Your search keyword '"C. A. COX"' showing total 2,080 results

1. Teacher Outcomes of an Intensive STEM-Focused Professional Learning Initiative: An Examination of Their Beliefs, Practices, and Perceptions

Author

Elizabeth L. Adams, Leanne R. Ketterlin-Geller, C. Taylor Cox, and Karen Pierce

Abstract

The purpose of this paper is to describe teacher outcomes from participating in an intensive science, technology, engineering, and mathematics (STEM) professional learning (PL) initiative for middle school science teachers in the United States. The initiative included intensive summer coursework and ongoing support (e.g., individual coaching, professional learning communities), and focused on enhancing teachers' STEM instruction and their pedagogical content knowledge (PCK), with the ultimate goal of improving student outcomes. In this mixed method study, we examine change across time in teachers' beliefs, use of STEM instruction, and PCK. In general, we did not observe statistically significant change in teachers' beliefs, use of STEM instruction, or PCK from the beginning to the end of Year 1. In follow-up focus groups, ten teachers described their perceptions of student outcomes of STEM instruction and identified tensions related to implementation. We offer implications intended to inform future work in the area of STEM PL.

Published

2024

2. Special Observing Period (SOP) data for the Year of Polar Prediction site Model Intercomparison Project (YOPPsiteMIP)

Author

Z. Mariani, S. M. Morris, T. Uttal, E. Akish, R. Crawford, L. Huang, J. Day, J. Tjernström, Ø. Godøy, L. Ferrighi, L. M. Hartten, J. Holt, C. J. Cox, E. O'Connor, R. Pirazzini, M. Maturilli, G. Prakash, J. Mather, K. Strong, P. Fogal, V. Kustov, G. Svensson, M. Gallagher, and B. Vasel

Subjects

Environmental sciences, GE1-350, Geology, QE1-996.5

Abstract

The rapid changes occurring in the polar regions require an improved understanding of the processes that are driving these changes. At the same time, increased human activities such as marine navigation, resource exploitation, aviation, commercial fishing, and tourism require reliable and relevant weather information. One of the primary goals of the World Meteorological Organization's Year of Polar Prediction (YOPP) project is to improve the accuracy of numerical weather prediction (NWP) at high latitudes. During YOPP, two Canadian “supersites” were commissioned and equipped with new ground-based instruments for enhanced meteorological and system process observations. Additional pre-existing supersites in Canada, the United States, Norway, Finland, and Russia also provided data from ongoing long-term observing programs. These supersites collected a wealth of observations that are well suited to address YOPP objectives. In order to increase data useability and station interoperability, novel Merged Observatory Data Files (MODFs) were created for the seven supersites over two Special Observing Periods (February to March 2018 and July to September 2018). All observations collected at the supersites were compiled into this standardized NetCDF MODF format, simplifying the process of conducting pan-Arctic NWP verification and process evaluation studies. This paper describes the seven Arctic YOPP supersites, their instrumentation, data collection and processing methods, the novel MODF format, and examples of the observations contained therein. MODFs comprise the observational contribution to the model intercomparison effort, termed YOPP site Model Intercomparison Project (YOPPsiteMIP). All YOPPsiteMIP MODFs are publicly accessible via the YOPP Data Portal (Whitehorse: https://doi.org/10.21343/a33e-j150, Huang et al., 2023a; Iqaluit: https://doi.org/10.21343/yrnf-ck57, Huang et al., 2023b; Sodankylä: https://doi.org/10.21343/m16p-pq17, O'Connor, 2023; Utqiaġvik: https://doi.org/10.21343/a2dx-nq55, Akish and Morris, 2023c; Tiksi: https://doi.org/10.21343/5bwn-w881, Akish and Morris, 2023b; Ny-Ålesund: https://doi.org/10.21343/y89m-6393, Holt, 2023; and Eureka: https://doi.org/10.21343/r85j-tc61, Akish and Morris, 2023a), which is hosted by MET Norway, with corresponding output from NWP models.

Published

2024

3. Merged Observatory Data Files (MODFs): an integrated observational data product supporting process-oriented investigations and diagnostics

Author

T. Uttal, L. M. Hartten, S. J. Khalsa, B. Casati, G. Svensson, J. Day, J. Holt, E. Akish, S. Morris, E. O'Connor, R. Pirazzini, L. X. Huang, R. Crawford, Z. Mariani, Ø. Godøy, J. A. K. Tjernström, G. Prakash, N. Hickmon, M. Maturilli, and C. J. Cox

