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1. The Polar Stratosphere of Jupiter

Author

Hue, Vincent, Cavalié, Thibault, Sinclair, James A., Zhang, Xi, Benmahi, Bilal, Rodríguez-Ovalle, Pablo, Giles, Rohini S., Stallard, Tom S., Johnson, Rosie E., Dobrijevic, Michel, Fouchet, Thierry, Greathouse, Thomas K., Grodent, Denis C., Hueso, Ricardo, Mousis, Olivier, and Nixon, Conor A.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

Observations of the Jovian upper atmosphere at high latitudes in the UV, IR and mm/sub-mm all indicate that the chemical distributions and thermal structure are broadly influenced by auroral particle precipitations. Mid-IR and UV observations have shown that several light hydrocarbons (up to 6 carbon atoms) have altered abundances near Jupiter's main auroral ovals. Ion-neutral reactions influence the hydrocarbon chemistry, with light hydrocarbons produced in the upper stratosphere, and heavier hydrocarbons as well as aerosols produced in the lower stratosphere. One consequence of the magnetosphere-ionosphere coupling is the existence of ionospheric jets that propagate into the neutral middle stratosphere, likely acting as a dynamical barrier to the aurora-produced species. As the ionospheric jets and the background atmosphere do not co-rotate at the same rate, this creates a complex system where chemistry and dynamics are intertwined. The ion-neutral reactions produce species with a spatial distribution following the SIII longitude system in the upper stratosphere. As these species sediment down to the lower stratosphere, and because of the progressive dynamical decoupling between the ionospheric flows and the background atmosphere, the spatial distribution of the auroral-related species progressively follows a zonal distribution with increasing pressures that ultimately produces a system of polar and subpolar hazes that extends down to the bottom of the stratosphere. This paper reviews the most recent work addressing different aspects of this environment., Comment: Accepted for publication in Space Science Reviews. 65 pages, 20 figures (including appendix)

Published
2024
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2. Evidence for auroral influence on Jupiter's nitrogen and oxygen chemistry revealed by ALMA

Author

Cavalié, Thibault, Rezac, Ladislav, Moreno, Raphael, Lellouch, Emmanuel, Fouchet, Thierry, Benmahi, Bilal, Greathouse, Thomas K., Sinclair, James A., Hue, Vincent, Hartogh, Paul, Dobrijevic, Michel, Carrasco, Nathalie, and Perrin, Zoé

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

The localized delivery of new long-lived species to Jupiter's stratosphere by comet Shoemaker-Levy 9 in 1994 opened a window to constrain Jovian chemistry and dynamics by monitoring the evolution of their vertical and horizontal distributions. However, the spatial distributions of CO and HCN, two of these long-lived species, had never been jointly observed at high latitudinal resolution. Atacama large millimeter/submillimeter array observations of HCN and CO in March 2017 show that CO was meridionally uniform and restricted to pressures lower than 3 $\pm$ 1 mbar. HCN shared a similar vertical distribution in the low- to mid-latitudes, but was depleted at pressures between 2$^{+2}_ {-1}$ and 0.04$^{+0.07}_{-0.03}$ mbar in the aurora and surrounding regions, resulting in a drop by two orders of magnitude in column density. We propose that heterogeneous chemistry bonds HCN on large aurora-produced aerosols at these pressures in the Jovian auroral regions causing the observed depletion., Comment: 13 pages, 8 figures

Published
2024
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3. Temperature and composition disturbances in the southern auroral region of Jupiter revealed by JWST/MIRI

Author

Rodríguez-Ovalle, Pablo, Fouchet, Thierry, Guerlet, Sandrine, Cavalié, Thibault, Hue, Vincent, López-Puertas, Manuel, Lellouch, Emmanuel, Sinclair, James A., de Pater, Imke, Fletcher, Leigh N., Wong, Michael H., Harkett, Jake, Orton, Glenn S., Hueso, Ricardo, Sánchez-Lavega, Agustín, Stallard, Tom S., Bockelee-Morvan, Dominique, King, Oliver, Roman, Michael T., and Melin, Henrik

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

Jupiters south polar region was observed by JWST Mid Infrared Instrument in December 2022. We used the Medium Resolution Spectrometer mode to provide new information about Jupiters South Polar stratosphere. The southern auroral region was visible and influenced the atmosphere in several ways. 1: In the interior of the southern auroral oval, we retrieved peak temperatures at two distinct pressure levels near 0.01 and 1 mbar, with warmer temperatures with respect to non auroral regions of 12 pm 2 K and 37 pm 4 K respectively. A cold polar vortex is centered at 65S at 10 mbar. 2: We found that the homopause is elevated to 590+25-118 km above the 1-bar pressure level inside the auroral oval compared to 460+60-50 km at neighboring latitudes and with an upper altitude of 350 km in regions not affected by auroral precipitation. 3: The retrieved abundance of C2H2 shows an increase within the auroral oval, and it exhibits high abundances throughout the polar region. The retrieved abundance of C2H6 increases towards the pole, without being localized in the auroral oval, in contrast with previous analysis. We determined that the warming at 0.01 mbar and the elevated homopause might be caused by the flux of charged particles depositing their energy in the South Polar Region. The 1 mbar hotspot may arise from adiabatic heating resulting from auroral driven downwelling. The cold region at 10 mbar may be caused by radiative cooling by stratospheric aerosols. The differences in spatial distribution seem to indicate that the hydrocarbons analyzed are affected differently by auroral precipitation.

Published
2024
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4. Investigating Thermal Contrasts Between Jupiter's Belts, Zones, and Polar Vortices with VLT/VISIR

Author

Bardet, Deborah, Donnelly, Padraig T., Fletcher, Leigh N., Antuñano, Arrate, Roman, Michael T., Sinclair, James A., Orton, Glenn S., Tao, Chihiro, Rogers, John H., Melin, Henrik, and Harkett, Jake

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

Using images at multiple mid-infrared wavelengths, acquired in May 2018 using the VISIR instrument on ESO's Very Large Telescope (VLT), we study Jupiter's pole-to-pole thermal, chemical and aerosol structure in the troposphere and stratosphere. We confirm that the pattern of cool and cloudy anticyclonic zones and warm cloud-free cyclonic belts persists throughout the mid-latitudes, up to the polar boundaries, and evidence a strong correlation with the vertical maximum windshear and the locations of Jupiter's zonal jets. At high latitudes, VISIR images reveal a large region of mid-infrared cooling poleward $\sim$64$^{\circ}$N and $\sim$67$^{\circ}$S extending from the upper troposphere to the stratosphere, co-located with the reflective aerosols observed by JunoCam, and suggesting that aerosols play a key role in the radiative cooling at the poles. Comparison of zonal-mean thermal properties and high-resolution visible imaging from Juno allows us to study the variability of atmospheric properties as a function of altitude and jet boundaries, particularly in the cold southern polar vortex. However, the southern stratospheric polar vortex is partly masked by a warm mid-infrared signature of the aurora. Co-located with the southern main auroral oval, this warming results from the auroral precipitation and/or joule heating which heat the atmosphere and thus cause a significant stratospheric emission. This high emission results from a large enhancement of both ethane and acetylene in the polar region, reinforcing the evidence of enhanced ion-related chemistry in Jupiter's auroral regions.

