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Spatial variability of the Arctic Ocean's double-diffusive staircase (2017)

Shibley, Nicole C. ; Timmermans, Mary-Louise ; Carpenter, Jeffrey R. ; [et al.]

John Wiley & Sons

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Publication Date: 2022-05-25

Description: Author Posting. © American Geophysical Union, 2017. This article is posted here by permission of American Geophysical Union for personal use, not for redistribution. The definitive version was published in Journal of Geophysical Research: Oceans 122 (2017): 980–994, doi:10.1002/2016JC012419.

Description: The Arctic Ocean thermohaline stratification frequently exhibits a staircase structure overlying the Atlantic Water Layer that can be attributed to the diffusive form of double-diffusive convection. The staircase consists of multiple layers of O(1) m in thickness separated by sharp interfaces, across which temperature and salinity change abruptly. Through a detailed analysis of Ice-Tethered Profiler measurements from 2004 to 2013, the double-diffusive staircase structure is characterized across the entire Arctic Ocean. We demonstrate how the large-scale Arctic Ocean circulation influences the small-scale staircase properties. These staircase properties (layer thicknesses and temperature and salinity jumps across interfaces) are examined in relation to a bulk vertical density ratio spanning the staircase stratification. We show that the Lomonosov Ridge serves as an approximate boundary between regions of low density ratio (approximately 3–4) on the Eurasian side and higher density ratio (approximately 6–7) on the Canadian side. We find that the Eurasian Basin staircase is characterized by fewer, thinner layers than that in the Canadian Basin, although the margins of all basins are characterized by relatively thin layers and the absence of a well-defined staircase. A double-diffusive 4/3 flux law parametrization is used to estimate vertical heat fluxes in the Canadian Basin to be O(0.1) W m−2. It is shown that the 4/3 flux law may not be an appropriate representation of heat fluxes through the Eurasian Basin staircase. Here molecular heat fluxes are estimated to be between O(0.01) and O(0.1) W m−2. However, many uncertainties remain about the exact nature of these fluxes.

Description: National Science Foundation Division of Polar Programs

Description: 2017-08-08

Keywords: Arctic Ocean ; Double-diffusion ; Atlantic Water

Repository Name: Woods Hole Open Access Server

Type: Article

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Tournaments and Office Politics: Evidence from a Real Effort Experiment (2010)

Carpenter, Jeffrey ; Matthews, Peter Hans ; Schirm, John

American Economic Association

In: American Economic Review. 2010; 100(1): 504-517. Published 2010 Mar 01. doi: 10.1257/aer.100.1.504.

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Publication Date: 2010-03-01

Description: Tournaments can elicit more effort but sabotage may attenuate the effect of competition. Because it is hard to separate effort and ability, the evidence on tournaments is thin. There is even less evidence on sabotage because these acts often consist of subjective peer evaluation or “office politics.” We discuss real effort experiments in which quality adjusted output and office politics are compared under piece rates and tournaments and find that tournaments increase effort only in the absence of office politics. Competitors subvert each other more in tournaments, and as a result, workers produce less because they expect to be sabotaged. (D82, M54)

Print ISSN: 0002-8282

Electronic ISSN: 1944-7981

Topics: Economics

Published by American Economic Association

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A dynamic flight model for Slocum gliders and implications for turbulence microstructure measurements (2019)

Merckelbach, Lucas ; Berger, Anja ; Krahmann, Gerd ; [et al.]

AMS (American Meteorological Society)

In: Journal of Atmospheric and Oceanic Technology, 36 . pp. 281-296.

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Publication Date: 2022-01-31

Description: The turbulent dissipation rate ɛ is a key parameter to many oceanographic processes. Recently gliders have been increasingly used as a carrier for microstructure sensors. Compared to conventional ship-based methods, glider-based microstructure observations allow for long duration measurements under adverse weather conditions, and at lower costs. The incident water velocity U is an input parameter for the calculation of the dissipation rate. Since U can not be measured using the standard glider sensor setup, the parameter is normally computed from a steady-state glider flight model. As ɛ scales with U2 or U4, depending whether it is computed from temperature or shear microstructure, flight model errors can introduce a significant bias. This study is the first to use measurements of in-situ glider flight, obtained with a profiling Doppler velocity log and an electromagnetic current meter, to test and calibrate a flight model, extended to include inertial terms. Compared to a previously suggested flight model, the calibrated model removes a bias of approximately 1 cm s−1 in the incident water velocity, which translates to roughly a factor of 1.2 in estimates of the dissipation rate. The results further indicate that 90% of the estimates of the dissipation rate from the calibrated model are within a factor of 1.1 and 1.2 for measurements derived from microstructure temperature sensors and shear probes, respectively. We further outline the range of applicability of the flight model.

Type: Article , PeerReviewed

Format: text

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