period. The regression results revealed low R² values, indicating a weak relationship between maize yields, rain days and rainfall. Furthermore, the results revealed a significant positive relationship between annual rainfall and temperature (r²<0.05 and P<0.05) but not a significant relationship with maize yields. The results of the qualitative data showed that the producers’ perception of the occurrence of climate variability was high, as 65.7% of the respondents indicated that the state of climate is increasingly variable. About 61.5% of the producers implemented or adopted an adaptation strategy to cope with the perceived climate variability and change. Age, gender and access to extension services were determined as important factors that determine the adoption of adaptation strategies. The vulnerability assessment revealed that producers were highly vulnerable to changing climate; this exposes producers to the risks of crop failure, loss of income and food insecurity. The study recommended (a) intervention and adaptation strategies that target mitigation of decreased rainfall impacts (b) increased access to extension service (c) empirical research around the impacts of climate change to increase producers’ level of awareness. / NRF

Climate variability and change

Maize yields

Vulnerability

Adaptation

Impact

577.220968255

Corn -- South Africa -- Limpopo

Zea -- South Africa -- Limpopo

Climate change -- Environmental aspects.

Rainfall variability and change in South Africa (1976-2065)

Ncube, Tisang Manabalala

20 September 2019

MENVSC (Geography) / Department of Geography and Geo-Information Sciences / Rainfall is undoubtedly the most significant factor for life’s continuity. South Africa is prone to future climate uncertainties due to global climate change. The aim of this study is to investigate rainfall variability and change in South Africa on a present day (1976-2005), near-future (2006-2035) and far-future (2036-2065) climate. For the study, 3 RCMs (REMO2009, RCA4 and CCLM4-8-17), forming part of CORDEX-Africa project were nested within 5 different CIMP5_GCMs of low resolution. GPCC precipitation, NOAA GHCN_CAMS Land Temperature and other NCEP reanalysis products were useful in validating models in simulations of present-day climate. RCP4.5 and RCP8.5 emission scenarios from IPCC-AR5 were used for future climate projections. On the validation, each regional climate model displayed different signature on simulations, rainfall in particular because this is a variable that is affected most by sub-grid process. Simulations nested within MIROC5 simulated more precipitation than simulations forced with other GCMs, due to more large-scale moisture convergence into the nested domain. There were differences in projections of RCM nested within the same GCM, as well as with the same RCM nested within different GCMs, on the future. Models nested within MPI project wetter conditions over the eastern parts of Limpopo, while the other two projected drier conditions in the same area. REMO2009 forced on MPI uniquely projected drying of Western Cape throughout the seasons on both RCPs and futures. Simulations conducted with the RCP8.5 scenario forcing are generally found to be associated with either a larger increase in temperature, or an increase in area associated with higher temperature increases. CCLM4-8-17 forced on HadGEM2 projected below average temperatures over the northwest parts of the country under the RCP8.5 scenarios. MPI driving model projected a general reduction of evaporation values, with lowest over northeast, northwest parts and south coastal parts of South Africa, in contrary to adjacent oceans. In this study, we have sought to identify the sources of uncertainties amongst model simulations between either the RCMs or the driving GCMs. / NRF

Rainfall

Projections

Variability

Change

Models

Nesting

551.577268

Rain and rainfall -- South Africa.

Climate changes -- South Africa.

Simulating South African Climate with a Super parameterized Community Atmosphere Model (SP-CAM)