Published
2024

5. Inland navigation and land use interact to impact European freshwater biodiversity

Author

Sexton, Aaron N., Beisel, Jean-Nicolas, Staentzel, Cybill, Wolter, Christian, Tales, Evelyne, Belliard, Jérôme, Buijse, Anthonie D., Martínez Fernández, Vanesa, Wantzen, Karl M., Jähnig, Sonja C., Garcia de Leaniz, Carlos, Schmidt-Kloiber, Astrid, Haase, Peter, Forio, Marie Anne Eurie, Archambaud, Gait, Fruget, Jean-François, Dohet, Alain, Evtimova, Vesela, Csabai, Zoltán, Floury, Mathieu, Goethals, Peter, Várbiró, Gábor, Cañedo-Argüelles, Miguel, Larrañaga, Aitor, Maire, Anthony, Schäfer, Ralf B., Sinclair, James S., Vannevel, Rudy, Welti, Ellen A. R., and Jeliazkov, Alienor

Published
2024
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6. Long term variability of Jupiter's northern auroral 8-micron CH4 emissions

Author

Sinclair, James A., West, Robert, Barbara, John M., Tao, Chihiro, Orton, Glenn S., Greathouse, Thomas K., Giles, Rohini S., Grodent, Denis, Fletcher, Leigh N., and Irwin, Patrick G. J.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

We present a study of the long term variability of Jupiter's mid-infrared auroral CH4 emissions. 7.7 - 7.9 micron images of Jupiter recorded by Earth-based telescopes over the last three decades were collated in order to quantify the magnitude and timescales over which the northern auroral hotspot's CH4 emissions varies. We find that the ratio of the radiance of the poleward northern auroral emissions to a lower-latitude zonal mean, henceforth 'Relative Poleward Radiance' or RPR, exhibits a 37% variability over a range of timescales. We searched for patterns of variability in order to test whether seasonally-varying solar insolation, the 11-year solar cycle, or short-term solar wind variability at Jupiter's magnetopause could explain the observed evolution. The variability of the RPR exhibits a weak (r < 0.2) correlation with the solar insolation received at Jupiter's high-northern latitudes. This rules out the hypothesis suggested in previous work (e.g. Sinclair et al., 2017a) that shortwave solar heating of aurorally-produced haze particles is the dominant heating mechanism in the lower stratosphere. We also find the variability exhibits negligible (r < 0.18) correlation with the monthly-mean sunspot number, which rules out variability associated with the solar cycle. On shorter timescales, we find moderate correlations of the RPR with solar wind conditions at Jupiter in the preceding days before images were recorded. For example, we find correlations of r = 0.45 and r = 0.51 of the RPR with the mean and standard deviation on the solar wind dynamical pressure in the preceding 7 days. The moderate correlation suggests that either: 1) only a subset of solar wind compressions lead to brighter, poleward, CH4 emissions and/or 2) a subset of CH4 emission brightening events are driven by internal magnetospheric and independent of the solar wind.

Published
2023

7. Time series of freshwater macroinvertebrate abundances and site characteristics of European streams and rivers

Author

Welti, Ellen A. R., Bowler, Diana E., Sinclair, James S., Altermatt, Florian, Álvarez-Cabria, Mario, Amatulli, Giuseppe, Angeler, David G., Archambaud, Gaït, Arrate Jorrín, Iñaki, Aspin, Thomas, Azpiroz, Iker, Baker, Nathan Jay, Bañares, Iñaki, Barquín Ortiz, José, Bodin, Christian L., Bonacina, Luca, Bonada, Núria, Bottarin, Roberta, Cañedo-Argüelles, Miguel, Csabai, Zoltán, Datry, Thibault, de Eyto, Elvira, Dohet, Alain, Domisch, Sami, Dörflinger, Gerald, Drohan, Emma, Eikland, Knut A., England, Judy, Eriksen, Tor E., Evtimova, Vesela, Feio, Maria J., Ferréol, Martial, Floury, Mathieu, Forcellini, Maxence, Forio, Marie Anne Eurie, Fornaroli, Riccardo, Friberg, Nikolai, Fruget, Jean-François, Garcia Marquez, Jaime R., Georgieva, Galia, Goethals, Peter, Graça, Manuel A. S., House, Andy, Huttunen, Kaisa-Leena, Jensen, Thomas Correll, Johnson, Richard K., Jones, J. Iwan, Kiesel, Jens, Larrañaga, Aitor, Leitner, Patrick, L’Hoste, Lionel, Lizée, Marie-Hélène, Lorenz, Armin W., Maire, Anthony, Manzanos Arnaiz, Jesús Alberto, Mckie, Brendan, Millán, Andrés, Muotka, Timo, Murphy, John F., Ozolins, Davis, Paavola, Riku, Paril, Petr, Peñas Silva, Francisco Jesús, Polasek, Marek, Rasmussen, Jes, Rubio, Manu, Sánchez Fernández, David, Sandin, Leonard, Schäfer, Ralf B., Schmidt-Kloiber, Astrid, Scotti, Alberto, Shen, Longzhu Q., Skuja, Agnija, Stoll, Stefan, Straka, Michal, Stubbington, Rachel, Timm, Henn, Tyufekchieva, Violeta G., Tziortzis, Iakovos, Uzunov, Yordan, van der Lee, Gea H., Vannevel, Rudy, Varadinova, Emilia, Várbíró, Gábor, Velle, Gaute, Verdonschot, Piet F. M., Verdonschot, Ralf C. M., Vidinova, Yanka, Wiberg-Larsen, Peter, and Haase, Peter

Published
2024
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8. Multi-decadal improvements in the ecological quality of European rivers are not consistently reflected in biodiversity metrics

Author

Sinclair, James S., Welti, Ellen A. R., Altermatt, Florian, Álvarez-Cabria, Mario, Aroviita, Jukka, Baker, Nathan J., Barešová, Libuše, Barquín, José, Bonacina, Luca, Bonada, Núria, Cañedo-Argüelles, Miguel, Csabai, Zoltán, de Eyto, Elvira, Dohet, Alain, Dörflinger, Gerald, Eriksen, Tor E., Evtimova, Vesela, Feio, Maria J., Ferréol, Martial, Floury, Mathieu, Forio, Marie Anne Eurie, Fornaroli, Riccardo, Goethals, Peter L. M., Heino, Jani, Hering, Daniel, Huttunen, Kaisa-Leena, Jähnig, Sonja C., Johnson, Richard K., Kuglerová, Lenka, Kupilas, Benjamin, L’Hoste, Lionel, Larrañaga, Aitor, Leitner, Patrick, Lorenz, Armin W., McKie, Brendan G., Muotka, Timo, Osadčaja, Diana, Paavola, Riku, Palinauskas, Vaidas, Pařil, Petr, Pilotto, Francesca, Polášek, Marek, Rasmussen, Jes J., Schäfer, Ralf B., Schmidt-Kloiber, Astrid, Scotti, Alberto, Skuja, Agnija, Straka, Michal, Stubbington, Rachel, Timm, Henn, Tyufekchieva, Violeta, Tziortzis, Iakovos, Vannevel, Rudy, Várbíró, Gábor, Velle, Gaute, Verdonschot, Ralf C. M., Vray, Sarah, and Haase, Peter

Published
2024
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9. A high spatial and spectral resolution study of Jupiter's mid-infrared auroral emissions and their response to a solar wind compression

Author

Sinclair, James A, Greathouse, Thomas K, Giles, Rohini S, Lacy, John, Moses, Julianne, Hue, Vincent, Grodent, Denis, Bonfond, Bertrand, Tao, Chihiro, Cavalié, Thibault, Dahl, Emma K, Orton, Glenn S, Fletcher, Leigh N, and Irwin, Patrick G J

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

We present mid-infrared spectroscopy of Jupiter's mid-to-high latitudes using Gemini-North/TEXES (Texas Echelon Cross Echelle Spectrograph) on March 17-19, 2017. These observations capture Jupiter's hydrocarbon auroral emissions before, during and after the arrival of a solar wind compression on March 18th, which highlights the coupling between the polar stratosphere and external space environment. In comparing observations on March 17th and 19th, we observe a brightening of the CH$_4$, C$_2$H$_2$ and C$_2$H$_4$ emissions in regions spatially coincident with the northern, duskside main auroral emission (henceforth, MAE). In inverting the spectra to derive atmospheric information, we determine that the duskside brightening results from an upper stratospheric (p < 0.1 mbar/z > 200 km) heating (e.g. $\Delta T$ = 9.1 $\pm$ 2.1 K at 9 $\mu$bar at 67.5$^\circ$N, 162.5$^\circ$W) with negligible heating at deeper pressures. Our interpretation is that the arrival of the solar wind enhancement drove magnetospheric dynamics through compression and/or viscous interactions on the flank. These dynamics accelerated currents and/or generated higher Poynting fluxes, which ultimately warmed the atmosphere through Joule heating and ion-neutral collisions. Poleward of the southern MAE, temperature retrievals demonstrate that auroral-related heating penetrates as deep as the 10-mbar level, in contrast to poleward of the northern MAE, where heating is only observed as deep as $\sim$3 mbar. We suggest this results from the south having higher Pedersen conductivities, and therefore stronger currents and acceleration of the neutrals, as well as the poleward heating overlapping with the apex of Jupiter's circulation thereby inhibiting efficient horizontal mixing/advection.

