Your search keyword '"Catling, P."' showing total 1,133 results

1. Potential technosignature from anomalously low deuterium/hydrogen (D/H) in planetary water depleted by nuclear fusion technology

Author

Catling, David C., Krissansen-Totton, Joshua, and Robinson, Tyler D.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Deuterium-deuterium (DD) fusion is viewed as an ideal energy source for humanity in the far future, given a vast seawater supply of D. Here, we consider long-lived, extraterrestrial, technological societies that develop DD fusion. If such a society persists over geologic timescales, oceanic deuterium would diminish. For an ocean mass and initial D/H that are Earth-like, fusion power use of only $\sim$10 times that projected for humankind next century would deplete the deuterium-hydrogen ratio (D/H) in $\sim$(a few)$\times 10^8$ years to values below that of the local Interstellar Medium (ISM). Ocean masses of a few percent Earth's would reach anomalously low D/H in $\sim10^6$ to $10^7$ years. The timescale shortens with greater energy consumption, smaller oceans, or lower initial D/H. Here, we suggest that anomalous D/H in planetary water below local ISM values of $\sim16\times 10^{-6}$ (set by Big Bang nucleosynthesis plus deuterium loss onto dust or small admixtures of deuterium-poor stellar material) may be a technosignature. Unlike SETI from radio signals, anomalous D/H would persist for eons, even if civilizations perish or relocate. We discuss wavelengths of strong absorption features for detecting D/H anomalies in atmospheric water vapor. These are vibrational O-D stretching at 3.7 $\mu$m in transmission spectroscopy of Earth-like worlds, $\sim1.5$ $\mu$m (in the wings of the 1.4 $\mu$m water band) in the shorter near-infrared for direct imaging by Habitable Worlds Observatory, and 3.7 $\mu$m or $\sim7.5$ $\mu$m (in the wings of the broad 6.3 $\mu$m bending vibration of water) for concepts like the Large Interferometer for Exoplanets (LIFE)., Comment: Submitted to Astrophys. J. on March 12, 2024. Accepted for publication on November 27, 2024

Published

2024

2. In-situ crystallographic mapping constrains sulfate deposition and timing in Jezero crater, Mars

Author

Jones, Michael W. M., Flannery, David T., Hurowitz, Joel A., Tice, Mike T., Schrank, Christoph E., Allwood, Abigail C., Tosca, Nicholas J., Catling, David C., VanBommel, Scott J., Knight, Abigail L., Ganly, Briana, Siebach, Kirsten L., Benison, Kathleen C., Broz, Adrian P., Zorzano, Maria-Paz, Heirwegh, Chris M., Orenstein, Brendan J., Clark, Benton C., Sinclair, Kimberly P., Shumway, Andrew O., Wade, Lawrence A., Davidoff, Scott, Nemere, Peter, Wright, Austin P., Galvin, Adrian E., Randazzo, Nicholas, Martinez-Frias, Jesus, and ONeil, Lauren P.

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Instrumentation and Detectors

Abstract

Late-stage Ca-sulfate-filled fractures are common on Mars. Notably, the Shenandoah formation in the western edge of Jezero crater preserves a variety of Ca-sulfate minerals in the fine-grained siliciclastic rocks explored by the Perseverance rover. However, the depositional environment and timing of the formation of these sulfates is unknown. To address this outstanding problem, we developed a new technique to map the crystal textures of these sulfates in situ at two stratigraphically similar locations in the Shenandoah formation, allowing us to constrain the burial depth and paleoenvironment at the time of their deposition. Our results suggest that some Ca-sulfate analyzed was formed at a burial depth greater than 80m, whereas Ca-sulfates present at another outcrop likely precipitated in a shallow-subsurface environment. These results indicate that samples collected for potential return to Earth at the two studied locations capture two different times and distinct chemical conditions in the depositional history of the Shenandoah formation providing multiple opportunities to evaluate surface and subsurface habitability.

Published

2024

3. Three-stage Formation of Cap Carbonates after Marinoan Snowball Glaciation Consistent with Depositional Timescales and Geochemistry

Author

Thomas, Trent B. and Catling, David C.