Subjects

Geology, QE1-996.5

Abstract

A large and ever-growing body of geophysical information is measured in campaigns and at specialized observatories as a part of scientific expeditions and experiments. These collections of observed data include many essential climate variables (as defined by the Global Climate Observing System) but are often distinguished by a wide range of additional non-routine measurements that are designed to not only document the state of the environment but also the drivers that contribute to that state. These field data are used not only to further understand environmental processes through observation-based studies but also to provide baseline data to test model performance and to codify understanding to improve predictive capabilities. To address the considerable barriers and difficulty in utilizing these diverse and complex data for observation–model research, the Merged Observatory Data File (MODF) concept has been developed. A MODF combines measurements from multiple instruments into a single file that complies with well-established data format and metadata practices and has been designed to parallel the development of corresponding Merged Model Data Files (MMDFs). Using the MODF and MMDF protocols will facilitate the evolution of model intercomparison projects into model intercomparison and improvement projects by putting observation and model data “on the same page” in a timely manner. The MODF concept was developed especially for weather forecast model studies in the Arctic. The surprisingly complex process of implementing MODFs in that context refined the concept itself. Thus, this article explains the concept of MODFs by providing details on the issues that were revealed and resolved during that first specific implementation. Detailed instructions are provided on how to make MODFs, and this article can be considered a MODF creation manual.

Published

2024

4. An overview of the vertical structure of the atmospheric boundary layer in the central Arctic during MOSAiC

Author

G. C. Jozef, J. J. Cassano, S. Dahlke, M. Dice, C. J. Cox, and G. de Boer

Subjects

Physics, QC1-999, Chemistry, QD1-999

Abstract

Observations collected during the Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC) provide an annual cycle of the vertical thermodynamic and kinematic structure of the atmospheric boundary layer (ABL) in the central Arctic. A self-organizing map (SOM) analysis conducted using radiosonde observations shows a range in the Arctic ABL vertical structure from very shallow and stable, with a strong surface-based virtual potential temperature (θv) inversion, to deep and near neutral, capped by a weak elevated θv inversion. The patterns identified by the SOM allowed for the derivation of criteria to categorize stability within and just above the ABL, which revealed that the Arctic ABL during MOSAiC was stable and near neutral with similar frequencies, and there was always a θv inversion within the lowest 1 km, which usually had strong to moderate stability. In conjunction with observations from additional measurement platforms, including a 10 m meteorological tower, ceilometer, and microwave radiometer, the radiosonde observations and SOM analysis provide insight into the relationships between atmospheric vertical structure and stability, as well as a variety of atmospheric thermodynamic and kinematic features. A low-level jet was observed in 76 % of the radiosondes, with stronger winds and low-level jet (LLJ) core located more closely to the ABL corresponding with weaker stability. Wind shear within the ABL was found to decrease, and friction velocity was found to increase, with decreasing ABL stability. Clouds were observed within the 30 min preceding the radiosonde launch 64 % of the time. These were typically low clouds, corresponding to weaker stability, where high clouds or no clouds largely coincided with a stable ABL.

Published

2024

5. Derivation and compilation of lower-atmospheric properties relating to temperature, wind, stability, moisture, and surface radiation budget over the central Arctic sea ice during MOSAiC

Author

G. C. Jozef, R. Klingel, J. J. Cassano, B. Maronga, G. de Boer, S. Dahlke, and C. J. Cox

Subjects

Environmental sciences, GE1-350, Geology, QE1-996.5

Abstract

Atmospheric measurements taken over the span of an entire year between October 2019 and September 2020 during the icebreaker-based Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC) expedition provide insight into processes acting in the Arctic atmosphere. Through the merging of disparate yet complementary in situ observations, we can derive information about these thermodynamic and kinematic processes with great detail. This paper describes methods used to create a lower-atmospheric properties dataset containing information on several key features relating to the central Arctic atmospheric boundary layer, including properties of temperature inversions, low-level jets, near-surface meteorological conditions, cloud cover, and the surface radiation budget. The lower-atmospheric properties dataset was developed using observations from radiosondes launched at least four times per day, a 10 m meteorological tower and radiation station deployed on the sea ice near the research vessel Polarstern, and a ceilometer located on the deck of the Polarstern. This lower-atmospheric properties dataset, which can be found at https://doi.org/10.1594/PANGAEA.957760 (Jozef et al., 2023), contains metrics which fall into the overarching categories of temperature, wind, stability, clouds, and radiation at the time of each radiosonde launch. The purpose of the lower-atmospheric properties dataset is to provide a consistent description of general atmospheric boundary layer conditions throughout the MOSAiC year, which can aid in research applications with the overall goal of gaining a greater understanding of the atmospheric processes governing the central Arctic and how they may contribute to future climate change.