Published
2023

10. Building Equity into Transition Practice and Service Delivery: A Call for Systemic Changes in the Field of Transition

Author

Sinclair, James, Jez, Rebekka, Banks, Joy, and Kucharczyk, Suzanne

Abstract

There is a common narrative in the field of transition: students with disabilities continue to experience poorer post-school outcomes compared with their peers without disabilities. After decades of research and practice, scholars and practitioners have impacted countless numbers of students. However, disparate outcomes for diverse youth still exist. The Division on Career Development and Transition takes the position that if we are to begin reducing persistent differential outcomes for diverse youth, we must examine our current practices and apply anti-oppressive practices to transition planning to ensure we do not continue to perpetuate White cultural norms and ableist approaches to transition. We applied four equity frameworks to transition planning and provided recommendations for transition practice and service delivery.

Published
2023
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11. Enhanced C$_2$H$_2$ absorption within Jupiter's southern auroral oval from Juno UVS observations

Author

Giles, Rohini S., Hue, Vincent, Greathouse, Thomas K., Gladstone, G. Randall, Kammer, Joshua A., Versteeg, Maarten H., Bonfond, Bertrand, Grodent, Denis G., Gérard, Jean-Claude, Sinclair, James A., Bolton, Scott J., and Levin, Steven M.

Subjects
Astrophysics - Earth and Planetary Astrophysics, Physics - Space Physics
Abstract

Reflected sunlight observations from the Ultraviolet Spectrograph (UVS) on the Juno spacecraft were used to study the distribution of acetylene (C$_2$H$_2$) at Jupiter's south pole. We find that the shape of the C$_2$H$_2$ absorption feature varies significantly across the polar region, and this can be used to infer spatial variability in the C$_2$H$_2$ abundance. There is a localized region of enhanced C$_2$H$_2$ absorption which coincides with the location of Jupiter's southern polar aurora; the C$_2$H$_2$ abundance poleward of the auroral oval is a factor of 3 higher than adjacent quiescent, non-auroral longitudes. This builds on previous infrared studies which found enhanced C$_2$H$_2$ abundances within the northern auroral oval. This suggests that Jupiter's upper-atmosphere chemistry is being strongly influenced by the influx of charged auroral particles and demonstrates the necessity of developing ion-neutral photochemical models of Jupiter's polar regions., Comment: Accepted in JGR: Planets

Published
2023
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12. A retrospective analysis of mid-infrared observations of the Comet D/Shoemaker-Levy 9 and Wesley impacts on Jupiter

Author

Sinclair, James A., Lisse, Carey M., Orton, Glenn S., Krishnamoorthy, Meera, Fletcher, Leigh N., Hora, Joseph, Palotai, Csaba, and Hayward, Thomas

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

We present a retrospective analysis of Earth-based mid-infrared observations of Jupiter capturing the aftermath of the impacts by Comet D/Shoemaker-Levy 9 (henceforth SL9) in July 1994 and the Wesley impactor in July 2009. While the atmospheric effects of both impacts have been reported previously, we were motivated to re-examine both events using consistent methods to enable robust, quantitative comparisons. We analyzed spectrophotometry and spectroscopy capturing both impacts using two independent analyses: 1) a least-squares search over a grid of candidate mineral species to determine the composition of impact residue and 2) a radiative transfer analysis to derive atmospheric information. We observe that the SL9 impact sites are enhanced in stratospheric CH4 emissions at 7.9 um, due to shock heating and adiabatic compression from plume re-entry, and from 8.5 - 11.5 um due to stratospheric NH3 emission and non-gaseous cometary material. We derive NH3 concentrations of 5.7 ppmv at 30 mbar. In new findings, we find that the SL9 impact sites also exhibit a non-gaseous emission feature at 18 - 19 um. The non-gaseous emission at 8.5 - 11.5 and 18 - 19 um emission is best reproduced by predominantly amorphous olivine and obsidian at similar abundances. The Wesley impact site exhibits enhanced emissions from 8.8 - 11.5 and 18 - 19 um. We found this could be reproduced by predominantly amorphous olivine and stratospheric NH3 at concentrations of 150 ppbv at 30 mbar. Stratospheric NH3 abundances are a factor of 40 higher in the SL9 impacts compared to the Wesley impact, which confirms the former reached deeper, NH3-richer altitudes of the atmosphere. The absence of silicas in the Wesley impact would place an upper limit of 10 km/s on the incident velocity and 9 degree on the entry angle of the impactor such that temperatures were insufficient to convert silicates.

Published
2023
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14. Saturn's Seasonal Variability from Four Decades of Ground-Based Mid-Infrared Observations

Author

Blake, James S. D., Fletcher, Leigh N., Orton, Glenn S., Antuñano, Arrate, Roman, Michael T., Kasaba, Yasumasa, Fujiyoshi, Takuya, Melin, Henrik, Bardet, Deborah, Sinclair, James A., and Es-Sayeh, Maël

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

A multi-decade record of ground-based mid-infrared (7-25 $\mu$m) images of Saturn is used to explore seasonal and non-seasonal variability in thermal emission over more than a Saturnian year (1984-2022). Thermal emission measured by 3-m and 8-m-class observatories compares favourably with synthetic images based on both Cassini-derived temperature records and the predictions of radiative climate models. 8-m class facilities are capable of resolving thermal contrasts on the scale of Saturn's belts, zones, polar hexagon, and polar cyclones, superimposed onto large-scale seasonal asymmetries. Seasonal changes in brightness temperatures of $\sim30$ K in the stratosphere and $\sim10$ K in the upper troposphere are observed, as the northern and southern polar stratospheric vortices (NPSV and SPSV) form in spring and dissipate in autumn. The timings of the first appearance of the warm polar vortices is successfully reproduced by radiative climate models, confirming them to be radiative phenomena, albeit entrained within sharp boundaries influenced by dynamics. Axisymmetric thermal bands (4-5 per hemisphere) display temperature gradients that are strongly correlated with Saturn's zonal winds, indicating winds that decay in strength with altitude, and implying meridional circulation cells forming the system of cool zones and warm belts. Saturn's thermal structure is largely repeatable from year to year (via comparison of infrared images in 1989 and 2018), with the exception of low-latitudes. Here we find evidence of inter-annual variations because the equatorial banding at 7.9 $\mu$m is inconsistent with a $\sim15$-year period for Saturn's equatorial stratospheric oscillation, i.e., it is not strictly semi-annual. Finally, observations between 2017-2022 extend the legacy of the Cassini mission, revealing the continued warming of the NPSV during northern summer. [Abr.], Comment: 25 pages, 15 figures, accepted for publication in Icarus

Published
2022
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15. Saturn's atmospheric response to the large influx of ring material inferred from Cassini INMS measurements

Author

Moses, Julianne I., Brown, Zarah L., Koskinen, Tommi T., Fletcher, Leigh N., Serigano, Joseph, Guerlet, Sandrine, Moore, Luke, Waite Jr., J. Hunter, Ben-Jaffel, Lotfi, Galand, Marina, Chadney, Joshua M., Hörst, Sarah M., Sinclair, James A., Vuitton, Veronique, and Müller-Wodarg, Ingo

