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Development of precipitation δ18O isoscapes for Canada and application within a tracer-aided hydrological modelDelavau, Carly J. January 2011 (has links)
Delineating spatial patterns of precipitation isotopes (“isoscapes”) is important for studies including the hydrology of terrestrial systems, present and past interpretations of climate, and tracer-aided hydrological modelling, among others. However, the extent to which precipitation isoscapes can be predicted across Canada has not been fully articulated. This thesis combines isotopes in precipitation (δ18Oppt) observations from two regional and one global network to create long term and time series precipitation isoscapes for Canada and the northern United States. Multi-linear regressions of a small suite of geographic and climate variables generate the best performing long-term and seasonal models of δ18Oppt. These models are used to develop long term isoscapes for Canada, which capture the general spatial and seasonal trends in δ18Oppt, showing an improvement upon results from previous studies using global models. Building upon long-term δ18Oppt prediction, δ18Oppt observations alongside climatological and geographic predictors are used to create empirical time series prediction models. Five regionalization approaches are used to separate the study domain into isotope zones to explore the effect of spatial grouping on simulations. Generally, the models capture the timing and magnitude of intra-annual (seasonal) δ18Oppt cycles across the study domain while simulating moderate inter-annual variation; however often fail to capture the anomalies in observed δ18Oppt. Uncertainty in predictions is quantified spatially and temporally, and the Köppen-Geiger (Kpn) regionalization is selected as the preferred regionalization scheme for future applications due to adequate model performance and lack of border issues at regional boundaries. Finally, estimates of monthly δ18Oppt from Kpn models, long term annual averages, and daily REMOiso output are used to force an isotope-enabled hydrological model, isoWATFLOOD, in the Fort Simpson Basin, NWT, Canada. Results show streamflow simulations are not significantly impacted by choice of δ18Oppt input; however, oxygen-18 in streamflow and the internal apportionment of water (and model parameterizations) are impacted, particularly during large precipitation and snowmelt events. This work shows how isoWATFLOOD can be used in regions with limited δ18Oppt observations, and that the model can be of value in such regions. This study reinforces that a tracer-aided modelling approach works towards diagnosing issues surrounding model equifinality. / February 2017
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Variability in Bioavailable<sup>87</sup>Sr/<sup>86</sup>Sr in the North American MidcontinentWidga, Chris, Douglas Walker, J., Boehm, Andrew 01 January 2017 (has links)
Strontium (Sr) isotope tracers are useful for understanding provenance and mobility in biological materials across multiple disciplines. However, the impact of these techniques is highly dependent on the construction of appropriate comparative baselines (i.e., an isoscape). We present the results of a systematic survey of87Sr/86Sr values from grasses in the North American Midcontinent with a particular emphasis on sedimentary systems. Although87Sr/86Sr values are highly variable across the region, the Sr isoscape shows multi-scalar patterns that are dependent on local-to-regional trends in surficial geology. High values are found in bedrock-dominated areas such as the Black Hills (SD) and Ozark Uplift (MO), or formerly glaciated areas where surface deposits are dominated by ice-transported Precambrian clasts. The lowest values are found in river valleys that incorporate eroded Neogene sediments into terrace formation. Intermediate values are found in upland loess and alluvial deposits which blanket much of the study area. We demonstrate trends in large-scale variability of the Midcontinent’s87Sr/86Sr isoscape and suggest that future refinement focus on sub-regional trends in Sr isotope variability.
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A Stable Isotope Approach to Investigative Ecohydrological Processes in NamibiaKaseke, Kudzai Farai 12 1900 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Drylands cover 40% of the earth’s terrestrial surface supporting over 2 billion
people, the majority of whom reside in developing nations characterised by high population
growth rates. This imposes pressure on the already limited water resources and in some
dryland regions such as southern Africa, the origins and dynamics of rainfall are not well
understood. Research has also tended to focus on factors limiting (e.g., rainfall) than
sustaining productivity in drylands. However, non-rainfall water (NRW) e.g., fog and dew
can supplement and/or exceed rainfall in these environments and could potentially be
exploited as potable water resources. Much remains unknown in terms of NRW formation
mechanisms, origins, evolution, potability and potential impact of global climate change
on these NRW dependent ecosystems.
Using Namibia as a proxy for drylands and developing nations, this dissertation
applies stable isotopes of water (δ2H, δ18O, δ17O and d-excess), cokriging and trajectory
analysis methods to understand ecohydrological processes. Results suggest that locally
generated NRW may be a regular occurrence even in coastal areas such as the Namib
Desert, and that what may appear as a single fog event may consist of different fog types
co-occurring. These results are important because NRW responses to global climate change
is dependent on the source, groundwater vs. ocean, and being able to distinguish the two
will allow for more accurate modelling. I also demonstrate, that fog and dew formation are
controlled by different fractionation processes, paving the way for plant water use strategy
studies and modelling responses to global climate change. The study also suggests that
current NRW harvesting technologies could be improved and that the potability of this
water could raise some public health concerns related to trace metal and biological
contamination. At the same time, the dissertation concludes that global precipitation
isoscapes do not capture local isotope variations in Namibia, suggesting caution when
applied to drylands and developing nations. Finally, the dissertation also reports for the
first time, δ17O precipitation results for Namibia, novel isotope methods to differentiate synoptic from local droughts and suggests non-negligible moisture contributions from the
Atlantic Ocean due to a possible sub-tropical Atlantic Ocean dipole.
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Migratory connectivity and carry-over effects in Northwest Atlantic loggerhead turtles (Caretta caretta, L.)Ceriani, Simona 01 January 2014 (has links)
Migration is a widespread and complex phenomenon in nature that has fascinated humans for centuries. Connectivity among populations influences their demographics, genetic structure and response to environmental change. Here, I used the loggerhead turtle (Caretta caretta, L.) as a study organism to address questions related to migratory connectivity and carry-over effects using satellite telemetry, stable isotope analysis and GIS interpolation methods. Telemetry identified foraging areas previously overlooked for loggerheads nesting in Florida. Next, I validated and evaluated the efficacy of intrinsic markers as a complementary and low cost tool to assign loggerhead foraging regions in the Northwest Atlantic Ocean (NWA), using both a spatially implicit and spatially explicit (isoscapes) approach. I then focused on the nesting beaches and developed a common currency for isotopic studies based on unhatched eggs, which provide a non-invasive and non-destructive method for more extensive sampling to elucidate isotopic patterns across broader spatiotemporal scales. Lastly, I found that intra-population variations in foraging strategies affect annual and long-term reproductive output of loggerheads nesting in Florida. Understanding geospatial linkages is critical to the fostering of appropriate management and conservation strategies for migratory species. My multi-faceted approach contributes to the growing body of literature exploring migratory connectivity and carry-over effects.
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