Walter D. Cox scite author profile

Walter D. Cox

2Publications

52Citation Statements Received

82Citation Statements Given

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Texas A&M University

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Measuring Aeolian Saltation: A Comparison of Sensors

Sherman¹,

Li²,

Farrell³

et al. 2011

Journal of Coastal Research

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SHERMAN, D.J.; LI, B.; FERRELL E.We report the results of fteld experiments designed to cotnpare four types of aeolian saltation setisors: the Saftre; the Wenglor® Particle Counter; the Miniphone; and the Buzzer Disc. Sets of sensors were deployed in tight spatial an-ays and sampled at rates as fast as 20 kHz. In two of the three trials, the data from the sensors are compared to data obtained from sand traps. The Miniphone and the Buzzer Disc, based on microphone and piezoelectric technologies, respectively, produced grain itnpact counts cotiiparable to those derived from the trap data. The Satire and the Wenglor® Particle Cottnter produce count rates that were an order of magnitude too slow. Satires undercount because of their large moinentum thteshold and because its signal is saturated at relatively slow transport rates. We conclude that the Miniphone and the Buzzer Disc are appropriate for deployment as grain counters because their stnall size allows them to be installed in closely-spaced sets.

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Discharge variability for an artesian spring of the Edwards Aquifer: Comal Springs (1933–2007)

Cox

Meng

Khedun

et al. 2009

Intl Journal of Climatology

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Daily discharge volumes of Comal Springs, the largest artesian spring of the Edwards Aquifer (EA) in Central Texas, were utilized to characterize the flow of Comal Springs for the period of record spanning . The influence of water extraction (pumping) on discharge characteristics during the record was examined and found to be statistically significant for both volume and variability of spring discharge (p < 0.01). Pumping explains approximately a quarter of the variation in annual discharge (r 2 = 0.25) and nearly a third of the daily variability (r 2 = 0.32) within the Comal Springs discharge record.Statistically significant teleconnections to flow are demonstrated within the discharge record of Comal Springs. The El Niño-Southern Oscillation (ENSO, as measured by the Southern Oscillation Index) and the Pacific Decadal Oscillation (PDO) are shown to exhibit statistically significant correlations with annual mean flow from Comal Springs. PDO modulation of ENSO results in mean flow anomalies of 21.9% between extreme quintile years. The Atlantic Multi-decadal Oscillation (AMO) appears to exert influence based on the magnitude of the index value, irrespective of its positive or negative condition (p < 0.01), with the highest quintile (based on magnitude) years correlating with strong positive flow anomalies. A composite index was developed which combines the AMO, PDO and SOI. The extreme quintile years of this index demonstrate a 32.4% divergence in flow (p < 0.01) while demonstrating a stronger skill at capturing negative flow anomalies than positive anomalies.Precipitation data, at 4-km spatial resolution, were utilized to examine the temporal and spatial correlation of water input to the EA with rates of average monthly discharge from Comal Springs. The spatial dependence of the correlation between precipitation and Comal Springs discharge indicates significant seasonal variability. Overall, the correlation between precipitation and discharge is significant for spring, summer and fall seasons and not significant for winter.

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Walter D. Cox

Measuring Aeolian Saltation: A Comparison of Sensors

Discharge variability for an artesian spring of the Edwards Aquifer: Comal Springs (1933–2007)

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