Simulation of climate-sedimentary evolution a comparison of climate model results to the geologic record for India and Australia /

Fawcett, Peter J.

January 1994

Thesis (Ph. D.)--Pennsylvania State University, 1994. / Vita. Includes bibliographical references.

Dynamics of the Laurentide Ice Sheet /

Carlson, Anders Eskil.

January 1900

Thesis (Ph. D.)--Oregon State University, 2006. / Printout. Includes bibliographical references (leaves [88-98]). Also available on the World Wide Web.

The role of local institutions in climate change adaptation in Salima District, Malawi

Msusa, Judith Mbumba

January 2012

Climate change is now real. Both scholars and scientists agree that the earth‟s climate is changing and therefore argue that developing countries of Africa and Asia, which are considered to be especially vulnerable because of their overdependence on climate sensitive resources and low adaptive capacity, should focus on adaptation programmes to build the capacity of affected communities to adapt to and cope with the effects of climatic change. But climate change adaptation programmes do not happen in a vacuum. Among other things they require proper institutional frameworks to succeed. The study therefore analyzed climatic events affecting Salima district in Malawi, the causes and effects of these climatic events, the nature and role of various institutions in climate change adaptation programmes in the district and the institutional coordination of players at different levels. The study findings reveal that the major climatic events affecting Salima district are droughts, floods, dry spells and hailstorms. Various institutions supporting and implementing climate change adaptation programmes and their roles are also highlighted. The study findings further reveals that weak coordination between institutions at all levels (national, district and community) is one of the challenges affecting effective implementation of climate change programmes. The study recommendations have therefore emphasized the need to review and strengthen climate change management structures at all levels.

Climatic changes -- Malawi

Climatic changes -- Social aspects

Community development

How will elevated atmospheric CO←2 affect species-rich grasslands?

Watson, Julie

January 1994

No description available.

628.53

Climatic change; Global warming

Turbulence and turbulent transport above and within coniferous forests

Irvine, Mark Rankin

January 1994

No description available.

551.5

Climatic change; Forest canopies

Environmental house planning in hot arid countries

Bakir, N. M. W.

January 1987

No description available.

720

Housing climatic design study

"It is windier nowadays" coastal livelihoods and changeable weather in Qeqertarsuaq

Tejsner, Pelle

January 2012

Coastal fishermen and whalers on the island of Qeqertarsuaq in Disko Bay, west Greenland, rely on the harvest of marine resources for the continuation of subsistence livelihoods. Over the years, however, Qeqertarsuarmiut have witnessed increasingly stringent whaling quotas and, more recently, a global crisis-narrative about climate change which ignores the reality of coastal livelihoods in the Arctic. In popular debates about whaling, aboriginal subsistence whalers (ASWs) are generally portrayed as 'uncivilised' while the climate crisis-narrative features arctic coastal dwellers as somehow more 'exposed' or 'vulnerable' to environmental fluctuations than the rest of the world. Qeqertarsuarmiut tell a different story about their relationship and ways of engaging with non-human persons (such as winds, sea ice and marine mammals) as these are encountered in the course of seasonal harvesting efforts along the coast and wider bay waters. So while ecological fluctuations have certainly been observed, interactions with a familiar coastal environment continue to foster a relationship that presupposes a sense of patience and flexibility towards shifting sea ice conditions, local weather vagaries and the moods of non- human persons and forces. Coastal dwellers attentiveness towards the liveliness of fiords, mulls and inlets is anchored in stories about both previous encounters, and contemporary experiences, with wilful environmental agents, which reflect an enduring ontology of openness towards the sea. The chapter argues that coastal - as opposed to crisis - narratives about Qeqertarsuarmiut seascape making reflect the complexities of arctic livelihoods in ways that conflict with imposed whaling regulations and the otherwise dominant vocabulary of risk associated with climate change in the Arctic today.

577.22

Climatic changes ; Inuit ; Whaling

Modelling the inorganic ocean carbon cycle under past and future climate change

Ewen, Tracy L.

10 April 2008

No description available.

Climatic changes

Carbon cycle (Biogeochemistry)

Expectation and experience of thermal comfort in transitional spaces : a field study of thermal environments in hot-humid climate of Bangkok

Jitkhajornwanich, Kitchai

January 1999

No description available.