Dlamini, Nohlahla

January 2019

MENVSC / Department of Geography and Geo-Information Sciences / The process of cloud formation and distribution in the atmospheric circulation system is very important yet not easy to comprehend and forecast. Clouds affect the climate system by controlling the amount of solar radiation, precipitation and other climatic variables. Parameterised induced General Circulation Model (GCMs) are unable to represent clouds and aerosol particles explicitly and their influence on the climate and are thought to be responsible for most of the uncertainty in climate predictions. Therefore, the aim of the study is to investigate the climate of South Africa as simulated by Super Parameterised Community Atmosphere Model (SPCAM) for the period of 1987-2016. Community Atmosphere Model (CAM) and SPCAM datasets used in the study were obtained from Colorado State University (CSU), whilst dynamic and thermodynamic fields were obtained from the NCEP reanalysis ll. The simulations were compared against rainfall and temperature observations obtained from the South African Weather Service (SAWS) database. The accuracy of the model output from CAM and SPCAM was tested in simulating rainfall and temperature at seasonal timescales using the Root Mean Square Error (RMSE). It was found that CAM overestimates rainfall over the interior of the subcontinent during December - February (DJF) season whilst SPCAM showed a high performance in depicting summer rainfall particularly in the central and eastern parts of South Africa. During June – August (JJA), both configurations (CAM and SPCAM) had a dry bias with simulating winter rainfall over the south Western Cape region in cases of little rainfall in the observations. CAM was also found to underestimate temperatures during DJF with SPCAM results closer to the reanalysis. The study further analyzed inter-annual variability of rainfall and temperature for different homogenous regions across the whole of South Africa using both configurations. It was found that SPCAM had a higher skill than CAM in simulating inter-annual variability of rainfall and temperature over the summer rainfall regions of South Africa for the period of 1987 to 2016. SPCAM also showed reasonable skill simulating (mean sea level pressure, geopotential height, omega etc) in contrast to the standard CAM for all seasons at the low and middle levels (850 hPa and 500 hPa). The study also focused on major El Niño Southern Oscillation (ENSO) events and found that SPCAM tended to compare better in general with the observations. Although both versions of the model still feature substantial biases in simulating South African climate variables (rainfall, temperature, etc), the magnitude of the biases are generally smaller in the super parameterized CAM than the default CAM, suggesting that the implementation of the super parameterization in CAM improves the model performance and therefore seasonal climate prediction. / NRF

Clouds

Climate

551.6968

Clouds -- South Africa

Climate changes -- South Africa

Weather

Temperature

Climatology

Exploring the impacts of climate variability on urban food security in female headed households in KwaZulu-Natal, a study of Durban South Africa

Mkhondo, Penelope Sarona

January 2017

A thesis submitted to the Faculty of Science, University of the Witwatersrand, Johannesburg, in fulfilment of the requirements for the degree of Master of Science in Geography. 24 March 2017 / There is substantial evidence to show that the climate has been changing on various scales across the world. The change in climate conditions has had negative impacts for developing countries, particularly poorer communities who use climate-sensitive resources such as urban agriculture which is prone to extreme weather. It is evident that urban agriculture has become a major source of income for a lot of people and its contribution to household food security is significant and in many instances it is increasing. The MSc study investigated the implications of climate variability and change on food production focusing on urban agriculture. It was also of key interest to explore the different adaptive approaches that FHH employ in reducing the impacts thereof. The approach informing the study combined two approaches; firstly, the `bottom-up' participatory research undertaken in three communities namely Inanda, Ntuzuma and Kwamashu; secondly, a rapid appraisal of policies, programs and institutions. The results were then triangulated using a micro-action planning workshop and a consultation process. A total of 84 small scale farmers who are actively involved in subsistence farming participated in the research study. From the empirical findings it is evident that climate change has manifested itself in floods and droughts and has been ranked extremely prevalent and frequent by 75% and 86% of the overall responses from the three study sites. The combination of these two extreme events has had negative impacts on food production and food accessibility. However, it has been found that FHH use asset based adaptation to modify and adjust their livelihoods as a way of coping with established threats. The eThekwini municipality has developed the Municipal Climate Change Protection Programme (eTMCCPP) with the purpose to mainstream climate change adaptation in the general city planning and development framework as well as to harmonize local urban responses to climate variability. However, only 48% of the participants have received any form of assistance and support from the Municipality. More needs to be done to help build capacity at household level and improve livelihoods of the local community particularly of Female headed households. / MT 2017

Influence of climate change on flood and drought cycles and implications on rainy season characteristics in Luvuvhu River Catchment

Dagada, K.