Published

2023

6. Thermodynamic and kinematic drivers of atmospheric boundary layer stability in the central Arctic during the Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC)

Author

G. C. Jozef, J. J. Cassano, S. Dahlke, M. Dice, C. J. Cox, and G. de Boer

Subjects

Physics, QC1-999, Chemistry, QD1-999

Abstract

Observations collected during the Multidisciplinary drifting Observatory for the Study of Arctic Climate (MOSAiC) provide a detailed description of the impact of thermodynamic and kinematic forcings on atmospheric boundary layer (ABL) stability in the central Arctic. This study reveals that the Arctic ABL is stable and near-neutral with similar frequencies, and strong stability is the most persistent of all stability regimes. MOSAiC radiosonde observations, in conjunction with observations from additional measurement platforms, including a 10 m meteorological tower, ceilometer, microwave radiometer, and radiation station, provide insight into the relationships between atmospheric stability and various atmospheric thermodynamic and kinematic forcings of ABL turbulence and how these relationships differ by season. We found that stronger stability largely occurs in low-wind (i.e., wind speeds are slow), low-radiation (i.e., surface radiative fluxes are minimal) environments; a very shallow mixed ABL forms in low-wind, high-radiation environments; weak stability occurs in high-wind, moderate-radiation environments; and a near-neutral ABL forms in high-wind, high-radiation environments. Surface pressure (a proxy for synoptic staging) partially explains the observed wind speeds for different stability regimes. Cloud frequency and atmospheric moisture contribute to the observed surface radiation budget. Unique to summer, stronger stability may also form when moist air is advected from over the warmer open ocean to over the colder sea ice surface, which decouples the colder near-surface atmosphere from the advected layer, and is identifiable through observations of fog and atmospheric moisture.

Published

2023

7. Controls on surface aerosol particle number concentrations and aerosol-limited cloud regimes over the central Greenland Ice Sheet

Author

H. Guy, I. M. Brooks, K. S. Carslaw, B. J. Murray, V. P. Walden, M. D. Shupe, C. Pettersen, D. D. Turner, C. J. Cox, W. D. Neff, R. Bennartz, and R. R. Neely III

Subjects

Physics, QC1-999, Chemistry, QD1-999

Abstract

This study presents the first full annual cycle (2019–2020) of ambient surface aerosol particle number concentration measurements (condensation nuclei > 20 nm, N20) collected at Summit Station (Summit), in the centre of the Greenland Ice Sheet (72.58∘ N, −38.45∘ E; 3250 ma.s.l.). The mean surface concentration in 2019 was 129 cm−3, with the 6 h mean ranging between 1 and 1441 cm−3. The highest monthly mean concentrations occurred during the late spring and summer, with the minimum concentrations occurring in February (mean: 18 cm−3). High-N20 events are linked to anomalous anticyclonic circulation over Greenland and the descent of free-tropospheric aerosol down to the surface, whereas low-N20 events are linked to anomalous cyclonic circulation over south-east Greenland that drives upslope flow and enhances precipitation en route to Summit. Fog strongly affects particle number concentrations, on average reducing N20 by 20 % during the first 3 h of fog formation. Extremely-low-N20 events (< 10 cm−3) occur in all seasons, and we suggest that fog, and potentially cloud formation, can be limited by low aerosol particle concentrations over central Greenland.

Published

2021

8. Stem Cell Therapy for Aging Related Diseases and Joint Diseases in Companion Animals

Author

Yanmin Wang, Michael Alexander, Todd Scott, Desiree C. T. Cox, Augusta Wellington, Mike K. S. Chan, Michelle B. F. Wong, Orn Adalsteinsson, and Jonathan R. T. Lakey

Subjects

stem cell therapy, mesenchymal stem cells, regenerative medicine, aging, veterinary use, companion animals, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

Stem cell therapy is an attractive treatment for diseases in companion animals that cannot be treated by conventional veterinary medicine practices. The unique properties of stem cells, particularly the ability to differentiate into specific cell types, makes them a focal point in regenerative medicine treatments. Stem cell transplantation, especially using mesenchymal stem cells, has been proposed as a means to treat a wide range of injuries and ailments, resulting in tissue regeneration or repair. This review aims to summarize the veterinary use of stem cells for treating age-related and joint diseases, which are common conditions in pets. While additional research is necessary and certain limitations exist, the potential of stem cell therapy for companion animals is immense.

Published

2023

9. Metagenomic insights into the taxonomy, function, and dysbiosis of prokaryotic communities in octocorals

Author

T. Keller-Costa, A. Lago-Lestón, J. P. Saraiva, R. Toscan, S. G. Silva, J. Gonçalves, C. J. Cox, N. Kyrpides, U. Nunes da Rocha, and R. Costa

Subjects

Host-microbe interactions, Symbiosis, Holobiont, Gorgonians, Eunicella, Leptogorgia, Microbial ecology, QR100-130

