Abstract This paper provides a summary of the research programme undertaken in support of the Low Level Waste Repository's 2011 environmental safety case (ESC). The programme has been developed, based on an understanding of safety issues and the requirements of the ESC. The research requirements to underpin the safety case have been identified by means of an auditable process, and subjected to scrutiny by both the regulators and a peer review group. Key research priorities for the future are identified.
Abstract Billions of people worldwide rely on groundwater. As rainfall in many regions in the future is projected to decrease, it is critical to understand the impacts of climate change on groundwater recharge. In this study, five caves record a consistent response to a sustained decrease in rainfall across southwest Australia that began in the late 1960s, characterised by a pronounced increase or ’uptick’ in dripwater and speleothem oxygen isotopic composition (δ18O). It is demonstrated that the uptick is in response to the shallow karst aquifers becoming disconnected from recharge due to regional drying. Our findings imply that rainfall recharge to groundwater across this region is no longer reliably occurring. Examination of the longer speleothem record shows that this is unprecedented over at least the last 800 years. A global network of cave dripwater monitoring would serve as an early warning of reduced groundwater recharge elsewhere, while evidence for upticks in speleothem paleoclimate records would provide a longer-term context to evaluate if current groundwater recharge changes are outside the range of natural variability. This study also validates speleothems as recorders of past hydroclimate via amplification of the δ18O signal by karst hydrology highlighting that speleothem δ18O are records of recharge, rather than a direct proxy for rainfall.
The present study focuses on the importance of visitors in Eagle Cave temperature, a tourist cavern in Avila, central Spain. Cave air temperature was measured during a year and natural and anthropogenic thermal effects were identified. Eagle Cave has a rather stable temperature around 15.6oC with an annual cycle which amplitude is <0.4oC. Recorded seasonality in the cave is related to external temperatures due to thermal conduction through the bedrock, with an expected delay of several years for the external signal to be transferred into the cave. The visitors cause increases in diurnal temperature up to 0.15oC, although thermal anomalies are normally recovered overnight. During vacation periods, where consecutive days with large number of visitors increases, thermal anomalies are prolonged for some days or weeks, with amplitudes <0.1oC. Although visitors have a daily impact on the cave temperature, the effect does not cause long term change in Eagle Cave temperature. The reason for this thermal mitigation is related to the high humidity of the environment, which causes the energy supplied by tourists to be partially transferred as latent heat via evaporation and condensation processes. The current condensation processes are insufficient to cause any discernible condensation corrosion that could be damaging recent stalagmites.
This chapter contains sections titled: Introduction Theoretical models of stalagmite growth and of stalagmite and stalactite shapes Geometrical classification of speleothems Mineralogy and petrology Synthesis
Abstract. We present results of a detailed study of drip rate variations at 12 drip discharge sites in Glory Hole Cave, New South Wales, Australia. Our novel time series analysis, using the wavelet synchrosqueezed transform, reveals pronounced oscillations at daily and sub-daily frequencies occurring in 8 out of the 12 monitored sites. These oscillations were not spatially or temporally homogenous, with different drip sites exhibiting such behaviour at different times of year in different parts of the cave. We test several hypotheses for the cause of the oscillations, including variations in pressure gradients between karst and cave due to cave breathing effects or atmospheric and earth tides, variations in hydraulic conductivity due to changes in viscosity of water with daily temperature oscillations, and solar-driven daily cycles of vegetative (phreatophytic) transpiration. We conclude that the only hypothesis consistent with the data and hydrologic theory is that daily oscillations are caused by solar-driven pumping by phreatophytic trees which are abundant at the site. The daily oscillations are not continuous and occur sporadically in short bursts (2–14 days) throughout the year due to non-linear modification of the solar signal via complex karst architecture. This is the first indirect observation leading to the hypothesis of tree water use in cave drip water. It has important implications for karst hydrology in regards to developing a new protocol to determine the relative importance of trends in drip rate, such as diurnal oscillations, and how these trends change over timescales of weeks to years. This information can also be used to infer karst architecture. This study demonstrates the importance of vegetation on recharge dynamics, information that will inform both process-based karst models and empirical estimation approaches. Our findings support a growing body of research exploring the impact of trees on speleothem paleoclimate proxies.
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