Subjects

Astrophysics - Earth and Planetary Astrophysics, Physics - Atmospheric and Oceanic Physics, Physics - Geophysics

Abstract

At least two global "Snowball Earth" glaciations occurred during the Neoproterozoic Era (1000-538.8 million years ago). Post-glacial surface environments during this time are recorded in cap carbonates: layers of limestone or dolostone that directly overlie glacial deposits. Postulated environmental conditions that created the cap carbonates lack consensus largely because single hypotheses fail to explain the cap carbonates' global mass, depositional timescales, and geochemistry of parent waters. Here, we present a global geologic carbon cycle model before, during, and after the second glaciation (i.e. the Marinoan) that explains cap carbonate characteristics. We find a three-stage process for cap carbonate formation: (1) low-temperature seafloor weathering during glaciation generates deep-sea alkalinity; (2) vigorous post-glacial continental weathering supplies alkalinity to a carbonate-saturated freshwater layer, rapidly precipitating cap carbonates; (3) mixing of post-glacial meltwater with deep-sea alkalinity prolongs cap carbonate deposition. We suggest how future geochemical data and modeling refinements could further assess our hypothesis., Comment: Main text is 30 pages double spaced. 8 figures, 1 table. Supplementary Material included at end of file. Published in Nature Communications

Published

2024

4. Inferring Chemical Disequilibrium Biosignatures for Proterozoic Earth-Like Exoplanets

Author

Young, Amber V., Robinson, Tyler D., Krissansen-Totton, Joshua, Schwieterman, Edward W., Wogan, Nicholas F., Way, Michael J., Sohl, Linda E., Arney, Giada N., Reinhard, Christopher T., Line, Michael R., Catling, David C., and Windsor, James D.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Chemical disequilibrium quantified via available free energy has previously been proposed as a potential biosignature. However, exoplanet biosignature remote sensing work has not yet investigated how observational uncertainties impact the ability to infer a life-generated available free energy. We pair an atmospheric retrieval tool to a thermodynamics model to assess the detectability of chemical disequilibrium signatures of Earth-like exoplanets, emphasizing the Proterozoic Eon where atmospheric abundances of oxygen-methane disequilibrium pairs may have been relatively high. Retrieval model studies applied across a range of gas abundances revealed that order-of-magnitude constraints on disequilibrium energy are achieved with simulated reflected-light observations at the high abundance scenario and signal-to-noise ratios (50) while weak constraints are found at moderate SNRs (20\,--\,30) for med\,--\,low abundance cases. Furthermore, the disequilibrium energy constraints are improved by modest thermal information encoded in water vapor opacities at optical and near-infrared wavelengths. These results highlight how remotely detecting chemical disequilibrium biosignatures can be a useful and metabolism-agnostic approach to biosignature detection., Comment: Nature Astronomy. Supplementary information see https://zenodo.org/records/10093798 For Source Data see https://zenodo.org/records/8335447

Published

2023

5. Inferring chemical disequilibrium biosignatures for Proterozoic Earth-like exoplanets

Author

Young, Amber V, Robinson, Tyler D, Krissansen-Totton, Joshua, Schwieterman, Edward W, Wogan, Nicholas F, Way, Michael J, Sohl, Linda E, Arney, Giada N, Reinhard, Christopher T, Line, Michael R, Catling, David C, and Windsor, James D

Subjects

Astronomical Sciences, Physical Sciences, Astronomical sciences, Particle and high energy physics, Space sciences

Abstract

Abstract: Chemical disequilibrium quantified using the available free energy has previously been proposed as a potential biosignature. However, researchers remotely sensing exoplanet biosignatures have not yet investigated how observational uncertainties impact the ability to infer a life-generated available free energy. We pair an atmospheric retrieval tool to a thermodynamics model to assess the detectability of chemical disequilibrium signatures of Earth-like exoplanets, focusing on the Proterozoic eon when the atmospheric abundances of oxygen–methane disequilibrium pairs may have been relatively high. Retrieval model studies applied across a range of gas abundances revealed that order-of-magnitude constraints on the disequilibrium energy are achieved with simulated reflected-light observations for the high-abundance scenario and high signal-to-noise ratios (50), whereas weak constraints are found for moderate signal-to-noise ratios (20–30) and medium- to low-abundance cases. Furthermore, the disequilibrium-energy constraints are improved by using the modest thermal information encoded in water vapour opacities at optical and near-infrared wavelengths. These results highlight how remotely detecting chemical disequilibrium biosignatures can be a useful and metabolism-agnostic approach to biosignature detection.

Published

2024

6. Biogeochemical explanations for the world’s most phosphate-rich lake, an origin-of-life analog

Author

Haas, Sebastian, Sinclair, Kimberly Poppy, and Catling, David C.