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

During the Grand Finale stage of the Cassini mission, organic-rich ring material was discovered to be flowing into Saturn's equatorial upper atmosphere at a surprisingly large rate. Through a series of photochemical models, we have examined the consequences of this ring material on the chemistry of Saturn's neutral and ionized atmosphere. We find that if a substantial fraction of this material enters the atmosphere as vapor or becomes vaporized as the solid ring particles ablate upon atmospheric entry, then the ring-derived vapor would strongly affect the composition of Saturn's ionosphere and neutral stratosphere. Our surveys of Cassini infrared and ultraviolet remote-sensing data from the final few years of the mission, however, reveal none of these predicted chemical consequences. We therefore conclude that either (1) the inferred ring influx represents an anomalous, transient situation that was triggered by some recent dynamical event in the ring system that occurred a few months to a few tens of years before the 2017 end of the Cassini mission, or (2) a large fraction of the incoming material must have been entering the atmosphere as small dust particles less than ~100 nm in radius, rather than as vapor or as large particles that are likely to ablate. Future observations or upper limits for stratospheric neutral species such as HC$_3$N, HCN, and CO$_2$ at infrared wavelengths could shed light on the origin, timing, magnitude, and nature of a possible vapor-rich ring-inflow event., Comment: accepted in Icarus

Published
2022
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16. Unexpected Long-Term Variability in Jupiter's Tropospheric Temperatures

Author

Orton, Glenn S., Antunano, Arrate, Fletcher, Leigh N., Sinclair, James A., Momary, Thomas W., Fujiyoshi, Takuya, Yanamandra-Fisher, Padma, Donnelly, Padraig T., Greco, Jennifer J., Payne, Anna V., Boydstun, Kimberly A., and Wakefield, Laura E.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

An essential component of planetary climatology is knowledge of the tropospheric temperature field and its variability. Previous studies of Jupiter hinted at periodic behavior that was non-seasonal, as well as dynamical relationships between tropospheric and stratospheric temperatures. However, these observations were made over time frames shorter than Jupiter's orbit or they used sparse sampling. We derived upper-tropospheric (300-mbar) temperatures over 40 years, extending those studies to cover several orbits of Jupiter, revealing unexpected results. Periodicities of 4, 7 8-9 and 10-14 years were discovered that involved different latitude bands and seem disconnected from seasonal changes in solar heating. Anti-correlations of variability in opposite hemispheres were particularly striking at 16, 22 and 30 degrees from the equator. Equatorial temperature variations are also anticorrelated with those 60-70 km above. Such behavior suggests a top-down control of equatorial tropospheric temperatures from stratospheric dynamics. Realistic future global climate models must address the origins of these variations in preparation for their extension to a wider array of gas-giant exoplanets., Comment: Primary file: 16 pages, 5 figures. Supplemental File (attached): 12 pages, 3 figures, 1 table

Published
2022
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18. Validity and Reliability Evidence for Use of the Teacher-Rated Behavioral and Emotional Rating Scale with Transition-Age Students

Author

Lambert, Matthew C., Sinclair, James, Martin, Jodie R., and Epstein, Michael H.

Abstract

Identifying student strengths is central to transition planning. However, school personnel use few assessments that operationalize behavioral and emotional strengths, and the psychometric functioning of those measures have not been established with transition-age students. In this two-part study, we used a national sample of transition-age students to examine validity evidence for scores from the "Behavioral and Emotional Rating Scale-3: Teacher Rating Scale" (BERS-3 TRS). Study 1 evaluated the internal structure and test score reliability of the scores for 275 students with exceptionalities. Study II used a sample of 566 students to examine differences in scores between students with and without exceptionalities. Findings from these studies represent evidence for the validity and interpretation of scores for transition-age students with exceptionalities.

Published
2023
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19. Secondary Transition Predictors of Postschool Success: An Update to the Research Base

Author

Mazzotti, Valerie L., Rowe, Dawn A., Kwiatek, Stephen, Voggt, Ashley, Chang, Wen-Hsuan, Fowler, Catherine H., Poppen, Marcus, Sinclair, James, and Test, David W.

Abstract

Research suggests youth with disabilities are less likely to experience positive outcomes compared to peers without disabilities. Identification of in-school predictors of postschool success can provide teachers (e.g., special education, general education, career technical education), administrators, district-level personnel, and vocational rehabilitation counselors with information to design, evaluate, and improve transition programs. The purpose of this systematic literature review was to examine secondary transition correlational literature to identify additional evidence to support existing predictors and identify new predictors of postschool success. Results provided additional evidence for 14 existing predictors and identified three new predictors. Limitations and implications for research, policy, and practice are discussed.

Published
2021
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20. Relationships Matter: The Role Transition Specialists Play in Youth's Reentry from the Juvenile Justice System

Author

Sinclair, James, Unruh, Deanne, and Kelly, Kim

Abstract

Increasing engagement to school, employment, and community are strong predictors of reducing recidivism for youth involved in the juvenile justice system. This study examined what occurs at reentry upon leaving a youth correctional setting. This study comprised of qualitative semi-structured interviews of transition specialists (TSs; n = 7) and young offenders (n = 8) who participated in a 4-year reentry project in the Pacific Northwest. A total of 21 (13 TS and eight youth) interviews were thematically coded. Findings from this study included the important role of the TS in supporting a youth's school, family, and community reentry. Key themes are described around the services to support employment, school engagement, and independent living during a youth's reentry into a school setting.

Published
2021
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21. Effects of a Universal Classroom Management Intervention on Middle School Students with or at Risk of Behavior Problems

Author

Sinclair, James, Herman, Keith C., Reinke, Wendy M., Dong, Nianbo, and Stormont, Melissa

Abstract

Universal interventions implemented in schools have the potential to impact large numbers of students on a multitude of behavioral and academic outcomes. In the context of a large group randomized controlled trial, the current study examined whether teacher-perceived student need for behavior support plans at baseline moderated the effects of a middle school universal classroom management training program, CHAMPS, which stands for Conversation, Help, Activity, Movement, Participation, and Success, on student outcomes. We hypothesized that students in CHAMPS classrooms who were identified by teachers at baseline as needing behavior support plans would have greater end-of-year improvements on behavior and academic outcomes relative to comparable youth in non-CHAMPS classrooms. Results indicated baseline teacher-perceived student behavior support need moderated some intervention outcomes; in particular, youth at risk in CHAMPS classrooms demonstrated improvements in concentration problems (b = -0.19) and communication arts outcomes (b = 0.13) compared with youth at risk in control group classrooms. Implications of these findings and future research are discussed.

Published
2021
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22. Finding a Common Voice: Lessons Learned from a Pilot Mental Health Literacy Intervention for Secondary Students with Disabilities

Author

Sinclair, James

Abstract

The current study evaluates lessons learned from a feasibility and acceptability trial of the "Think, Be, Do," curriculum (a mental health literacy curriculum) for transition age students (14-21) in special education classrooms. Six teachers and sixty-two students from a northwest state in suburban and rural settings participated in the intervention group and were exposed to the "Think, Be, Do" curriculum twice a week for five weeks. Data were collected from students, teachers, and observers. A mixed methods approach captured quantitative and qualitative data from participants. Results from the implementation suggest the curriculum was feasible to implement, acceptable to teachers for their classrooms, and had preliminary increases in student mental health literacy. Lessons learned from the initial implementation and implications for research and practice are discussed.