Abstract

Abstract Background In octocorals (Cnidaria Octocorallia), the functional relationship between host health and its symbiotic consortium has yet to be determined. Here, we employed comparative metagenomics to uncover the distinct functional and phylogenetic features of the microbiomes of healthy Eunicella gazella, Eunicella verrucosa, and Leptogorgia sarmentosa tissues, in contrast with the microbiomes found in seawater and sediments. We further explored how the octocoral microbiome shifts to a pathobiome state in E. gazella. Results Multivariate analyses based on 16S rRNA genes, Clusters of Orthologous Groups of proteins (COGs), Protein families (Pfams), and secondary metabolite-biosynthetic gene clusters annotated from 20 Illumina-sequenced metagenomes each revealed separate clustering of the prokaryotic communities of healthy tissue samples of the three octocoral species from those of necrotic E. gazella tissue and surrounding environments. While the healthy octocoral microbiome was distinguished by so-far uncultivated Endozoicomonadaceae, Oceanospirillales, and Alteromonadales phylotypes in all host species, a pronounced increase of Flavobacteriaceae and Alphaproteobacteria, originating from seawater, was observed in necrotic E. gazella tissue. Increased abundances of eukaryotic-like proteins, exonucleases, restriction endonucleases, CRISPR/Cas proteins, and genes encoding for heat-shock proteins, inorganic ion transport, and iron storage distinguished the prokaryotic communities of healthy octocoral tissue regardless of the host species. An increase of arginase and nitric oxide reductase genes, observed in necrotic E. gazella tissues, suggests the existence of a mechanism for suppression of nitrite oxide production by which octocoral pathogens may overcome the host’s immune system. Conclusions This is the first study to employ primer-less, shotgun metagenome sequencing to unveil the taxonomic, functional, and secondary metabolism features of prokaryotic communities in octocorals. Our analyses reveal that the octocoral microbiome is distinct from those of the environmental surroundings, is host genus (but not species) specific, and undergoes large, complex structural changes in the transition to the dysbiotic state. Host-symbiont recognition, abiotic-stress response, micronutrient acquisition, and an antiviral defense arsenal comprising multiple restriction endonucleases, CRISPR/Cas systems, and phage lysogenization regulators are signatures of prokaryotic communities in octocorals. We argue that these features collectively contribute to the stabilization of symbiosis in the octocoral holobiont and constitute beneficial traits that can guide future studies on coral reef conservation and microbiome therapy. Video Abstract

Published

2021

10. Cover

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

11. Iran, Twenty Years Ago

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

12. A Cambodian Diary

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

13. List of Illustrations

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

14. The British in India

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

15. The Gardens of Kyoto in Summer

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

16. On a Greek Holiday

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

17. Scenes from Nicaragua

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

18. Letter from Dresden

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

19. Ontario Towns

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

20. From Sundogs to the Midnight Sun: An Alaskan Reverie

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

21. In Co. Cork

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

22. Cannibals and Kava

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

23. Miroir Danjere

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

24. The Blue Grotto

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

25. Making It Uglier to the Airport

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

26. Veblen and the Mall of America

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

27. Letter from Arcadia

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

28. The Guiana Connection

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

29. Tremblement de Terre! The Gods Turned Their Faces Away: Letter from Haiti

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

30. Letter from Tasmania

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

31. Letter from Indonesia

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

32. Half-Title Page, Title Page, Copyright, About the Author

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

33. The Lighthouse at the End of the Hudson

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

34. Copyrights and Credits

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

35. Notes on Contributors

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

36. Letter from Athens: Logbook I, Days of 2016 (and Moments Before and After)

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

37. Homesick for Sadness: A Childhood in Incompletion

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

38. Introduction

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

39. Preface

Author

Ronald Koury, Dick Davis, Joseph Bennett, Guy Davenport, Alice Bloom, and C. B. Cox

Published

2021

40. The De-Icing Comparison Experiment (D-ICE): a study of broadband radiometric measurements under icing conditions in the Arctic

Author

C. J. Cox, S. M. Morris, T. Uttal, R. Burgener, E. Hall, M. Kutchenreiter, A. McComiskey, C. N. Long, B. D. Thomas, and J. Wendell

Subjects

Environmental engineering, TA170-171, Earthwork. Foundations, TA715-787

Abstract

Surface-based measurements of broadband shortwave (solar) and longwave (infrared) radiative fluxes using thermopile radiometers are made regularly around the globe for scientific and operational environmental monitoring. The occurrence of ice on sensor windows in cold environments – whether snow, rime, or frost – is a common problem that is difficult to prevent as well as difficult to correct in post-processing. The Baseline Surface Radiation Network (BSRN) community recognizes radiometer icing as a major outstanding measurement uncertainty. Towards constraining this uncertainty, the De-Icing Comparison Experiment (D-ICE) was carried out at the NOAA Atmospheric Baseline Observatory in Utqiaġvik (formerly Barrow), Alaska, from August 2017 to July 2018. The purpose of D-ICE was to evaluate existing ventilation and heating technologies developed to mitigate radiometer icing. D-ICE consisted of 20 pyranometers and 5 pyrgeometers operating in various ventilator housings alongside operational systems that are part of NOAA's Barrow BSRN station and the US Department of Energy Atmospheric Radiation Measurement (ARM) program North Slope of Alaska and Oliktok Point observatories. To detect icing, radiometers were monitored continuously using cameras, with a total of more than 1 million images of radiometer domes archived. Ventilator and ventilator–heater performance overall was skillful with the average of the systems mitigating ice formation 77 % (many >90 %) of the time during which icing conditions were present. Ventilators without heating elements were also effective and capable of providing heat through roughly equal contributions of waste energy from the ventilator fan and adiabatic heating downstream of the fan. This provided ∼0.6 ∘C of warming, enough to subsaturate the air up to a relative humidity (with respect to ice) of ∼105 %. Because the mitigation technologies performed well, a near complete record of verified ice-free radiometric fluxes was assembled for the duration of the campaign. This well-characterized data set is suitable for model evaluation, in particular for the Year of Polar Prediction (YOPP) first Special Observing Period (SOP1). We used the data set to calculate short- and long-term biases in iced sensors, finding that biases can be up to +60 W m−2 (longwave) and −211 to +188 W m−2 (shortwave). However, because of the frequency of icing, mitigation of ice by ventilators, cloud conditions, and the timing of icing relative to available sunlight, the biases in the monthly means were generally less than the aggregate uncertainty attributed to other conventional sources in both the shortwave and longwave.

