Global ETD Search

81	Geochemical exploration in arid and semi-arid environments Van Berkel, Ferdinand 02 April 2013 (has links) Anomalous element distributions within the regolith result from chemical adjustments of the earth's surface to prevailing climatic conditions. Because of the lack of moisture in the arid environment, chemical equilibrium related to paleoclimates is largely maintained. Mechanical or clastic dispersion dominates arid weathering and hence the exploration approach is largely dictated by the degree of preservation of the paleoregolith. Arid environment geochemists thus have to contend with surface materials ranging from laterite and calcrete in areas where the imprint of aridity is minimal, to more conventional sample media such as bedrock, stream sediment and lithic soils in actively dissecting areas. Extraction techniques are designed specifically to isolate clastic dispersion trains. Thick mantles of aeolian and water-borne overburden characterise desert lowlands and are a challenge to the exploration geochemist. Techniques showing the most promise in these areas include groundwater geochemistry, vapour geochemistry, surface microlayer geochemistry, geobotany and biogeochemistry which attempt to isolate gaseous and weak hydromorphic, ore-related trace-element dispersions. Termite mound sampling yields convincing results and appears to be an under-utilised geochemical approach. / KMBT_363 / Adobe Acrobat 9.53 Paper Capture Plug-in Geochemical prospecting Arid regions
82	Environmental factors affecting net CO2 assimilation in Cladonia alpestris (L.) Rabh. in the subarctic Carstairs, Anne Graham. January 1976 (has links) No description available. Lichens -- Arctic regions. Photosynthesis.
83	Sea ice in the Canadian Arctic Archipelago Lindsay, D. G. (Donald Gordon) January 1968 (has links) No description available. Sea ice -- Arctic regions
84	Controls on CO2 exchange in Arctic Polytrichum mosses Sveinbjörnsson, Bjartmar. January 1979 (has links) Note: Mosses -- Arctic regions.
85	An investigation of cumulative precipitation trends prior to Mississippi early season wildfires Eschete, Heather Sophia 02 May 2009 (has links) Mississippi’s landscape is comprised of sixtyive percent forest and is a vital artery for the state economy. Each year, an average of 4,000 wildfires occur that burn more than 60,000 acres statewide. This study examines correlations of cumulative precipitation for Mississippi’s nine physiographic regions during 1991– 2005 with total number of acres burned during peak wildfire season in Mississippi. Statistical analyses suggests that significant correlations exist between the cumulative precipitation at one, two, and three months prior to Mississippi’s early wildfire season and the total number of acres burned and the total number of fires. These findings, in conjunction with ongoing Mississippi wildfire research, may be incorporated into a potential predictive fire risk model for the state of Mississippi. wildfires physiographic regions
86	Marine bivalve molluscs of the Canadian arctic. Lubinsky, Irene. January 1972 (has links) No description available. Mollusks -- Arctic regions
87	Seasonal cycles, population dynamics, and production of copepods in the Arctic. Cairns, Alan Andrew January 1969 (has links) No description available. Crustacea -- Arctic regions. Copepoda.
88	Studies in the Arctic plankton, comprising a faunistic survey of certain of the marine planktonic groups collected in the Canadian eastern arctic, and an investigation of the breeding cycles of five of the most important species in the eastern arctic and in west Greenland. --. Dunbar, M. J. (Maxwell John). January 1941 (has links) No description available. Marine plankton -- Arctic regions.
89	Bacterial dynamics in two high arctic lakes. Morgan, Keith January 1971 (has links) No description available. Freshwater biology -- Arctic regions. Bacteria
90	Polar middle atmosphere dynamics Dowdy, Andrew J. January 2005 (has links) The dynamics of the polar mesosphere and lower thermosphere ( MLT ) is investigated using MF radars at Davis ( 69 ° S, 78 ° E ), Syowa ( 69 ° S, 40 ° E ) and Rothera ( 68 ° S, 68 ° W ) in the Antarctic, and Poker Flat ( 65 ° N, 147 ° W ) and Andenes ( 69 ° N, 16 ° E ) in the Arctic. Mean winds and gravity waves are investigated on a climatological scale and also during sudden stratospheric warmings. Mean wind climatologies in the MLT show differences that are often hemispheric in nature. For example, summer peaks in westward and equatorward winds occur earlier ( closer to the solstice ) in the Antarctic than in the Arctic. The greater symmetry around the solstice of phenomena such as these indicates that radiative effects may play a greater role in controlling the state of the Antarctic MLT than in the Arctic, where dynamical effects might be more important. Gravity wave observations are consistent with this theory, suggesting more wave drag may occur in the Arctic MLT. The equatorward jet persists for about 2 weeks later in summer in the Arctic than in the Antarctic, as do satellite observations of polar mesospheric clouds ( PMCs ) ( a temperature dependent phenomenon ). It is proposed that the meridional winds can be used as a proxy for gravity wave driving and consequent adiabatic cooling in the MLT. VHF radar observations of polar mesospheric summer echoes ( PMSEs ) at Davis, and the satellite PMC observations, both occur at a similar time to the equatorward jet. Seasonal variations in gravity wave activity are generally a combination of annual ( with winter maxima and summer minima ) and semi - annual ( with maxima near the solstices and minima near the equinoxes ) components. The winter maxima and spring / summer minima both occur about 3 weeks later in the Antarctic than in the Arctic, with the difference in magnitude between these extrema being about 90 % larger in the Antarctic. The available MF radar data include six major sudden stratospheric warmings in the northern hemisphere, and the unprecedented southern event which occurred during 2002 splitting the Antarctic ozone hole apart. Three of the six northern events are relatively weak and could almost be classed as minor warmings, while the larger three are similar in strength and duration to the southern event. Gravity wave activity reduces dramatically at Davis during the southern event, but not at Syowa ( possibly due to differences in critical level filtering ). The influence of major warmings on mesospheric gravity wave strength and polarisation varies significantly between locations, and individual events. Zonal wind reversals associated with the large major warmings are all weaker and occur earlier in the mesosphere than in the stratosphere. Another hemispherically common response is zonal wave - 1 planetary wave signatures in the mesospheric meridional winds ( i.e., a flow over the pole ). The planetary wave signatures have 14 - day periodicity and are westward propagating leading up to the southern event. The zonal winds are weaker than average during the 2002 southern winter, and also during the transition to the summer circulation. This is not seen for the large northern major warmings. There appears to be both hemispheric similarities and differences in polar middle atmosphere dynamics during stratospheric warmings, and also on a climatological scale. / Thesis (Ph.D.)--School of Chemistry and Physics, 2005.

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