Published
2023
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23. Sub-Seasonal Variation in Neptune's Mid-Infrared Emission

Author

Roman, Michael T., Fletcher, Leigh N., Orton, Glenn S., Greathouse, Thomas K., Moses, Julianne I., Rowe-Gurney, Naomi, Irwin, Patrick G. J., Antunano, Arrate, Sinclair, James, Kasaba, Yasumasa, Fujiyoshi, Takuya, de Pater, Imke, and Hammel, Heidi B.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

We present an analysis of all currently available ground-based imaging of Neptune in the mid-infrared. Dating between 2003 and 2020, the images reveal changes in Neptune's mid-infrared ($\sim 8-25\mu$m) emission over time in the years surrounding Neptune's 2005 southern summer solstice. Images sensitive to stratospheric ethane ($\sim12\mu$m), methane ($\sim8\mu$m), and CH$_3$D ($\sim9\mu$m) display significant sub-seasonal temporal variation on regional and global scales. Comparison with H$_2$ S(1) hydrogen-quadrupole ($\sim17.035\mu$m) spectra suggests these changes are primarily related to stratospheric temperature changes. The stratosphere appears to have cooled between 2003 and 2009 across multiple filtered wavelengths, followed by a dramatic warming of the south pole between 2018 and 2020. Conversely, upper-tropospheric temperatures -- inferred from $\sim 17-25$-micron imaging -- appear invariant during this period, except for the south pole, which appeared warmest between 2003 and 2006. We discuss the observed variability in the context of seasonal forcing, tropospheric meteorology, and the solar cycle. Collectively, these data provide the strongest evidence to date that processes produce sub-seasonal variation on both global and regional scales in Neptune's stratosphere., Comment: 52 pages, 29 figures, accepted to AAS journals (PSJ)

Published
2021

26. Vertical Structure and Color of Jovian Latitudinal Cloud Bands during the Juno Era

Author

Dahl, Emma K., Chanover, Nancy J., Orton, Glenn S., Baines, Kevin H., Sinclair, James A., Voelz, David G., Wijerathna, Erandi A., Strycker, Paul D., and Irwin, Patrick G. J.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

The identity of the coloring agent(s) in Jupiter's atmosphere and the exact structure of Jupiter's uppermost cloud deck are yet to be conclusively understood. The Cr\`{e}me Br\^ul\'ee model of Jupiter's tropospheric clouds, originally proposed by Baines et al. (2014) and expanded upon by Sromovsky et al. (2017) and Baines et al. (2019), presumes that the chromophore measured by Carlson et al. (2016) is the singular coloring agent in Jupiter's troposphere. In this work, we test the validity of the Cr\`{e}me Br\^ul\'ee model of Jupiter's uppermost cloud deck using spectra measured during the Juno spacecraft's 5$^{\mathrm{th}}$ perijove pass in March 2017. These data were obtained as part of an international ground-based observing campaign in support of the Juno mission using the NMSU Acousto-optic Imaging Camera (NAIC) at the 3.5-m telescope at Apache Point Observatory in Sunspot, NM. We find that the Cr\`{e}me Br\^ul\'ee model cloud layering scheme can reproduce Jupiter's visible spectrum both with the Carlson et al. (2016) chromophore and with modifications to its imaginary index of refraction spectrum. While the Cr\`{e}me Br\^ul\'ee model provides reasonable results for regions of Jupiter's cloud bands such as the North Equatorial Belt and Equatorial Zone, we find that it is not a safe assumption for unique weather events, such as the 2016-2017 Southern Equatorial Belt outbreak that was captured by our measurements., Comment: 38 pages, 21 figures; Accepted for publication in AAS Planetary Science Journal

Published
2020

27. Developing a Direct Rating Behavior Scale for Depression in Middle School Students

Author

Kilgus, Stephen P., Van Wie, Michael P., Sinclair, James S., Riley-Tillman, T. Chris, and Herman, Keith C.

Abstract

Research has supported the applied use of Direct Behavior Rating Single-Item Scale (DBR-SIS) targets of "academic engagement" and "disruptive behavior" for a range of purposes, including universal screening and progress monitoring. Though useful in evaluating social behavior and externalizing problems, these targets have limited utility in evaluating emotional behavior and internalizing problems. Thus, the primary purpose of this study was to support the initial development and validation of a novel DBR-SIS target of "unhappy," which was intended to tap into the specific construct of depression. A particular focus of this study was on the novel target's utility within universal screening. A secondary purpose was to further validate the aforementioned existing DBR-SIS targets. Within this study, 87 teachers rated 1,227 students across two measures (i.e., DBR-SIS and the Teacher Observation of Classroom Adaptation--Checklist [TOCA-C]) and time points (i.e., fall and spring). Correlational analyses supported the test-retest reliability of each DBR-SIS target, as well as its convergent and discriminant validity across concurrent and predictive comparisons. Receiver operating characteristic (ROC) curve analyses further supported (a) the overall diagnostic accuracy of each target (as indicated by the area under the curve [AUC] statistic), as well as (b) the selection of cut scores found to accurately differentiate at-risk and not at-risk students (as indicated by conditional probability statistics). A broader review of findings suggested that across the majority of analyses, the existing DBR-SIS targets outperformed the novel "unhappy" target. [This article was published in "School Psychology" (EJ1201848).]

Published
2019
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28. Ice Giant Atmospheric Science

Author

Dahl, Emma K., Brueshaber, Shawn, Cosentino, Richard, Palotai, Csaba, Rowe-Gurney, Naomi, Sankar, Ramanakumar, Sayanagi, Kunio, Aslam, Shahid, Baines, Kevin, Barth, Erika, Chanover, Nancy J., Fletcher, Leigh N., Guerlet, Sandrine, Hammel, Heidi, Hofstadter, Mark, Hyder, Ali, Leonard, Erin, Livengood, Timothy A., Momary, Tom, Orton, Glenn, de Pater, Imke, Retherford, Kurt, Sinclair, James, Soderlund, Krista, Spilker, Linda, Sromovsky, Larry, and Wong, Michael H.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics
Abstract

This white paper, written in support of NASA's 2023-2032 Planetary Decadal Survey, outlines 10 major questions that focus on the origin, evolution, and current processes that shape the atmospheres of Uranus and Neptune. Prioritizing these questions over the next decade will greatly improve our understanding of this unique class of planets, which have remained largely unexplored since the Voyager flybys. Studying the atmospheres of the Ice Giants will greatly inform our understanding of the origin and evolution of the solar system as a whole, in addition to the growing number of exoplanetary systems that contain Neptune-mass planets., Comment: 8 pages, 0 figures, White Paper submitted to the Astrobiology and Planetary Science Decadal Survey

Published
2020

31. A 16-Year Review of Participant Diversity in Intervention Research across a Selection of 12 Special Education Journals

Author

Sinclair, James, Hansen, Sarah G., Machalicek, Wendy, Knowles, Christen, Hirano, Kara A., Dolata, Jill K., Blakely, Allison W., Seeley, John, and Murray, Christopher

Abstract

Given the continued changes in demographic diversity of students in the United States, it is important to ensure that participants included in special education research reflect the diversity of the classroom. We examined 16 years of intervention research across 12 special education journals to evaluate the extent to which diverse student populations (e.g., race, ethnicity, disability, sexual orientation, English language learner status) were included in published intervention research. We analyzed 495 intervention articles (9.6%) out of 5,180 total articles. Results revealed that progress has been made in the inclusion of diverse participants in special education intervention research compared with previously conducted reviews, yet some racial and ethnic populations are still underrepresented. We discuss strategies for recruitment and retention of underrepresented diverse populations.

