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Carbon encounters: cognizing the calculus of climate changeBattle, Angela January 2016 (has links)
Thesis (M.A. (Anthropology))--University of the Witwatersrand, Faculty of Humanities, School of Social Sciences, 2016. / Governments, like South Africa, are implementing carbon tax and carbon credit programs to incent businesses to lower their GHG emissions. That is not to say there are not loftier motivations in the wider world, but in this study we have mostly encountered Homo Economicus. Our observations have noted that people either want to make money or save money by way of participating in the green economy. Earth’s threatening posture is yet to change our “habitus”. The changes so far are from economic coercion and not ecological conviction. And it’s primarily prompted through the scientific community, who are understandably, the first responders to a threat with slow and mostly imperceptible reverberations. The responses of those trying to make money, involve participating in the process of carbon commodification. CERs are a new form of currency available to those able to deploy labor and capital in efforts to capture carbon molecules and prevent their creation. The looming South African carbon tax has spurred organizations to lower their emissions so as not to effect bottom-line profitability. [Taken from the conclusion. No abstract provided] / MT2017
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How is climate change incorporated into environmental impact assessments (EIAs) in South Africa?Aljareo, Abdulhakim 30 January 2015 (has links)
A research report submitted to the Faculty of Science, University of the Witwatersrand, Johannesburg, in partial fulfilment of the requirements for the degree of Master of Science by Coursework and Research Report. Johannesburg 2014. / Climate change is an issue of global significance resulting in trans-boundary environmental and socio-economic impacts. South Africa is involved in the international efforts to address climate change, has accepted the findings of the Intergovernmental Panel on Climate Change (IPCC) Assessment Report and developed a National Climate Change Response Policy, listing the impacts of climate change on the sustainable development in South Africa. The main causes of climate change are Greenhouse Gases (GHGs), which have been emitted from different development activities over temporal and spatial scales. In order to reduce the emissions of GHGs and protect proposed development projects from climate change impacts, climate change mitigation and adaptation measures should be incorporated into Environmental Impact Assessment (EIA). This research aimed to describe climate change incorporation into the EIA legal regime and practice in South Africa, based on climate change impacts on sustainable development and the role of EIA in considering climate change. The methodology involved reviewing EIA regulations and related legislation, EIA case studies from Gauteng province conducted between 2010 and 2013, key informant interviews with Environmental Assessment Practitioners (EAPs), and discussion on the linkedin group of the International Association for Impact Assessment of South Africa (IAIAsa). The study concluded that climate change is not explicitly incorporated into the EIA regime, but it is implied in the EIA regulations and related legislation. Largely as a result of the lack of climate change incorporation in the EIA legal regime, climate change is not adequately considered in the EIA practice. In order to support the contribution of EIA to sustainable development in South Africa, It is recommended that climate change should be incorporated into EIA regulations in the next amendment of NEMA. This can be done through including listed activities that require climate change incorporation into the EIA based on type of an activity and/or specific receiving environments. It is also suggested that EIA guidelines for climate change consideration be developed. Further recommendations include supporting the role that Strategic Environmental Assessment (SEA) and Environmental Management Framework (EMF) play, in conjunction with the EIA, in considering climate change; increasing the availability of accurate, local climate change data and modelling technology; developing staff capacity and awareness about climate change, and building EAP’s ability to incorporate climate change in the EIA through the support of government related authorities and associations such as IAIAsa and EAPSA.
Key words: climate change, EIA, mitigation, adaptation, EIA legal regime, EIA practice.
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Evaluation of future design rainfall extremes and characteristics using multiple-model and multiple-scenario climate change modelsUnknown Date (has links)
Climate models are common tools for developing design standards in the hydrologic field; however,
these models contain uncertainties in multi-model and scenario selections. Along with these uncertainties,
biases can be attached to the models. Such biases and uncertainties can present difficulties in predicting
future extremes. These hydrologic extremes are believed to be non-stationary in character. Only in the
recent past have model users come to terms that the current hydrologic designs are no longer relevant due
to their assumption of stationarity. This study describes a systematic method of selecting a best fit model in
relationship to location and time, along with the use of that best fit model for evaluation of future extremes.
Rain gage stations throughout Florida are used to collect daily precipitation data used in extreme precipitation and quantitative indices. Through these indices conclusions are made on model selection and
future extremes, as they relate to hydrologic designs. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2013.