18 September 2017

MESHWR / Department of Hydrology and Water Resources / This study dealt with the influence of climate variability on flood and drought cycles and implications on rainy season characteristics in Luvuvhu River Catchment (LRC) in Limpopo of South Africa. Extreme weather events resulting in hazards such as floods and droughts are becoming more frequent due to climate change. Extreme events affect rainy season characteristics and hence have an influence on water availability and agricultural production. Annual temperature was obtained from Water Research Commission for stations 0723485W, 0766628W and 0766898W from 1950-2013 were used to show/or confirm if there is climate variability in LRC. Daily rainfall data was obtained from SAWS for stations 0766596 9, 0766563 1, 0723485 6 and 0766715 5 were used to detect climate variability and determine the onset, duration and cessation of the rainy season. Streamflow data obtained from the Department of Water and Sanitation for stations A9H004, A9H012, and A9H001 for at least a period of 30 years for each station were used for climate variability detection and determination of flood and drought cycles. Influence of climate variability on floods and droughts and rainy season characteristic were determined in the area of study. Trends were evaluated for temperature, rainfall and streamflow data in the area of study using Mann Kendall (MK) and linear regression (LR) methods. MK and LR detected positive trends for temperature (maximum and minimum) and streamflow stations. MK and LR results of rainfall stations showed increasing trends for stations 0766596 9, and 0766563 1 whereas stations 0723485 6 and 0766715 5 showed decreasing trends. Standardized precipitation index (SPI) was used to determine floods and droughts cycles. SPI results have been classified either as moderately, severely and extremely dry or, moderately, very and extremely wet. This SPI analysis provides more details of dominance of distinctive dry or wet conditions for a rainy season at a particular station. Mean onset of rainfall varied from day 255 to 297, with 0766715 5 showing the earliest onset compared to the rest of the stations. Cessation of rainfall for most of the hydrological years was higher than the mean days of 88, 83 and 86 days in 0766596 9, 0766563 1 and 0723485 6 stations. Mean duration of rainfall varied from 102 to 128, with station 0766715 5 showing shortest duration of rainfall. The results of the study showed that the mean onset, duration and cessation were comparable for all stations except 0766715 5 which had lower values. The study also found that climate variability greatly affects onset, duration and cessation of rainfall during dry years. This led to late onset, early cessation and relatively short duration of the rainfall season. Communities within the catchment must be educated to practice activities such as conservation of indigenous plants, reduce carbon dioxide emissions.

Influence

Climate Change

Flood

Drought Cycles

Rainy seasons

632.10968257

Global temperature changes

Droughts -- South Africa -- Limpopo

Waether

Climatology -- South Africa -- Limpopo

Floods -- South Africa -- Limpopo

Adaptation strategies for climate change-induced household food and nutrition insecurity in smallholder maize farming within Thulamela Local Municipality, South Africa

Mahlawule, Khanyisa Dorris

18 September 2017

MRDV / Institute for Rural Development / See the attached abstract below

Climate change

Food and nutrition insecurity

Smallholder maize farming

Indigenous adaption strategies

338.140968257

Agriculture -- South Africa -- Limpopo

Crop yields -- South Africa -- Limpopo

Farms, Small -- South Africa -- Limpopo

Farms, Small -- South Africa -- Limpopo

Estimation of the emissions of gases from a two landfill sites using the LandGEM and Afvalzorg models: Case study of the Weltervenden (Polokwane) and Thohoyandou landfills

Njoku, Prince Obinna

21 September 2018

MENVSC / Department of Ecology and Resource Management / Over the years it has been observed that the solid waste sector has been an increasingly major contributor to the amount of Greenhouse gases (GHGs) in the atmosphere. To some extent a great chunk of these GHGs in the atmosphere is from Landfill gas (LFG). This study employs two theoretical models (LandGEM and Afvalzorg models) to estimate the amount of LFG emitted from Weltervenden and Thohoyandou landfill sites located in Limpopo province of South Africa. Furthermore, the study investigated the appropriate technique of the LFG utilisation as a source of electricity and the number of households using electricity. LFGcost model was used to estimate the cost and benefits related to the implementation of a LFG utilisation technology. Also, the possible health and environmental impacts of the landfill emissions on the people living closer to the landfill site were determined. The LandGEM model’s simulation concludes that CH4 and CO2 peaked in the year 2020 with values of 3.323 × 103 Mg/year and 9.118 × 103 Mg/year, respectively, for the Thohoyandou landfill. Results from the Afvalzorg model indicate that the CH4 peaked in the year 2020 with value of 3.501 × 103 Mg/year. Meanwhile the total emission of CH4 from 2005-2040 by the LandGEM and Afvalzorg models are 66200 Mg/year and 69768 Mg/year, respectively. However, for the Weltervenden landfill, the total LFG peaked in the year 2023 while the CH4 peak at 4061 Mg/year and 3128 Mg/year for LandGEM and Afvalzorg models, respectively. Furthermore, results from the cost analysis and benefits for the implementation of a LFG utilisation technology in both landfills show that the implementation of such a utilisation technology will be economically feasible considering the sale of t CO2 equivalent in the carbon market. However, without considering the sales of t CO2 equivalent, not all the LFG engines are economically feasible for both landfills. This study also shows that the residents living closer to the Thohoyandou landfill are at a higher risk of environmental pollution and could suffer negative impacts from the landfill than residents living far from the landfill site. However, the Weltervenden landfill did not have lots of communities living closer to the landfill and therefore it was not included in this study. / NRF

Estimation

Emissions

Gases

Landfill site

LandGEM

Afvalzorg

363.738740968257

Gases -- South Africa -- Limpopo

Waste gases -- South Africa -- Limpopo

Pollution -- South Africa -- Limpopo