Published
2018
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32. First ALMA Millimeter Wavelength Maps of Jupiter, with a Multi-Wavelength Study of Convection

Author

de Pater, Imke, Sault, R. J., Moeckel, Chris, Moullet, Arielle, Wong, Michael H., Goullaud, Charles, DeBoer, David, Butler, Bryan, Bjoraker, Gordon, Adamkovics, Mate, Cosentino, Richard, Donnelly, Padraig T., Fletcher, Leigh N., Kasaba, Yasumasa, Orton, Glenn, Rogers, John, Sinclair, James, and Villard, Eric

Subjects
Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

We obtained the first maps of Jupiter at 1-3 mm wavelength with the Atacama Large Millimeter/Submillimeter Array (ALMA) on 3-5 January 2017, just days after an energetic eruption at 16.5S jovigraphic latitude had been reported by the amateur community, and about 2-3 months after the detection of similarly energetic eruptions in the northern hemisphere, at 22.2-23.0N. Our observations, probing below the ammonia cloud deck, show that the erupting plumes in the SEB bring up ammonia gas from the deep atmosphere. While models of plume eruptions that are triggered at the water condensation level explain data taken at uv-visible and mid-infrared wavelengths, our ALMA observations provide a crucial, hitherto missing, link in the moist convection theory by showing that ammonia gas from the deep atmosphere is indeed brought up in these plumes. Contemporaneous HST data show that the plumes reach altitudes as high as the tropopause. We suggest that the plumes at 22.2-23.0N also rise up well above the ammonia cloud deck, and that descending air may dry the neighboring belts even more than in quiescent times, which would explain our observations in the north., Comment: 28 pages, 12 figures, 4 tables

Published
2019
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33. First Operation of a Resistive Shell Liquid Argon Time Projection Chamber -- A new Approach to Electric-Field Shaping

Author

Berner, Roman, Chen, Yifan, Ereditato, Antonio, Koller, Patrick P., Kreslo, Igor, Lorca, David, Mettler, Thomas, Piastra, Francesco, Sinclair, James R., Weber, Michael S., and Miao, Ting

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment
Abstract

We present a new technology for the shaping of the electric field in Time Projection Chambers (TPCs) using a carbon-loaded polyimide foil. This technology allows for the minimisation of passive material near the active volume of the TPC and thus is capable to reduce background events originating from radioactive decays or scattering on the material itself. Furthermore, the high and continuous electric resistivity of the foil limits the power dissipation per unit area and minimizes the risks of damages in the case of an electric field breakdown. Replacing the conventional field cage with a resistive plastic film structure called 'shell' decreases the number of components within the TPC and therefore reduces the potential points of failure when operating the detector. A prototype liquid argon (LAr) TPC with such a resistive shell and with a cathode made of the same material was successfully tested for long term operation with electric field values up to about 1.5 kV/cm. The experiment shows that it is feasible to successfully produce and shape the electric field in liquefied noble-gas detectors with this new technology., Comment: 13 pages

Published
2019
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34. Solar system Deep Time-Surveys of atmospheres, surfaces, and rings

Author

Wong, Michael H., Cartwright, Richard, Chanover, Nancy, Sayanagi, Kunio, Greathouse, Thomas, Tiscareno, Matthew, Giles, Rohini, Orton, Glenn, Trilling, David, Sinclair, James, Pinilla-Alonso, Noemi, Lucas, Michael, Gaidos, Eric, Holler, Bryan, Milam, Stephanie, Otarola, Angel, Simon, Amy, de Kleer, Katherine, Nixon, Conor, Fry, Patrick, Ádámkovics, Máté, Luszcz-Cook, Statia H., and Hendrix, Amanda

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

Imaging and resolved spectroscopy reveal varying environmental conditions in our dynamic solar system. Many key advances have focused on how these conditions change over time. Observatory-level commitments to conduct annual observations of solar system bodies would establish a long-term legacy chronicling the evolution of dynamic planetary atmospheres, surfaces, and rings. Science investigations will use these temporal datasets to address potential biosignatures, circulation and evolution of atmospheres from the edge of the habitable zone to the ice giants, orbital dynamics and planetary seismology with ring systems, exchange between components in the planetary system, and the migration and processing of volatiles on icy bodies, including Ocean Worlds. The common factor among these diverse investigations is the need for a very long campaign duration, and temporal sampling at an annual cadence., Comment: 10 pages, 4 figures: submitted for Astro2020 White Paper

Published
2019

35. Research and Development for Near Detector Systems Towards Long Term Evolution of Ultra-precise Long-baseline Neutrino Experiments

Author

Topaksu, Aysel Kayis, Blucher, Edward, Andrieu, Bernard, Bian, Jianming, Roe, Byron, Horton-Smith, Glenn, Hayato, Yoshinari, Caballero, Juan Antonio, Sinclair, James, Kudenko, Yury, Patrizi, Laura, Stanco, Luca, Tenti, Matteo, Megias, Guilermo Daniel, Jachowicz, Natalie, Benhar, Omar, Ricciardi, Giulia, Roth, Stefan, Manly, Steven, Stipcevi, Mario, Meloni, Davide, Ruiz, Ignacio, Sobczyk, Jan, Alvarez-Ruso, Luis, Martini, Marco, Pallavicini, Marco, Barbaro, Maria Benedetta, Hartz, Mark, Mishra, Sanjib, Katori, Teppei, Ekelof, Tord, Mosel, Ulrich, Pandey, Vishvas, Blondel, Alain, Bonesini, Maurizio, Buescher, Volker, Catanesi, Gabriella, Collazuol, Gianmaria, De Roeck, Albert, Di Lodovico, Francesca, Diwan, Milind Vaman, Dracos, Marcos, Ekelof, Tord Johan Carl, Ereditato, Antonio, Sala, Paola, Gamazo, Maria Pilar Hernandez, Lokajicek, Milos, Long, Kenneth Richard, Nachtman, Jane, Nessi, Marzio, Onel, Yasar, Palladino, Vittorio, Patrizii, Laura, Penzo, Aldo, Petti, Roberto, Popov, Boris, Potekhin, Maxim, Radicioni, Emilio, Sanchez, Federico, Jermyn, Paul Soler, Surdo, Antonio, Terranova, Francesco, Thomson, Mark Andrew, Touramanis, Christos, Tsenov, Roumen, Weber, Alfons, Zeyrek, Mehmet, Zito, Marco, Benekos, Nectarios, Messomo, Etam Noah, Jung, Chang Kee, De Rosa, Gianfranca, Bernardini, Paolo, Lux, Thorsten, Masetti, Lucia, Bertolucci, Sergio, Simon, Frank Richard, Mermod, Philippe, Bhatnagar, Vipin, Longhin, Andrea, Kose, Umut, Bolton, Timothy Alan, Paolone, Vittorio, Salamanna, Giuseppe, Bolognesi, Sara, Arbuzov, Andrey, Yokoyama, Masashi, Maneira, Jose Carvalho, Nagai, Yoshikazu, Andreopoulos, Constantinos, Bordoni, Stefania, Hasegawa, Takuya, Bross, Alan David, Asaadi, Jonathan, Bilki, Burak, Giganti, Claudio, Whitehead, Leigh Howard, Christodoulou, Georgios, Diaz, Diego Gonzalez, Mauri, Nicoletta, Di Noto, Lea, Sgalaberna, Davide, Hallsjo, Sven-Patrik, Riccio, Ciro, Wurm, Michael, Roda, Marco, Fernandez, Pablo, Wilking, Michael Joseph, Dennis, Stephen Robert, Mariani, Camillo, and Ferraro, Federico

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment
Abstract

With the discovery of non-zero value of $\theta_{13}$ mixing angle, the next generation of long-baseline neutrino (LBN) experiments offers the possibility of obtaining statistically significant samples of muon and electron neutrinos and anti-neutrinos with large oscillation effects. In this document we intend to highlight the importance of Near Detector facilities in LBN experiments to both constrain the systematic uncertainties affecting oscillation analyses but also to perform, thanks to their close location, measurements of broad benefit for LBN physics goals. A strong European contribution to these efforts is possible., Comment: Document submitted to the European Strategy For European Particle Physics

Published
2019

36. Rotational Light Curves of Jupiter from UV to Mid-Infrared and Implications for Brown Dwarfs and Exoplanets

Author

Ge, Huazhi, Zhang, Xi, Fletcher, Leigh N., Orton, Glenn S., Sinclair, James, Fernandes, Josh, Momary, Tom, Kasaba, Yasumasa, Sato, Takao M., and Fujiyoshi, Takuya