720

Investigating the benefits an early green-up strategy can provide for two semi-arid savanna trees

Whitecross, Melissa Andrea

January 2017

A thesis submitted to the Faculty of Science, University of the Witwatersrand, Johannesburg in fulfilment of the requirements for the degree of Doctor of Philosophy, 2017 / Plant phenology, the study of the timing of biological events such as leaf flush, has been identified as a key tool in monitoring and understanding the impacts that changing climates may have on the world. Unfortunately there is a noticeable lack of phenological research in Africa’s savannas in comparison to other global ecosystems, such as temperate forests. Savannas are known for their complexity in structure and composition and the phenology of their flora is no exception to this. Owing to the highly seasonal climates in this system, plants have had to evolve a range of phenological strategies to cope with the limited window of suitable growth conditions during the periodic wet season in the austral summer. One of these phenological strategies is that of early-greening; where deciduous trees will produce new flush prior to the onset of seasonal rainfall when the environmental conditions are at their driest. There is likely no other ecosystem in the world where the early-greening phenomenon occurs, however, it has been recorded in savannas from Africa, Australia, Asia and South America. The global prevalence of this strategy suggests that early-greening trees must gain some benefit from utilising this seemingly risky leaf flushing strategy. The main aim of this study was to investigate two of the hypothesised benefits of an earlygreening strategy for semi-arid savanna trees. The first hypothesis suggested that earlygreeners are extending their growing season beyond that of grasses and late-greeners – whose leaf flush is limited by the availability of water through the onset of seasonal rainfall. The second hypothesis is that early-greeners produce new leaves ahead of the emergence of invertebrate herbivores with the onset of the first rains, therefore decreasing the risk of damage to the vulnerable tissues and allowing the defence mechanisms within/upon the leaf to develop. This study took place in the Nylsvley Nature Reserve (NNR) over three consecutive austral growing seasons (August 2012 to April 2015) and was conducted on the two dominant deciduous broad-leaved trees: Burkea africana and Terminalia sericea. Burkea africana is known to flush prior to the onset of seasonal rainfall and was considered the earlygreening species in this study. Terminalia sericea has been recorded as flushing leaves prior to the onset of rainfall, but is more often a facultative-greener – rapidly producing new leaves with the onset of seasonal rainfall. This study experienced high seasonal variability between years with early-greening only occurring during the final (2014-2015) season. Nevertheless, I was able to assess the weekly green-up phenology of both species during the first three months of green-up and found that the green-up of the trees was largely disconnected from the main system driver – water – while grass green-up was closely linked to the onset of rainfall. This complements the theory of temporal niche separation; however, when assessing the functionality of the new leaves produced, carbon gain only occurred after the first two weeks post bud-break. In a system such as the NNR where rainfall onset variability is high, trees will only gain the advantage of an extended growing season if the onset of rainfall is more than two weeks after the start of flush. Using historical rainfall records (1980-2014), I estimated that 46% of years could have potentially experienced early-greening with rainfall commencing after the 15th October – the earliest date of green-up prior to rainfall onset in the NNR during this study. One of the benefits tested relating to early-greening in this study was that early-greeners avoid invertebrate herbivore damage on vulnerable new leaves. This study provided evidence for the use of a phenological defence strategy to cope with invertebrate herbivory pressure. Leaves which emerged before the rains had lower rates of herbivore damage than those which emerged after. Moreover, it was demonstrated that the constant turnover of leaves with high photosynthetic rates (T. sericea) is a reasonable mechanism for dealing with high leaf herbivory, and can result in equivalent end of season leaf area (and carbon gain) to species which invest in defence and have slower turnover rates (B. africana). Using the ground-based phenological measures in conjunction with remotely sensed NDVI imagery, the frequency of early-greening across seven comparable broad-leaved woodland sites in southern Africa from 2002 to 2014 was quantified. Of the environmental variables considered, the predictability of early-season rain (rather than total rainfall amount) was best correlated with early-greening. In savannas where rainfall onset and annual amounts were highly variable (such as the NNR), early-greening was less frequent (20% of the years) while in savannas closer to the equator where rainfall amounts were consistently >900 mm per annum and the onset dates began within a two week window each season, early-greening occurred in 80-90% of all years. The decrease in the proportion of early-greening events in the NNR from the 1980s to the past decade could be driven by the changing rainfall regimes over South Africa – with a predicted decrease in the number of precipitation events, but an increase in the storm intensity and rainfall amounts in each of these events. Fewer precipitation events may increase the risks associated with the early-greening strategy and this may be driving the NNR trees to use this strategy less frequently. This study has highlighted the need for a long-term phenological monitoring network within southern Africa’s savannas and has illustrated how early-greening species can benefit over other flora when environmental conditions are suitable for them to commence early leaf flush. This thesis has shown that early-greening broad-leaved savannas trees in South African savannas are more likely to avoid invertebrate herbivory than extend their growing seasons. / XL2017

Climatic changes

Savannas

Savanna ecology