Published

2021

41. Toward autonomous surface-based infrared remote sensing of polar clouds: retrievals of cloud optical and microphysical properties

Author

P. M. Rowe, C. J. Cox, S. Neshyba, and V. P. Walden

Subjects

Environmental engineering, TA170-171, Earthwork. Foundations, TA715-787

Abstract

Improvements to climate model results in polar regions require improved knowledge of cloud properties. Surface-based infrared (IR) radiance spectrometers have been used to retrieve cloud properties in polar regions, but measurements are sparse. Reductions in cost and power requirements to allow more widespread measurements could be aided by reducing instrument resolution. Here we explore the effects of errors and instrument resolution on cloud property retrievals from downwelling IR radiances for resolutions of 0.1 to 20 cm−1. Retrievals are tested on 336 radiance simulations characteristic of the Arctic, including mixed-phase, vertically inhomogeneous, and liquid-topped clouds and a variety of ice habits. Retrieval accuracy is found to be unaffected by resolution from 0.1 to 4 cm−1, after which it decreases slightly. When cloud heights are retrieved, errors in retrieved cloud optical depth (COD) and ice fraction are considerably smaller for clouds with bases below 2 km than for higher clouds. For example, at a resolution of 4 cm−1, with errors imposed (noise and radiation bias of 0.2 mW/(m2 sr cm−1) and biases in temperature of 0.2 K and in water vapor of −3 %), using retrieved cloud heights, root-mean-square errors decrease from 1.1 to 0.15 for COD, 0.3 to 0.18 for ice fraction (fice), and 10 to 7 µm for ice effective radius (errors remain at 2 µm for liquid effective radius). These results indicate that a moderately low-resolution, surface-based IR spectrometer could provide cloud property retrievals with accuracy comparable to existing higher-resolution instruments and that such an instrument would be particularly useful for low-level clouds.

Published

2019

42. Supercooled liquid fogs over the central Greenland Ice Sheet

Author

C. J. Cox, D. C. Noone, M. Berkelhammer, M. D. Shupe, W. D. Neff, N. B. Miller, V. P. Walden, and K. Steffen

Subjects

Physics, QC1-999, Chemistry, QD1-999

Abstract

Radiation fogs at Summit Station, Greenland (72.58∘ N, 38.48∘ W; 3210 m a.s.l.), are frequently reported by observers. The fogs are often accompanied by fogbows, indicating the particles are composed of liquid; and because of the low temperatures at Summit, this liquid is supercooled. Here we analyze the formation of these fogs as well as their physical and radiative properties. In situ observations of particle size and droplet number concentration were made using scattering spectrometers near 2 and 10 m height from 2012 to 2014. These data are complemented by colocated observations of meteorology, turbulent and radiative fluxes, and remote sensing. We find that liquid fogs occur in all seasons with the highest frequency in September and a minimum in April. Due to the characteristics of the boundary-layer meteorology, the fogs are elevated, forming between 2 and 10 m, and the particles then fall toward the surface. The diameter of mature particles is typically 20–25 µm in summer. Number concentrations are higher at warmer temperatures and, thus, higher in summer compared to winter. The fogs form at temperatures as warm as −5 ∘C, while the coldest form at temperatures approaching −40 ∘C. Facilitated by the elevated condensation, in winter two-thirds of fogs occurred within a relatively warm layer above the surface when the near-surface air was below −40 ∘C, as cold as −57 ∘C, which is too cold to support liquid water. This implies that fog particles settling through this layer of cold air freeze in the air column before contacting the surface, thereby accumulating at the surface as ice without riming. Liquid fogs observed under otherwise clear skies annually imparted 1.5 W m−2 of cloud radiative forcing (CRF). While this is a small contribution to the surface radiation climatology, individual events are influential. The mean CRF during liquid fog events was 26 W m−2, and was sometimes much higher. An extreme case study was observed to radiatively force 5 ∘C of surface warming during the coldest part of the day, effectively damping the diurnal cycle. At lower elevations of the ice sheet where melting is more common, such damping could signal a role for fogs in preconditioning the surface for melting later in the day.