Published

2024

7. How Age of Acquisition Affects Compound Word Recognition

Author

M. M. Elsherif and J. C. Catling

Abstract

Purpose: Adults recognize words that are acquired during childhood more quickly than words acquired during adulthood. This is known as the Age of Acquisition (AoA) effect. The AoA effect, according to the integrated account, manifests in tasks necessitating greater semantic processing and in tasks with arbitrary input-output mapping. Compound words allow us to investigate this account due to the arbitrary input-output mapping between the compound word itself and its morphemes, which requires greater semantic processing. Method: Forty-eight British English students in each experiment completed an unspaced (Experiment 1; n = 48; 83% female; M[subscript age] = 19.73), spaced (Experiment 2; n = 48; 83% female; M[subscript age] = 19.04), auditory (Experiment 3; n = 48; 63% female; M[subscript age] = 19.83), and cross-modal (Experiment 4; n = 48; 52% female; M[subscript age] = 19.81) lexical decision task (LDT) using a regression design on 226 compound words. Results: We observed that the AoA of the compound word affected accuracy across all tasks, whereas the AoA of the compound word influenced recognition latencies across all tasks except cross-modal LDT. Discussion: The results suggest that the influence of the AoA effect and of semantic predictors is largest in unspaced compound words and smallest in cross-modal LDT. This indicates that the AoA effect in word recognition is in line with the integrated account.

Published

2024

8. Origin of Life Molecules in the Atmosphere After Big Impacts on the Early Earth

Author

Wogan, Nicholas F., Catling, David C., Zahnle, Kevin J., and Lupu, Roxana

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The origin of life on Earth would benefit from a prebiotic atmosphere that produced nitriles, like HCN, which enable ribonucleotide synthesis. However, geochemical evidence suggests that Hadean air was relatively oxidizing with negligible photochemical production of prebiotic molecules. These paradoxes are resolved by iron-rich asteroid impacts that transiently reduced the entire atmosphere, allowing nitriles to form in subsequent photochemistry. Here, we investigate impact-generated reducing atmospheres using new time-dependent, coupled atmospheric chemistry and climate models, which account for gas-phase reactions and surface-catalysis. The resulting H$_2$-, CH$_4$- and NH$_3$-rich atmospheres persist for millions of years, until hydrogen escapes to space. HCN and HCCCN production and rainout to the surface can reach $10^9$ molecules cm$^{-2}$ s$^{-1}$ in hazy atmospheres with a mole ratio of $\mathrm{CH_4} / \mathrm{CO_2} > 0.1$. Smaller $\mathrm{CH_4} / \mathrm{CO_2}$ ratios produce HCN rainout rates $< 10^5$ molecules cm$^{-2}$ s$^{-1}$, and negligible HCCCN. The minimum impactor mass that creates atmospheric $\mathrm{CH_4} / \mathrm{CO_2} > 0.1$ is $4 \times 10^{20}$ to $5 \times 10^{21}$ kg (570 to 1330 km diameter), depending on how efficiently iron reacts with a steam atmosphere, the extent of atmospheric equilibration with an impact-induced melt pond, and the surface area of nickel that catalyzes CH$_4$ production. Alternatively, if steam permeates and deeply oxidizes crust, impactors $\sim 10^{20}$ kg could be effective. Atmospheres with copious nitriles have $> 360$ K surface temperatures, perhaps posing a challenge for RNA longevity, although cloud albedo can produce cooler climates. Regardless, post-impact cyanide can be stockpiled and used in prebiotic schemes after hydrogen has escaped to space., Comment: Accepted by Planetary Science Journal on 7/4/23

Published

2023

9. Three-stage formation of cap carbonates after Marinoan snowball glaciation consistent with depositional timescales and geochemistry

Author

Trent B. Thomas and David C. Catling

Subjects

Science

Abstract

Abstract At least two global “Snowball Earth” glaciations occurred during the Neoproterozoic Era (1000-538.8 million years ago). Post-glacial surface environments during this time are recorded in cap carbonates: layers of limestone or dolostone that directly overlie glacial deposits. Postulated environmental conditions that created the cap carbonates lack consensus largely because single hypotheses fail to explain the cap carbonates’ global mass, depositional timescales, and geochemistry of parent waters. Here, we present a global geologic carbon cycle model before, during, and after the second glaciation (i.e. the Marinoan) that explains cap carbonate characteristics. We find a three-stage process for cap carbonate formation: (1) low-temperature seafloor weathering during glaciation generates deep-sea alkalinity; (2) vigorous post-glacial continental weathering supplies alkalinity to a carbonate-saturated freshwater layer, rapidly precipitating cap carbonates; (3) mixing of post-glacial meltwater with deep-sea alkalinity prolongs cap carbonate deposition. We suggest how future geochemical data and modeling refinements could further assess our hypothesis.