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Assessment of clilmate change impacts on streamflow trends using a water balance modelUnknown Date (has links)
Significant changes in climate and their impacts are now visible in various places around the globe and are expected to become more evident in the coming decades. For each increase in temperature, there are environmental and societal consequences. It has important implications for existing water resources systems as well as for future water resources planning and management. Water accounting (identifying, quantifying and reporting information of water flow in a system) is the first step towards formulating productive and sustainable water management strategies in a region. Thus, water balance models could be an empowering tool for water resource managers to prepare for and mitigate the effects of climate change on their local hydrologic resources. This thesis offers an insight into how such a tool can be used to assess and predict future stream flow trends in an effort to mitigate or manage any potential effects. / by Kevin Matthews. / Thesis (M.S.C.S.)--Florida Atlantic University, 2012. / Includes bibliography. / Mode of access: World Wide Web. / System requirements: Adobe Reader.
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Reproductive response to elevated CO2 : the roles of vegetative carbon storage, nitrogen and seed traitsJablonski, Leanne M. January 1997 (has links)
No description available.
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Dust storm transport of pathogenic microbes to Viking Scandinavia : a query into possible environmental vectors or disease pathogenesis in a closed biological and ecological systemBoling, David Carter 11 June 2004 (has links)
This thesis is an integrated study that links several disciplines-archaeology,
anthropology, geography, atmospheric sciences, and
microbiology. It attempts to generate an argument that central to climate
change is disequilibrium in human ecologies- in my case, disease ecologies
in Iceland during the 15th century.
This thesis investigates the environment's effect on human adaptability.
The effect of the environment on Icelanders as they moved from settlement to
later periods was disquieting. The climate of the world was changing- moving
from the Medieval Warm Period to the colder Little Ice Age.
I analyze the disease ecology of the 15th century and also conduct an
archeological and cultural analysis of the Icelandic people, to show the
deficiencies in their adaptation, and submit that certain shortcomings in their
physical environment, as well as the inadequate adaptive synthesis to the
environment, led to a marginal adaptation. This was augmented by political
unrest and problems with outside trade, which left them vulnerable and
susceptible to disease pathogenesis.
I discuss the climate change during the Little Ice Age, and assert that
this event is the crucible that crushed Iceland after 400 years of reasonably
good fortune. Hundreds of epidemics, natural disasters, and hardships befall
the Icelanders. One of them is the plague, which comes twice in the 15th
century. The important observation here is that the epidemiological and
archeological evidence does not always match up. The principal problem is
that the traditional vector for the disease cannot have survived the climate as
it was in the winters during the LIA. I offer an analysis that pontificates this
issue and I examine the ongoing debate concerning The Black Death in
Europe.
I introduce another possible explanation: the introduction of disease
through environmental vectors. The creation of disease ecologies through
climate change is important, in light of problems that we face today. I discuss
the phenomenon of the dust storm and its connection to disease
pathogenesis.
By showing several key examples of dust from Africa to disease
pathogenesis in the Caribbean, I make the connection a good one. In addition
to this connection is the atmospheric analysis that shows incontrovertibly that
the dust found in Greenland ice cores is only from Asia. Finally, there is the
fact that the inveterate loci of the plague bacterium is located in the same
areas that Asian Dust Events occur and travel from.
I create a methodology for investigating this disease ecology and am
able to show that the pathogen can be identified in situ- meaning that it can
be found in geological deposits that can be properly dated. My pilot study
creates a methodology for the examination of ice cores- the principal reservoir
for atmospheric deposits made during the LIA.
Finally, I look at the aftermath. I introduce the idea of disease ecology,
as opposed to that of a healthy ecology, and suggest by the end of the thesis
that within the disease ecology are created many of the platforms for
emergent biological changes that translate through evolution over time.
Like the bacterium in the ice core, I suggest that evidence for disease
states in the history of a people can be found through laboratory techniques.
The presence of the CCR5 gene mutation is indicative of such a presence. I
believe that the presence of the delta 32 gene mutation found in Icelandic
people is the result of being exposed to the plague in the 15th century.
This thesis is a platform for future synoptic scale disease studies. / Graduation date: 2005
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Modeling the Inuit diet to minimize contaminant while maintaining nutrient intakesLi, Ying Chun, 1972- January 2006 (has links)
The Arctic environment is changing rapidly. The purposes of this study were: (1) to predict the possible changes of diet composition and the subsequent changes in nutrient intakes as a result of environmental changes; (2) to explore the possibility of minimizing the contaminant exposure while maintaining the energy and nutrient intakes using liner modeling. It was found that a decrease of 10% or 50% of caribou or ringed seal will result in decreases for many key nutrients such as protein, zinc, and iron. It is theoretically feasible to minimize each contaminant intake while maintaining energy and nutrients at the levels of the CINE dietary survey in 2000 for Inuit in the Inuvialuit, Kitikmeot, and Kivalliq regions. However, it is theoretically infeasible for Inuit in the Labrador and Baffin regions under other hypothetical conditions. The modeling results would be useful for Inuit to make informed food choice decisions.