Published

2019

43. Characterization of aerosol growth events over Ellesmere Island during the summers of 2015 and 2016

Author

S. Tremblay, J.-C. Picard, J. O. Bachelder, E. Lutsch, K. Strong, P. Fogal, W. R. Leaitch, S. Sharma, F. Kolonjari, C. J. Cox, R. Y.-W. Chang, and P. L. Hayes

Subjects

Physics, QC1-999, Chemistry, QD1-999

Abstract

The occurrence of frequent aerosol nucleation and growth events in the Arctic during summertime may impact the region's climate through increasing the number of cloud condensation nuclei in the Arctic atmosphere. Measurements of aerosol size distributions and aerosol composition were taken during the summers of 2015 and 2016 at Eureka and Alert on Ellesmere Island in Nunavut, Canada. These results provide a better understanding of the frequency and spatial extent of elevated Aitken mode aerosol concentrations as well as of the composition and sources of aerosol mass during particle growth. Frequent appearances of small particles followed by growth occurred throughout the summer. These particle growth events were observed beginning in June with the melting of the sea ice rather than with the polar sunrise, which strongly suggests that influence from the marine boundary layer was the primary cause of the events. Correlated particle growth events at the two sites, separated by 480 km, indicate conditions existing over large scales play a key role in determining the timing and the characteristics of the events. In addition, aerosol mass spectrometry measurements were used to analyze the size-resolved chemical composition of aerosols during two selected growth events. It was found that particles with diameters between 50 and 80 nm (physical diameter) during these growth events were predominately organic with only a small sulfate contribution. The oxidation of the organics also changed with particle size, with the fraction of organic acids increasing with diameter from 80 to 400 nm. The growth events at Eureka were observed most often when the temperature inversion between the sea and the measurement site (at 610 m a.s.l.) was non-existent or weak, presumably creating conditions with low aerosol condensation sink and allowing fresh marine emissions to be mixed upward to the observatory's altitude. While the nature of the gaseous precursors responsible for the growth events is still poorly understood, oxidation of dimethyl sulfide alone to produce particle-phase sulfate or methanesulfonic acid was inconsistent with the measured aerosol composition, suggesting the importance of other gas-phase organic compounds condensing for particle growth.

Published

2019

44. Intra- and interpersonal effects of coping style and self-efficacy on anxiety, depression and life satisfaction in patient-partner couples after stroke

Author

J. J. E. Welten, V. C. M. Cox, W. J. Kruithof, J. M. A. Visser-Meily, M. W. M. Post, C. M. van Heugten, V. P. M. Schepers, Psychology 3, Section Neuropsychology, RS: MHeNs - R1 - Cognitive Neuropsychiatry and Clinical Neuroscience, RS: FPN NPPP I, and Psychiatrie & Neuropsychologie

Subjects

SYMPTOMS, Rehabilitation, Couples, SPOUSES, HOSPITAL ANXIETY, NATURAL-HISTORY, Stroke, FAMILY CAREGIVER, Neuropsychology and Physiological Psychology, Arts and Humanities (miscellaneous), Dyad, QUALITY-OF-LIFE, SCALE HADS, HEALTH, PREDICTORS, Applied Psychology, Partners, METAANALYSIS

Abstract

Many stroke patients and partners suffer from anxiety, depression, and low life satisfaction. Psychological factors such as coping style and self-efficacy can be protective factors within individuals. The close relationship between stroke patients and partners suggests that there may be interdependence in psychological functioning. The aim of this study was to examine intra- and interpersonal effects of coping style and self-efficacy on anxiety, depression, and life satisfaction in patient-partners couples. In this prospective cohort study, pro-active coping (UPCC), general self-efficacy (GSES), anxiety (HADS-A), depression (HADS-D), and life satisfaction (1-6 scale) were assessed in 215 couples at 2 and 12 months post-stroke. Effects within couples were assessed using structural equation modelling. Several intra- and interpersonal effects of coping style and self-efficacy at 2 months post-stroke were related to emotional health at 12 months post-stroke. Most effects were intrapersonal effects. The interpersonal effects were small but showed that pro-active coping by the patient was associated with lower anxiety of the partner. Higher self-efficacy of the partner was associated with lower depression scores and higher life satisfaction of the patient. This study underscores the importance of a dyadic approach to post-stroke functioning. It supports a family-based approach for treating post-stroke emotional problems.