Published

2024

10. Assessing the mindfulness predictors of mental health: does mindfulness practise or dispositional mindfulness better protect young peoples’ mental health?

Author

Guste Juozelskyte and Jon Catling

Subjects

Mindfulness, mental health, wellbeing, depression, anxiety, Medicine, Psychology, BF1-990

Abstract

ABSTRACTBackground University is an important time in a young person's life. Although it is a time of exploration, self-discovery and socialising, it is also a time of increased vulnerability to mental health problems such as anxiety and depression. Studies have shown that engagement in mindfulness activities can have a positive effect on mental health. However, research is limited in its scope in particular in relation to stressful (transitional) periods of life.Methods The current study aims to address this issue by providing evidence on the predictive impact of both mindfulness practice and ‘dispositional' (or trait) mindfulness on students’ mental health. In total, we gathered data from 190 first-year students.Results A multiple regression was utilised for data analysis. This showed that ‘dispositional’ mindfulness, but not mindful activity had a significant impact on mental health scores.Conclusion This provides data for future research into the effectiveness of mindfulness interventions for student adaptation to university and potential interventions.

Published

2024

11. Age-of-Acquisition Effects: A Literature Review

Author

Elsherif, M. M., Preece, E., and Catling, J. C.

Abstract

Age of acquisition (AoA) refers to the age at which people learn a particular item and the AoA effect refers to the phenomenon that early-acquired items are processed more quickly and accurately than those acquired later. Over several decades, the AoA effect has been investigated using neuroscientific, behavioral, corpus and computational techniques. We review the current evidence for the AoA effect stemming from a range of methodologies and paradigms and apply these findings to current explanations of how and where the AoA effect occurs. We conclude that the AoA effect can be found both in the connections between levels of representations and within these representations themselves, and that the effect itself occurs through the process of the distinct coding of early and late items, together with the nature of the connections between levels of representation. This approach strongly suggests that the AoA effect results from the construction of perceptual-semantic representations and the mappings between representations.

Published

2023

12. Astrobiological Potential of Rocks Acquired by the Perseverance Rover at a Sedimentary Fan Front in Jezero Crater, Mars

Author

T. Bosak, D. L. Shuster, E. L. Scheller, S. Siljeström, M. J. Zawaski, L. Mandon, J. I. Simon, B. P. Weiss, K. M. Stack, E. N. Mansbach, A. H. Treiman, K. C. Benison, A. J. Brown, A. D. Czaja, K. A. Farley, E. M. Hausrath, K. Hickman‐Lewis, C. D. K. Herd, J. R. Johnson, L. E. Mayhew, M. E. Minitti, K. H. Williford, B. V. Wogsland, M.‐P. Zorzano, A. C. Allwood, H. E. F. Amundsen, J. F. Bell III, K. Benzerara, S. Bernard, O. Beyssac, D. K. Buckner, M. Cable, F. Calef III, G. Caravaca, D. C. Catling, E. Clavé, E. Cloutis, B. A. Cohen, A. Cousin, E. Dehouck, A. G. Fairén, D. T. Flannery, T. Fornaro, O. Forni, T. Fouchet, E. Gibbons, F. Gomez Gomez, S. Gupta, K. P. Hand, J. A. Hurowitz, H. Kalucha, D. A. K. Pedersen, G. Lopes‐Reyes, J. N. Maki, S. Maurice, J. I. Nuñez, N. Randazzo, J. W. Rice Jr., C. Royer, M. A. Sephton, S. Sharma, A. Steele, C. D. Tate, K. Uckert, A. Udry, R. C. Wiens, and A. Williams

Subjects

Mars, sedimentary geochemistry, planetary geochemistry, origin of life, hydrothermal systems and weathering on other planets, hydrology and fluvial processes, Geology, QE1-996.5, Geophysics. Cosmic physics, QC801-809