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

Rotational modulations are observed on brown dwarfs and directly imaged exoplanets, but the underlying mechanism is not well understood. Here, we analyze Jupiter's rotational light curves at 12 wavelengths from the ultraviolet (UV) to the mid-infrared (mid-IR). Peak-to-peak amplitudes of Jupiter's light curves range from sub percent to 4% at most wavelengths, but the amplitude exceeds 20% at 5 $\rm \mu m$, a wavelength sensing Jupiter's deep troposphere. Jupiter's rotational modulations are primarily caused by discrete patterns in the cloudless belts instead of the cloudy zones. The light-curve amplitude is dominated by the sizes and brightness contrasts of the Great Red Spot (GRS), expansions of the North Equatorial Belt (NEB), patchy clouds in the North Temperate Belt (NTB) and a train of hot spots in the NEB. In reflection, the contrast is controlled by upper tropospheric and stratospheric hazes, clouds, and chromophores in the clouds. In thermal emission, the small rotational variability is caused by the spatial distribution of temperature and opacities of gas and aerosols; the large variation is caused by the $\rm NH_{3}$ cloud holes and thin-thick clouds. The methane-band light curves exhibit opposite-shape behavior compared with the UV and visible wavelengths, caused by wavelength-dependent brightness change of the GRS. Light-curve evolution is induced by periodic events in the belts and longitudinal drifting of the GRS and patchy clouds in the NTB. This study suggests several interesting mechanisms related to distributions of temperature, gas, hazes, and clouds for understanding the observed rotational modulations on brown dwarfs and exoplanets., Comment: 17 pages, 8 figures and 1 table

Published
2019
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38. School Personnel Perceptions of Youth with Disabilities Returning to High School from the Juvenile Justice System

Author

Sinclair, James S., Unruh, Deanne K., Griller Clark, Heather, and Waintrup, Miriam G.

Abstract

Little is known about the perceptions of teachers of their students returning from the juvenile justice system, which can influence student relationships and student engagement, both of which are critical to reduce recidivism rates. This study utilized an online survey to examine the perceptions of a convenience sample of 283 school personnel (e.g., special educators, administrators) from across the country on available transition services, school climate, self-efficacy, barriers faced during reentry, and supportive strategies. Findings indicate transition services are implemented inconsistently; personnel believe they have the ability to positively influence youth, yet they have low expectations for youth after graduation. Findings suggest opportunities for professional development on holding high expectations for youth, services to prevent negative outcomes. Implications for future research call for examination of wraparound services and analysis of transition services utilized across different states and regions of the country.

Published
2017
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40. Photochemistry, mixing and transport in Jupiter's stratosphere constrained by Cassini

Author

Hue, Vincent, Hersant, Franck, Cavalié, Thibault, Dobrijevic, Michel, and Sinclair, James

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

We aim at constraining the diffusive and advective transport processes in Jupiter's stratosphere. The IR spectrum recorded by Cassini/CIRS during the Jupiter flyby contains the fingerprints of several atmospheric compounds and allows probing its atmospheric composition. C2H2 and C2H6, the main compounds produced by methane photochemistry, were retrieved as a function of latitude at certain pressure levels. CIRS observations suggest a different meridional distribution for these two species, difficult to reconcile with their photochemical histories, which are thought to be coupled to the methane photolysis. While the C2H2 abundance decreases with latitude, C2H6 becomes more abundant at high latitudes. A new 2D (latitude-altitude) seasonal photochemical model is developed to study whether the addition of stratospheric transport processes, such as meridional diffusion and advection, can explain the latitudinal behavior of C2H2 and C2H6. C2H2 observations are fairly well reproduced without meridional diffusion. Adding meridional diffusion to the model provides an improved agreement with the C2H6 observations by flattening its meridional distribution, but degrades the fit to the C2H2 distribution. Meridional diffusion alone cannot produce the observed increase with latitude of C2H6. When adding advective transport between 30 mbar and 0.01 mbar, with upwelling winds at the equator and downwelling winds at high latitudes, we can reproduce the C2H6 abundance increase with latitude. However, the fit to the C2H2 distribution is degraded. The strength of the advective winds needed to reproduce the C2H6 abundances is very sensitive to the value of the meridional eddy diffusion coefficient. The coupled fate of C2H2 and C2H6 suggests that an additional process is missing in the model. Ion-neutral chemistry was not accounted for in this work and might be a good candidate to solve this issue., Comment: Received 13 October 2017 Revised 12 January 2018 Accepted 13 February 2018

Published
2018
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42. When pets become pests: the role of the exotic pet trade in producing invasive vertebrate animals

Author

Lockwood, Julie L, Welbourne, Dustin J, Romagosa, Christina M, Cassey, Phillip, Mandrak, Nicholas E, Strecker, Angela, Leung, Brian, Stringham, Oliver C, Udell, Bradley, Episcopio‐Sturgeon, Diane J, Tlusty, Michael F, Sinclair, James, Springborn, Michael R, Pienaar, Elizabeth F, Rhyne, Andrew L, and Keller, Reuben

Subjects
Life on Land, Ecology
Abstract

The annual trade in exotic vertebrates as pets is a multi-billion-dollar global business. Thousands of species, and tens of millions of individual animals, are shipped both internationally and within countries to satisfy this demand. Most research on the exotic pet trade has focused on its contribution to native biodiversity loss and disease spread. Here, we synthesize information across taxa and research disciplines to document the exotic pet trade's contribution to vertebrate biological invasions. We show recent and substantial worldwide growth in the number of non-native animal populations introduced via this invasion pathway, which demonstrates a strong potential to increase the number of invasive animals in the future. Key to addressing the invasion threat of exotic pets is learning more about the socioeconomic forces that drive the massive growth in the exotic pet market and the socioecological factors that underlie pet release by owners. These factors likely vary according to cultural pet-keeping traditions across regions and whether purchases were legal or illegal. These gaps in our understanding of the exotic pet trade must be addressed in order to implement effective policy solutions.

Published
2019

43. Distribution of serotypes and antibiotic resistance of invasive Pseudomonas aeruginosa in a multi-country collection

Author

Nasrin, Shamima, Hegerle, Nicolas, Sen, Shaichi, Nkeze, Joseph, Sen, Sunil, Permala-Booth, Jasnehta, Choi, Myeongjin, Sinclair, James, Tapia, Milagritos D., Johnson, J. Kristie, Sow, Samba O., Thaden, Joshua T., Fowler, Jr, Vance G., Krogfelt, Karen A., Brauner, Annelie, Protonotariou, Efthymia, Christaki, Eirini, Shindo, Yuichiro, Kwa, Andrea L., Shakoor, Sadia, Singh-Moodley, Ashika, Perovic, Olga, Jacobs, Jan, Lunguya, Octavie, Simon, Raphael, Cross, Alan S., and Tennant, Sharon M.

Published
2022
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44. Ammonia in Jupiter's troposphere from high-resolution 5-\textmu m spectroscopy

Author

Giles, Rohini S., Fletcher, Leigh N., Irwin, Patrick G. J., Orton, Glenn S., and Sinclair, James A.

Subjects
Astrophysics - Earth and Planetary Astrophysics
Abstract

Jupiter's tropospheric ammonia (NH\textsubscript{3}) abundance is studied using spatially-resolved 5-\textmu m observations from CRIRES, a high resolution spectrometer at the European Southern Observatory's Very Large Telescope. The high resolving power (R=96,000) allows the line shapes of three NH\textsubscript{3} absorption features to be resolved. We find that within the 1--4 bar pressure range, the NH\textsubscript{3} abundance decreases with altitude. The instrument slit was aligned north-south along Jupiter's central meridian, allowing us to search for latitudinal variability. There is considerable uncertainty in the large-scale latitudinal variability, as the increase in cloud opacity in zones compared to belts can mask absorption features. However, we do find evidence for a strong NH\textsubscript{3} enhancement at 4--6$^{\circ}$N, consistent with a localised `ammonia plume' on the southern edge of Jupiter's North Equatorial Belt., Comment: Manuscript accepted for publication in GRL

Published
2017
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45. Promoting Dignity for Adults With Extensive Support Needs in the Inclusive Workplace.

