Diurnal variations of temperature as a cause of periodic variations of high-frequency geoacoustic emission

Abstract Ozone is generally assumed to have weak diurnal variations in the free troposphere due to lower production rates than in the boundary layer, in addition to a much lower NO titration and the absence of dry deposition at the surface. However, this hypothesis has not been proven due to a lack of high frequency observations at multiple times per day. For the first time, we take benefit from the frequent O3 vertical profiles measured above Frankfurt in the framework of the MOZAIC-IAGOS program to investigate the diurnal variations of O3 mixing ratios at multiple pressure levels throughout the troposphere. With about 21,000 aircraft profiles between 1994 and 2012 (98 per month on average), distributed throughout the day, this is the only dataset that can allow such a study. As expected, strong diurnal variations are observed close to the surface, in particular during spring and summer (enhanced photochemistry and surface deposition). Higher in altitude, our observations show a decrease of the diurnal cycle, with no diurnal cycle discernible above 750 hPa, whatever the season. Similar results are observed for the different percentiles of the O3 distribution (5th, 25th, 50th, 75th, 95th). An insight of the changes of the diurnal cycles between 1994–2003 and 2004–2012 is also given. We found higher O3 mixing ratios during the latter period, particularly on the lowest pressure levels, despite lower mixing ratios during summer.

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Adaptive Threshold Scheme for Pulse Detection under Condition of Background Nonstationary Noise

Journal of Physics Conference Series ◽

10.1088/1742-6596/2096/1/012019 ◽

2021 ◽

Vol 2096 (1) ◽

pp. 012019

Author(s):

A O Shcherbina ◽

O O Lukovenkova ◽

A A Solodchuk

Keyword(s):

High Frequency ◽

Background Noise ◽

Signal Amplitude ◽

Threshold Value ◽

Adaptive Threshold ◽

Threshold Scheme ◽

Pulse Detection ◽

Geoacoustic Emission ◽

Time Parameters ◽

Frequency Pulse

Abstract The paper describes a new adaptive threshold scheme for detecting pulses in high-frequency signals against a background of non-stationary noise. The result of the scheme operation is to determine the pulse boundaries by comparing the signal amplitude-time parameters with the threshold. The threshold value is calculated in non-overlapping windows of fixed length and depends only on the background noise level. The detected pulses undergo additional shape checking, taking into account their characteristics. The parameters of the algorithms for detecting pulses and checking their shape can be adjusted for any type of high-frequency pulse signals. This threshold scheme is tuned to detect pulses in high frequency geoacoustic emission signals. The results of the scheme operation on an artificial signal and on fragments of a geoacoustic signal are given, a comparison is made between the proposed scheme and the previously used (outdated) one. The new threshold scheme proposed by the authors is less sensitive to the choice of the initial threshold value and it is more stable in operation. When processing 15-minute fragments of a geoacoustic signal, the new scheme correctly detects, on average, 5 times more pulses.

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Anomaly in high-frequency geoacoustic emission as a close earthquake precursor

Acoustical Physics ◽

10.1134/s1063771008010120 ◽

2008 ◽

Vol 54 (1) ◽

pp. 82-93 ◽

Cited By ~ 12

Author(s):

V. A. Gordienko ◽

T. V. Gordienko ◽

N. V. Krasnopistsev ◽

A. V. Kuptsov ◽

I. A. Larionov ◽

...

Keyword(s):

High Frequency ◽

Earthquake Precursor ◽

Geoacoustic Emission

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Maturation of the homeothermic response of heart rate to altered ambient temperature in developing chick hatchlings (Gallus gallus domesticus)

AJP Regulatory Integrative and Comparative Physiology ◽

10.1152/ajpregu.00316.2003 ◽

2004 ◽

Vol 286 (1) ◽

pp. R129-R137 ◽

Cited By ~ 9

Author(s):

A. H. Khandoker ◽

K. Fukazawa ◽

E. M. Dzialowski ◽

W. W. Burggren ◽

H. Tazawa

Keyword(s):

Heart Rate ◽

Ambient Temperature ◽

High Frequency ◽

Room Temperature ◽

Diurnal Variations ◽

Gallus Domesticus ◽

Gallus Gallus Domesticus ◽

Sinus Arrhythmia ◽

High Frequency Oscillations ◽

Instantaneous Heart Rate

On the basis of evidence showing that instantaneous heart rate (IHR) of chick hatchlings responds to exposure to altered ambient temperature (Ta; Tazawa H, Moriya K, Tamura A, and Akiyama R. Comp Biochem Physiol A 131A: 797-803, 2002), we elucidate here the developmental timeline for the homeothermic response of HR in newly hatched chicks ( days 0-7) maintained at room temperature (∼24-27°C). Hatchlings were exposed to Ta of 25, 35, and 25°C for 1-h periods, respectively, and IHR was measured together with skin temperature (Ts) during this warming and cooling bout. Early 0-day-old (0 day) chicks responded to warming and cooling exposures with various changes in HR baseline. In newly hatched chicks (0-7 h old), HR baseline was elevated during warming (Δ126 beats/min, n = 13) and declined during cooling (-Δ94 beats/min). With progress of development on day 0, the elevation of HR baseline during warming decreased and advanced 0-day chicks tended to decrease HR baseline during warming rather than increase HR. The more developed 1- to 7-day-old chicks exhibited the expected homeothermic decrease in HR during warming. The diurnal variations of HR responses during warming and cooling on the first day of post-egg life indicate that pronounced development of thermoregulatory competence occurs during the day of hatching ( day 0). The response of IHR fluctuations to altered Ta was observed in the form of low- and high-frequency oscillations. High-frequency oscillations corresponding to respiratory sinus arrhythmia developed as the hatchlings aged. There was a significant increase in the number of chicks exhibiting both low- and high-frequency oscillations that depended on age and the development of thermoregulatory competence of hatchlings.

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