Abstract

Abstract The Perseverance rover has collected seven oriented samples of sedimentary rocks, all likely older than the oldest signs of widespread life on Earth, at the exposed base of the western fan in Jezero crater, Mars. The samples include a sulfate‐ and clay‐bearing mudstone and sandstone, a fluvial sandstone from a stratigraphically low position at the fan front, and a carbonate‐bearing sandstone deposited above the sulfate‐bearing strata. All samples contain aqueously precipitated materials and most or all were aqueously deposited. Although the rover instruments have not confidently detected organic matter in the rocks from the fan front, the much more sensitive terrestrial instruments will still be able to search for remnants of prebiotic chemistries and past life, and study Mars's past habitability in the samples returned to Earth. The hydrated, sulfate‐bearing mudstone has the highest potential to preserve organic matter and biosignatures, whereas the carbonate‐bearing sandstones can be used to constrain when and for how long Jezero crater contained liquid water. Returned sample science analyses of sulfate, carbonate, clay, phosphate and igneous minerals as well as trace metals and volatiles that are present in the samples acquired at the fan front would provide transformative insights into past habitable environments on Mars, the evolution of its magnetic field, atmosphere and climate and the past and present cycling of atmospheric and crustal water, sulfur and carbon.

Published

2024

13. Being Explicit about the Moral Purpose of Primary Geography

Author

Simon Catling

Subjects

primary geography, school geography statements, stating geography's morality explicitly, values in primary geography, Geography. Anthropology. Recreation

Abstract

The moral dimension of primary geography in England is less obvious in the current national curriculum requirements for geography. The debate about geography and powerful knowledge has dominated in recent years, and has limited consideration of morality in geography. As a result, primary school geography curriculum statements focus on the knowledge (and skills) to be learned, leaving the moral dimension often unstated and implicit. The view in this article is that the moral dimension in primary geography is important and cannot be neglected. Primary schools need to make clear in their geography curriculum statements the moral aspects (or values) which they espouse in the subject to ensure these are clear to all who have a stake in the school's geography curriculum.

Published

2024

14. Continuing Focus on Primary Geography

Author

Simon Catling and Péter Bagoly-Simó

Subjects

Geography. Anthropology. Recreation

Published

2024

15. Biogeochemical explanations for the world’s most phosphate-rich lake, an origin-of-life analog

Author

Sebastian Haas, Kimberly Poppy Sinclair, and David C. Catling

Subjects

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

Abstract

Abstract Environmental phosphate concentrations are typically much lower (~10−6 M) than needed for prebiotic phosphorylation of nucleosides, critical for the origin of life. Here, we tested hypotheses explaining highly concentrated dissolved phosphate in carbonate-rich “soda” lakes by examining phosphorus and nitrogen cycling in Last Chance Lake and Goodenough Lake, Canada. We find a lack of geochemical phosphorus precipitation, that sedimentary calcium is in dolomite rather than apatite, and that N2-fixation rates, probably suppressed by high salinity, are too low to create significant biological phosphate demand. Thus, nitrogen-limitation of biological production and precipitation of calcium-rich carbonate instead of apatite combine to allow unimpeded evaporative phosphate buildup in Last Chance Lake to the highest known natural levels (37 mM) due to small biological and geochemical phosphorus sinks. Forming on basaltic rock, which was likely common on early Earth, evaporative soda lakes were consequently plausible origin-of-life settings with sufficient phosphate for prebiotic synthesis.

Published

2024

16. Can Machine Learning Personalize Cardiovascular Therapy in Sepsis?

Author

Finneas J. R. Catling, MSc, MRCP(UK), FFCI, Myura Nagendran, BMBCh, MRCP(UK), FRCA, FFICM, Paul Festor, MEng, MSc, Zuzanna Bien, BMBCh, Steve Harris, PhD, FRCA, FFICM, A. Aldo Faisal, PhD, Anthony C. Gordon, MD, FRCA, FFICM, FMedSci, and Matthieu Komorowski, PhD

Subjects

Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9

Abstract

Large randomized trials in sepsis have generally failed to find effective novel treatments. This is increasingly attributed to patient heterogeneity, including heterogeneous cardiovascular changes in septic shock. We discuss the potential for machine learning systems to personalize cardiovascular resuscitation in sepsis. While the literature is replete with proofs of concept, the technological readiness of current systems is low, with a paucity of clinical trials and proven patient benefit. Systems may be vulnerable to confounding and poor generalization to new patient populations or contemporary patterns of care. Typical electronic health records do not capture rich enough data, at sufficient temporal resolution, to produce systems that make actionable treatment suggestions. To resolve these issues, we recommend a simultaneous focus on technical challenges and removing barriers to translation. This will involve improving data quality, adopting causally grounded models, prioritizing safety assessment and integration into healthcare workflows, conducting randomized clinical trials and aligning with regulatory requirements.