Published

2023

45. High gas-phase mixing ratios of formic and acetic acid in the High Arctic

Author

E. L. Mungall, J. P. D. Abbatt, J. J. B. Wentzell, G. R. Wentworth, J. G. Murphy, D. Kunkel, E. Gute, D. W. Tarasick, S. Sharma, C. J. Cox, T. Uttal, and J. Liggio

Subjects

Physics, QC1-999, Chemistry, QD1-999

Abstract

Formic and acetic acid are ubiquitous and abundant in the Earth's atmosphere and are important contributors to cloud water acidity, especially in remote regions. Their global sources are not well understood, as evidenced by the inability of models to reproduce the magnitude of measured mixing ratios, particularly at high northern latitudes. The scarcity of measurements at those latitudes is also a hindrance to understanding these acids and their sources. Here, we present ground-based gas-phase measurements of formic acid (FA) and acetic acid (AA) in the Canadian Arctic collected at 0.5 Hz with a high-resolution chemical ionization time-of-flight mass spectrometer using the iodide reagent ion (iodide HR-ToF-CIMS, Aerodyne). This study was conducted at Alert, Nunavut, in the early summer of 2016. FA and AA mixing ratios for this period show high temporal variability and occasional excursions to very high values (up to 11 and 40 ppbv respectively). High levels of FA and AA were observed under two very different conditions: under overcast, cold conditions during which physical equilibrium partitioning should not favor their emission, and during warm and sunny periods. During the latter, sunny periods, the FA and AA mixing ratios also displayed diurnal cycles in keeping with a photochemical source near the ground. These observations highlight the complexity of the sources of FA and AA, and suggest that current chemical transport model implementations of the sources of FA and AA in the Arctic may be incomplete.

Published

2018

46. Central-Pacific surface meteorology from the 2016 El Niño Rapid Response (ENRR) field campaign

Author

L. M. Hartten, C. J. Cox, P. E. Johnston, D. E. Wolfe, S. Abbott, and H. A. McColl

Subjects

Environmental sciences, GE1-350, Geology, QE1-996.5

Abstract

During the early months of the 2015/2016 El Niño event, scientists led by the Earth System Research Laboratory's Physical Sciences Division conducted the National Oceanic and Atmospheric Administration's (NOAA's) El Niño Rapid Response (ENRR) field campaign. One component of ENRR involved in situ observations collected over the near-equatorial eastern–central Pacific Ocean. From 25 January to 28 March 2016, standard surface meteorology observations, including rainfall, were collected at Kiritimati Island (2.0° N, 157.4° E) in support of twice-daily radiosonde launches. From 16 February to 16 March 2016, continuous measurements of surface meteorology, sea surface temperature, and downwelling shortwave radiation were made by NOAA Ship Ronald H. Brown. These were largely done in support of the four to eight radiosondes launched each day as the ship travelled from Hawaii to TAO buoy locations along longitudes 140 and 125° W and then back to port in San Diego, California. The rapid nature of these remote field deployments led to some specific challenges in addition to those common to many surface data collection efforts. This paper documents the two deployments as well as the steps taken to evaluate and process the data. The results are two multi-week surface meteorology data products and one accompanying set of surface fluxes, all collected in the core of the eastern–central Pacific's extremely warm waters. These data sets, plus metadata, are archived at the NOAA's National Centers for Environmental Information (NCEI) and are free for public access: surface meteorology from Kiritimati Island (https://doi.org/10.7289/V51Z42H4); surface meteorology and some surface fluxes from NOAA Ship Ronald H. Brown (https://doi.org/10.7289/V5SF2T80; https://doi.org/10.7289/V58050VP).

Published

2018

47. Ship- and island-based soundings from the 2016 El Niño Rapid Response (ENRR) field campaign

Author

L. M. Hartten, C. J. Cox, P. E. Johnston, D. E. Wolfe, S. Abbott, H. A. McColl, X.-W. Quan, and M. G. Winterkorn

Subjects

Environmental sciences, GE1-350, Geology, QE1-996.5

Abstract

As the 2015/2016 El Niño was gathering strength in late 2015, scientists at the Earth System Research Laboratory's Physical Sciences Division proposed and led the implementation of the National Oceanic and Atmospheric Administration's (NOAA's) El Niño Rapid Response (ENRR) Field Campaign. ENRR observations included wind and thermodynamic profiles of the atmosphere over the near-equatorial eastern central Pacific Ocean, many of which were collected from two field sites and transmitted in near-real time for inclusion in global forecasting models. From 26 January to 28 March 2016, twice-daily rawinsonde observations were made from Kiritimati (pronounced Christmas) Island (2.0° N, 157.4° E; call sign CXENRR). From 16 February to 16 March 2016, three to eight radiosondes were launched each day from NOAA Ship Ronald H. Brown (allocated call sign WTEC) as it travelled southeast from Hawaii to service Tropical Atmosphere Ocean (TAO) buoys along longitudes 140 and 125° W and then north to San Diego, California. Both the rapid and remote nature of these deployments created particular difficulties in collecting and disseminating the soundings; these are described together with the methods used to reprocess the data after the field campaign finished. The reprocessed and lightly quality-controlled data have been put into an easy-to-read text format, qualifying them to be termed Level 2 soundings. They are archived and freely available for public access at NOAA's National Centers for Environmental Information (NCEI) in the form of two separate data sets: one consisting of 125 soundings from Kiritimati (https://doi.org/10.7289/V55Q4T5K), the other of 193 soundings from NOAA Ship Ronald H. Brown (https://doi.org/10.7289/V5X63K15). Of the Kiritimati soundings, 94 % reached the tropopause and 88 % reached 40 hPa, while 89 % of the ship's soundings reached the tropopause and 87 % reached 40 hPa. The soundings captured the repeated advance and retreat of the Intertropical Convergence Zone (ITCZ) at Kiritimati, a variety of marine tropospheric environments encountered by the ship, and lower-stratospheric features of the 2015–2016 QBO (quasi-biennial oscillation), all providing a rich view of the local atmosphere's response to the eastern central Pacific's extremely warm waters during the 2015/16 El Niño.