Author

Gilson, Carly B. and Sinclair, James

Subjects
EMPLOYMENT, DIGNITY, WORK environment, DEVELOPMENTAL disabilities, HARDSHIP
Abstract

Participation in competitive, integrated employment contexts is chronically low for adults with extensive support needs (ESN). Prior research indicates that adults with ESN face pervasive hardships in accessing employment opportunities that promote meaning, well-being, and dignity in their career trajectories. Experiencing dignity is a fundamental part of feeling included and valued in the workplace. This article provides recommendations for vocational practitioners and educators for how to advance dignity for people with ESN when working in or preparing to work in inclusive employment settings. These recommendations are aligned with the Elements of Dignity and voiced by people with intellectual and developmental disabilities who have lived experiences in competitive, integrated employment. [ABSTRACT FROM AUTHOR]

Published
2024
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46. Ecological but Not Biological Traits of European Riverine Invertebrates Respond Consistently to Anthropogenic Impacts.

Author

Sinclair, James S., Stubbington, Rachel, Schäfer, Ralf B., Barešová, Libuše, Bonada, Núria, Csabai, Zoltán, Jones, J. Iwan, Larrañaga, Aitor, Murphy, John F., Pařil, Petr, Polášek, Marek, Rasmussen, Jes J., Straka, Michal, Várbíró, Gábor, Verdonschot, Ralf C. M., Welti, Ellen A. R., and Haase, Peter

Subjects
*ANTHROPOGENIC effects on nature, *BIOTIC communities, *INVERTEBRATE communities, *LIFE history theory, *HABITAT selection
Abstract

ABSTRACT Aim Location Time Period Major Taxa Studied Methods Results Main Conclusions To determine which riverine invertebrate traits respond consistently to anthropogenic impacts across multiple biogeographic regions.Europe.1981–2021.Riverine invertebrates.We compiled a database of riverine invertebrate community time series for 673 sites across six European countries spanning six freshwater ecoregions. We compared trait responses to anthropogenic impacts (quantified as changes in ‘ecological quality’) among regions for seven ‘ecological’ traits, which reflect habitat preferences, and nine ‘biological’ traits (e.g., morphology or life history), which represent taxon‐specific attributes that can influence ecosystem processes.Four ecological traits (current, microhabitat, salinity and trophic preferences) and one biological trait (dispersal mode) responded consistently across regions. These responses were primarily driven by spatial differences among poorer to better quality sites. Responses to temporal changes in quality were comparable but less pronounced.Consistent responses to anthropogenic impacts across multiple ecological traits indicate these traits may improve broader scale measurements, comparisons and predictions of community responses. However, we could not use ecological traits to identify the actions of specific stressors because multiple traits always responded as a group. Inconsistent responses across almost all biological traits indicated that these traits may be less predictive of impacts across regions. Predictions of how biological traits, and associated ecosystem processes, respond to anthropogenic impacts may be most effective at regional scales where responses are more consistent. [ABSTRACT FROM AUTHOR]

Published
2024
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47. Upscaling biodiversity monitoring: Metabarcoding estimates 31,846 insect species from Malaise traps across Germany.

Author

Buchner, Dominik, Sinclair, James S., Ayasse, Manfred, Beermann, Arne J., Buse, Jörn, Dziock, Frank, Enss, Julian, Frenzel, Mark, Hörren, Thomas, Li, Yuanheng, Monaghan, Michael T., Morkel, Carsten, Müller, Jörg, Pauls, Steffen U., Richter, Ronny, Scharnweber, Tobias, Sorg, Martin, Stoll, Stefan, Twietmeyer, Sönke, and Weisser, Wolfgang W.

Subjects
*BIODIVERSITY monitoring, *INSECT diversity, *NUMBERS of species, *SPECIES diversity, *JUDGMENT (Psychology)
Abstract

Mitigating ongoing losses of insects and their key functions (e.g. pollination) requires tracking large‐scale and long‐term community changes. However, doing so has been hindered by the high diversity of insect species that requires prohibitively high investments of time, funding and taxonomic expertise when addressed with conventional tools. Here, we show that these concerns can be addressed through a comprehensive, scalable and cost‐efficient DNA metabarcoding workflow. We use 1815 samples from 75 Malaise traps across Germany from 2019 and 2020 to demonstrate how metabarcoding can be incorporated into large‐scale insect monitoring networks for less than 50 € per sample, including supplies, labour and maintenance. We validated the detected species using two publicly available databases (GBOL and GBIF) and the judgement of taxonomic experts. With an average of 1.4 M sequence reads per sample we uncovered 10,803 validated insect species, of which 83.9% were represented by a single Operational Taxonomic Unit (OTU). We estimated another 21,043 plausible species, which we argue either lack a reference barcode or are undescribed. The total of 31,846 species is similar to the number of insect species known for Germany (~35,500). Because Malaise traps capture only a subset of insects, our approach identified many species likely unknown from Germany or new to science. Our reproducible workflow (~80% OTU‐similarity among years) provides a blueprint for large‐scale biodiversity monitoring of insects and other biodiversity components in near real time. [ABSTRACT FROM AUTHOR]

Published
2024
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48. Dispersal, glacial refugia and temperature shape biogeographical patterns in European freshwater biodiversity.

Author

Cortés‐Guzmán, Daniela, Sinclair, James, Hof, Christian, Kalusche, Jan B., and Haase, Peter

Subjects
*LAST Glacial Maximum, *ENVIRONMENTAL history, *FRESHWATER fishes, *FRESHWATER invertebrates, *SPECIES diversity, *FISH diversity
Abstract

Aim: Temperature is regarded as an important driver of broad‐scale biodiversity patterns. However, less is known of the role of dispersal in shaping broad‐scale species and trait distributions, particularly given that species had to disperse out of glacial refugia after the Last Glacial Maximum (LGM). Here, we used a unique dataset describing the distributions of freshwater fauna combined with trait information to evaluate biodiversity relationships to distance to glacial refugia and temperature. Location: Twenty‐five biogeographical regions across Europe. Time Period: Data from species occurrence were gathered in 1978. Major Taxa Studied: A total of 2816 freshwater invertebrate species and 230 freshwater fish species. Methods: Using the occurrence of invertebrate and fish species in the biogeographical regions, and publicly available trait information, we analysed patterns in diversity indices (i.e. species richness, trait richness and trait redundancy), trait distribution and species and trait β‐diversity, and their relationship to distance to known glacial refugia and regional temperature. Results: We show that distributions of European invertebrate and fish species and traits are primarily explained by distance to refugia and its covarying effect with temperature (i.e. refugia tend to be warmer). Specifically, species and trait richness were higher in regions proximate to refugia and lower in distant regions. Additionally, communities in colder and distant regions exhibited reduced niche dimensions and slower life histories, suggesting increased vulnerability to environmental change. Main Conclusions: Species more distant from their refugia were characterized by higher dispersal capacities. Accordingly, since the LGM, only a subset of species was able to colonize distant regions, while many species have spatial ranges constrained by their dispersal capacity, increasing their potential for extinction under ongoing climate change. Therefore, additional conservation measures considering species' dispersal capacities are required. [ABSTRACT FROM AUTHOR]

Published
2024
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49. Aspirational Differences between Students with and without IEPs: Grades Earned Matter

Author

Sinclair, James and Poteat, V. Paul

Abstract

Using data from the 2015 "Dane County Youth Assessment" (n = 12,886 students, 22 high schools), we identified disparities between students with Individualized Education Programs (IEP) and without IEPs across multiple post-high school aspirations. We identified significant IEP status × grades earned interactions in predicting students' reported likelihood of pursuing post-high school placements. Higher reported average grades earned were more strongly associated with students' greater reported likelihood of attending college/university for students without IEPs than for students with IEPs. Also, higher grades were associated with less likelihood of foregoing postsecondary education and only looking for a job for students without IEPs whereas this association was not significant for students with IEPs. Implications for research and practice are discussed.

Published
2020
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