J. M. Clark scite author profile

A 30,000-year paleotemperature record derived from noble gases dissolved in carbon-14-dated ground water indicates that the climate in lowland Brazil (Piaui Province, 7 degrees S, 41.5 degrees W; altitude, 400 meters) was 5.4 degrees +/- 0.6 degrees C cooler during the last glacial maximum than today. This result suggests a rather uniform cooling of the Americas between 40 degrees S and 40 degrees N. A 5.4 degrees C cooling of tropical South America is consistent with pollen records, snow line reconstructions, and strontium/calcium ratios and delta(18)O coral records but is inconsistent with the sea-surface temperature reconstruction of CLIMAP (Climate: Long-Range Investigation, Mapping and Prediction). On the basis of these results, it appears that the tropical Americas are characterized by a temperature sensitivity comparable to that found in higher latitudes.

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Implications of projected climate change for groundwater recharge in the western United States

Meixner

Manning

Stonestrom

et al. 2016

Journal of Hydrology

357

225

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Quantifying groundwater discharge to Cockburn River, southeastern Australia, using dissolved gas tracers ²²²Rn and SF₆

Cook

Lamontagne

Berhane

et al. 2006

Water Resources Research

177

218

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Groundwater discharge to the Cockburn River, southeast Australia, has been estimated from comparison of natural 222Rn activities in groundwater and river water, interpreted using a numerical flow model that simulates longitudinal radon activities as a function of groundwater inflow, hyporheic exchange, evaporation, gas exchange with the atmosphere, and radioactive decay. An injection of SF6 into the river to estimate the gas transfer velocity assisted in constraining the model. Previous estimates of groundwater inflow using 222Rn activities have not considered possible input of radon due to exchange between river water and water in the hyporheic zone beneath the streambed. In this paper, radon input due to hyporheic exchange is estimated from measurements of radon production by hyporheic zone sediments and rates of water exchange between the river and the hyporheic zone. Total groundwater inflow to the Cockburn River is estimated to be 18500 m3/d, although failure to consider hyporheic exchange would cause overestimation of the volume of groundwater inflow by approximately 70%.

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Temporal variation in natural methane seep rate due to tides, Coal Oil Point area, California

Boles¹,

Clark²,

Leifer³

et al. 2001

J. Geophys. Res.

132

128

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best accounted for by a pore activation model, whereby gas is released from small pores at low pressures but is inhibited at higher pressure. Pressure-dependent gas solubility changes are a less likely cause of flow variation. Our study implies that sea level differences, on a tidal timescale, can significantly change the gas seepage rate from sediments. Lower sea level in the last hundred thousand years would presumably allow higher gas loss from the sediment, assuming sufficient gas present, because of reduced hydrostatic pressure at the sediment-sea interface. The magnitude of this long-term change cannot be extrapolated from our tidal data.

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J. M. Clark

Cooling of Tropical Brazil (5°C) During the Last Glacial Maximum

Implications of projected climate change for groundwater recharge in the western United States

Quantifying groundwater discharge to Cockburn River, southeastern Australia, using dissolved gas tracers ²²²Rn and SF₆

Temporal variation in natural methane seep rate due to tides, Coal Oil Point area, California

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J. M. Clark

Cooling of Tropical Brazil (5°C) During the Last Glacial Maximum

Implications of projected climate change for groundwater recharge in the western United States

Quantifying groundwater discharge to Cockburn River, southeastern Australia, using dissolved gas tracers 222Rn and SF6

Temporal variation in natural methane seep rate due to tides, Coal Oil Point area, California

Contact Info

Product

Resources

About

Quantifying groundwater discharge to Cockburn River, southeastern Australia, using dissolved gas tracers ²²²Rn and SF₆