Published

2024

17. Habitability Models for Astrobiology

Author

Méndez, Abel, Rivera-Valentín, Edgard E., Schulze-Makuch, Dirk, Filiberto, Justin, Ramírez, Ramses M., Wood, Tana, Dávila, Alfonso, McKay, Chris, Ceballos, Kevin N. Ortiz, Jusino-Maldonado, Marcos, Torres-Santiago, Nicole J., Nery, Guillermo, Heller, René, Byrne, Paul K., Malaska, Michael J., Nathan, Erica, Simões, Marta F., Antunes, André, Martínez-Frías, Jesús, Carone, Ludmila, Izenberg, Noam R., Atri, Dimitra, Chitty, Humberto I. Carvajal, Nowajewski-Barra, Priscilla, Rivera-Hernández, Frances, Brown, Corine, Lynch, Kennda, Catling, David, Zuluaga, Jorge I., Salazar, Juan F., Chen, Howard, González, Grizelle, Jagadeesh, Madhu Kashyap, and Haqq-Misra, Jacob

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Quantitative Biology - Quantitative Methods

Abstract

Habitability has been generally defined as the capability of an environment to support life. Ecologists have been using Habitat Suitability Models (HSMs) for more than four decades to study the habitability of Earth from local to global scales. Astrobiologists have been proposing different habitability models for some time, with little integration and consistency among them, being different in function to those used by ecologists. Habitability models are not only used to determine if environments are habitable or not, but they also are used to characterize what key factors are responsible for the gradual transition from low to high habitability states. Here we review and compare some of the different models used by ecologists and astrobiologists and suggest how they could be integrated into new habitability standards. Such standards will help to improve the comparison and characterization of potentially habitable environments, prioritize target selections, and study correlations between habitability and biosignatures. Habitability models are the foundation of planetary habitability science and the synergy between ecologists and astrobiologists is necessary to expand our understanding of the habitability of Earth, the Solar System, and extrasolar planets., Comment: Published in Astrobiology, 21(8). arXiv admin note: substantial text overlap with arXiv:2007.05491

Published

2021

18. The peak absorbance wavelength of photosynthetic pigments around other stars from spectral optimization

Author

Lehmer, Owen R., Catling, David C., Parenteau, Mary N., Kiang, Nancy Y., and Hoehler, Tori M.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

In the search for life on other planets, the presence of photosynthetic vegetation may be detectable from the colors of light it reflects. On the modern Earth, this spectral reflectance is characterized by an increase in reflectance between the red and near-infrared wavelengths, a "red edge". On planets orbiting different stellar types, red edge analogs may occur at other colors than red. Thus, knowing the wavelengths at which photosynthetic organisms preferentially absorb and reflect photons is necessary to detect red edge analogs on other planets. Using a numerical model that predicts the absorbance spectrum of extant photosynthetic pigments on Earth from Marosv\"olgyi and van Gorkom (2010), we calculate the absorbance spectrum for pigments on an Earth-like planet around F through late M type stars that are adapted for maximal energy production. In this model, cellular energy production is maximized when pigments are tuned to absorb at the wavelength that maximizes energy input from incident photons while minimizing thermal emission and costs to build the photosynthetic apparatus. We find that peak photon absorption for photosynthetic organisms around F type stars tends to be in the blue while for G, K, and early M type stars, red or just beyond is preferred. Around the coolest M type stars, these organisms may preferentially absorb in the near-infrared, possibly past one micron. These predictions are consistent with previous, qualitative estimates of pigment absorptance. Our predicted pigment absorbance spectra depend on both the stellar type and planetary atmospheric composition, especially atmospheric water vapor concentrations, which alter the availability of surface photons and thus the predicted pigment absorption. By constraining the absorbance spectra of alien, photosynthetic organisms, future observations may be better equipped to detect red edge analogs.

Published

2021

19. Anoxic Atmospheres on Mars Driven by Volcanism: Implications for Past Environments and Life

Author

Sholes, Steven F., Smith, Megan L., Claire, Mark W., Zahnle, Kevin J., and Catling, David C.