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Climate change impacts on dietary nutrient status of Inuit in Nunavut, CanadaNancarrow, Tanya Lawrene. January 2007 (has links)
This thesis characterizes the nutritional implications of climate change impacts on the traditional food system of Inuit in Nunavut, Canada. Both focus groups and food frequency questionnaires were used in collaboration with two communities to describe current climate change impacts on traditional food and define nutrient intake. Currently, both communities experience climate-related changes to important species which provide high levels of key nutrients. If climate changes continue to impact traditional food species, serious nutritional losses may occur unless healthy alternatives can be found. Policy should support Inuit communities to maintain optimal nutrition in the face of climate change.
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Selection response to global change of Brassica juncea (L.) czernTousignant, Denise January 1993 (has links)
The potential for an adaptive response to global climatic change was evaluated for an annual C$ sb3$ weed, Brassica juncea, by performing a selection on fecundity for eight generations. During the selection, atmospheric carbon dioxide and temperature were gradually increased from current levels (370 $ rm mu L cdot L sp{-1}$ CO$ sb2$, 20$ sp circ$C) to conditions predicted during the next century by climate models (650 $ rm mu L cdot L sp{-1}$ CO$ sb2$, 23.6$ sp circ$C) including heat stress events at 32$ sp circ$C/26$ sp circ$C day/night), At the end of the selection, a reciprocal transplant experiment was conducted to identify genetic differences between control selection lines of plants and those selected under increasing CO$ sb2$ and temperature. I observed a genetic adaptation of early vegetative growth elevated CO$ sb2$ and temperature, which resulted in to 63% more biomass and 11% higher photosynthetic rates. Reproductive biomass, however, was decreased during the selection, mainly due to temperature stress, which disrupted flower development and induced strong maternal effects, counteracting the selection on fecundity.
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Conceptualisations and applications of eco-hydrological indicators under conditions of climate change.Barichievy, Kelvin Charles. January 2009 (has links)
Anthropogenically-induced climate change has the potential to have serious implications on aquatic ecosystems and may ultimately affect the supply and quality of freshwater lakes and rivers throughout the world. As a class of ecosystems, inland waters are vulnerable to climatic change and other pressures, due to their small size and their position in the landscape. There is therefore a need to assess the impact of projected climatic change on aquatic ecosystems. Owing to this need, ecological indicators have been developed as a method of quantifying, identifying, monitoring and managing the ecological integrity of aquatic environments. The aim of this research was to develop techniques in order to conceptualise the higher order impacts of projected climate change on environmentally related streamflows and water temperature in South Africa, and to simulate these using an appropriate hydrological model. For this dissertation the downscaled daily climate output from the ECHAM5/MPI-OM General Circulation Model (GCM) was used as an input into the daily time step conceptualphysical ACRU Agrohydrological Modelling System in order to simulate the impacts of projected climate change on selected eco-hydrological indicators at the Quinary Catchment spatial scale. In this research these indicators were grouped into two broad categories: 1. Ecological Flow Indicators and 2. Water Temperature Indicators. The results of this research took the form of maps and time series graphs. The ecological flow indicator results investigate the magnitude and duration of flow events and were analysed spatially for the 5 838 hydrologically interlinked and cascading Quinary Catchments constituting the southern Africa study region. The ECHAM5/MPI-OM GCM projects the magnitude and duration of both annual subcatchment runoff and accumulated streamflows to increase in the eastern parts of southern Africa for the intermediate future climate scenario (2046 - 2065), with this trend strengthening in the distant future climate scenario (2081 - 2100). The computationally intensive water temperature indicator results were analysed spatially at the scale of the Thukela Catchment. The Thukela catchment was selected as a case study area because of its diversity - in altitude, rainfall, soils and ecological regions, as well as in its population geography and levels of education and employment. This diversity presents a challenge to studies of impacts of projected climate change, including its potential impacts on water temperatures. The spatial analyses indicate that subcatchment runoff, accumulated streamflows and mixed maximum water temperature are all likely to increase under projected future climate conditions. A temporal investigation, in the form of time series analyses, focused on four water temperature indicators and was performed for 15 selected Quinary Catchments, located within the Thukela Catchment. These temporal analyses indicate that the absolute variability (i.e. standard deviation) of both individual subcatchment runoff and accumulated catchment streamflows, are projected to increase in the future, while the relative variability (i.e. coefficient of variation) is likely to remain much the same or even decrease slightly over time period. These temporal analyses also indicate that there is a noticeable difference in the mixed maximum water temperature within a single Quaternary Catchment due to hydrological flow routing, with an increase in water temperatures as the water cascades downstream from the upper Quinaries to the Quinaries at lower altitudes. The techniques developed and used in this research could aid decision makers involved in ecological and water management planning. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2009.
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