Published

2018

48. Biogeography: An Ecological and Evolutionary Approach

Author

C. Barry Cox, Richard J. Ladle, Peter D. Moore

Published

2019

49. Surface energy budget responses to radiative forcing at Summit, Greenland

Author

N. B. Miller, M. D. Shupe, C. J. Cox, D. Noone, P. O. G. Persson, and K. Steffen

Subjects

Environmental sciences, GE1-350, Geology, QE1-996.5

Abstract

Greenland Ice Sheet surface temperatures are controlled by an exchange of energy at the surface, which includes radiative, turbulent, and ground heat fluxes. Data collected by multiple projects are leveraged to calculate all surface energy budget (SEB) terms at Summit, Greenland, for the full annual cycle from July 2013 to June 2014 and extend to longer periods for the radiative and turbulent SEB terms. Radiative fluxes are measured directly by a suite of broadband radiometers. Turbulent sensible heat flux is estimated via the bulk aerodynamic and eddy correlation methods, and the turbulent latent heat flux is calculated via a two-level approach using measurements at 10 and 2 m. The subsurface heat flux is calculated using a string of thermistors buried in the snow pack. Extensive quality-control data processing produced a data set in which all terms of the SEB are present 75 % of the full annual cycle, despite the harsh conditions. By including a storage term for a near-surface layer, the SEB is balanced in this data set to within the aggregated uncertainties for the individual terms. November and August case studies illustrate that surface radiative forcing is driven by synoptically forced cloud characteristics, especially by low-level, liquid-bearing clouds. The annual cycle and seasonal diurnal cycles of all SEB components indicate that the non-radiative terms are anticorrelated to changes in the total radiative flux and are hence responding to cloud radiative forcing. Generally, the non-radiative SEB terms and the upwelling longwave radiation component compensate for changes in downwelling radiation, although exact partitioning of energy in the response terms varies with season and near-surface characteristics such as stability and moisture availability. Substantial surface warming from low-level clouds typically leads to a change from a very stable to a weakly stable near-surface regime with no solar radiation or from a weakly stable to neutral/unstable regime with solar radiation. Relationships between forcing terms and responding surface fluxes show that the upwelling longwave radiation produces 65–85 % (50–60 %) of the total response in the winter (summer) and the non-radiative terms compensate for the remaining change in the combined downwelling longwave and net shortwave radiation. Because melt conditions are rarely reached at Summit, these relationships are documented for conditions of surface temperature below 0 °C, with and without solar radiation. This is the first time that forcing and response term relationships have been investigated in detail for the Greenland SEB. These results should both advance understanding of process relationships over the Greenland Ice Sheet and be useful for model validation.

Published

2017

50. Toward autonomous surface-based infrared remote sensing of polar clouds: cloud-height retrievals

Author

P. M. Rowe, C. J. Cox, and V. P. Walden

Subjects

Environmental engineering, TA170-171, Earthwork. Foundations, TA715-787

Abstract

Polar regions are characterized by their remoteness, making measurements challenging, but an improved knowledge of clouds and radiation is necessary to understand polar climate change. Infrared radiance spectrometers can operate continuously from the surface and have low power requirements relative to active sensors. Here we explore the feasibility of retrieving cloud height with an infrared spectrometer that would be designed for use in remote polar locations. Using a wide variety of simulated spectra of mixed-phase polar clouds at varying instrument resolutions, retrieval accuracy is explored using the CO2 slicing/sorting and the minimum local emissivity variance (MLEV) methods. In the absence of imposed errors and for clouds with optical depths greater than ∼ 0.3, cloud-height retrievals from simulated spectra using CO2 slicing/sorting and MLEV are found to have roughly equivalent high accuracies: at an instrument resolution of 0.5 cm−1, mean biases are found to be ∼ 0.2 km for clouds with bases below 2 and −0.2 km for higher clouds. Accuracy is found to decrease with coarsening resolution and become worse overall for MLEV than for CO2 slicing/sorting; however, the two methods have differing sensitivity to different sources of error, suggesting an approach that combines them. For expected errors in the atmospheric state as well as both instrument noise and bias of 0.2 mW/(m2 sr cm−1), at a resolution of 4 cm−1, average retrieval errors are found to be less than ∼ 0.5 km for cloud bases within 1 km of the surface, increasing to ∼ 1.5 km at 4 km. This sensitivity indicates that a portable, surface-based infrared radiance spectrometer could provide an important complement in remote locations to satellite-based measurements, for which retrievals of low-level cloud are challenging.

Published

2016