Subjects

Astrophysics - Earth and Planetary Astrophysics, Physics - Atmospheric and Oceanic Physics, Physics - Geophysics

Abstract

Mars today has no active volcanism and its atmosphere is oxidizing, dominated by the photochemistry of CO2 and H2O. Using a one-dimensional photochemical model, we consider whether plausible volcanic gas fluxes could have switched the redox-state of the past martian atmosphere to reducing conditions. In our model, the total quantity and proportions of volcanic gases depend on the water content, outgassing pressure, and oxygen fugacity of the source melt. We find that with reasonable melt parameters the past martian atmosphere (~3.5 Gyr to present) could have easily reached reducing and anoxic conditions with modest levels of volcanism, >0.14 km^3/yr, well within the range of prior estimates. Counter-intuitively we also find that more reducing melts with lower oxygen fugacity require greater amounts of volcanism to switch a paleo-atmosphere from oxidizing to reducing. The reason is that sulfur is more stable in such melts and lower absolute fluxes of sulfur-bearing gases more than compensate for increases in the proportions of H2 and CO. These results imply that ancient Mars should have experienced periods with anoxic and reducing atmospheres even through the mid-Amazonian whenever volcanic outgassing was sustained at sufficient levels. Reducing anoxic conditions are potentially conducive to the synthesis of prebiotic organic compounds, such as amino acids, and are therefore relevant to the possibility of life on Mars. Also, anoxic reducing conditions should have influenced the type of minerals that were formed on the surface or deposited from the atmosphere such as elemental polysulfur (S8) as a signature of past reducing atmospheres. Finally, our models allow us to estimate the amount of volcanically sourced atmospheric sulfate deposited over Mars' history, approximately 10^6 to 10^9 Tmol, with a spread depending on assumed outgassing rate history and magmatic source conditions., Comment: 6 Figures, 1 Table, 3 Appendices

Published

2021

20. Behaviour regulation and the role of mental health in non-alcoholic fatty liver disease

Author

E. Asquith, K. Bould, J. C. Catling, E. J. Day, and A. Holt

Subjects

NAFLD, Personality disorder, Cognitive restraint, Uncontrolled eating, Anxiety, Depression, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Abstract Background and aims Non-alcoholic fatty liver disease (NAFLD) has become the most common cause of chronic liver disease in wealthy societies, and is responsible for a significant rise in liver morbidity and mortality. Current treatments prioritise lifestyle interventions, predominantly diet and exercise management, but patients frequently fail to make the necessary behavioural adjustments. The current study seeks to identify those factors which influence patients’ behaviour with respect to adherence to treatment regimes. Methods Novel areas of interest were investigated; locus of control, behavioural regulation and a range of mental health measures, due to their links to either poor lifestyle choices or abnormal eating as identified in previous literature. Data was gathered using self-report questionnaires, from 96 participants, who were split into three groups, NAFLD patients, non-NAFLD liver disease patients and healthy controls Results Data was analysed using a MANOVA, and followed up with a Tukey post-hoc test. Three factors were found to be significant by group; cognitive restraint, uncontrolled eating and SAPAS score (a measure of personality disorders). An association between personality disorders and NAFLD was identified. Conclusion It is suggested that NAFLD patients are screened for personality disorders and, if identified, treated prior to the commencement of diet and exercise management.

Published

2023

21. A phase 2 open-label study of the safety and efficacy of weekly dosing of ATL1102 in patients with non-ambulatory Duchenne muscular dystrophy and pharmacology in mdx mice

Author

Ian R. Woodcock, George Tachas, Nuket Desem, Peter J. Houweling, Michael Kean, Jaiman Emmanuel, Rachel Kennedy, Kate Carroll, Katy de Valle, Justine Adams, Shireen R. Lamandé, Chantal Coles, Chrystal Tiong, Matthew Burton, Daniella Villano, Peter Button, Jean-Yves Hogrel, Sarah Catling-Seyffer, Monique M. Ryan, Martin B. Delatycki, and Eppie M. Yiu

Subjects

Medicine, Science

Published

2024

22. Carbonate-Silicate Cycle Predictions of Earth-like Planetary Climates and Testing the Habitable Zone Concept

Author

Lehmer, Owen R., Catling, David C., and Krissansen-Totton, Joshua

Subjects

Astrophysics - Earth and Planetary Astrophysics, Physics - Atmospheric and Oceanic Physics

Abstract

In the conventional habitable zone (HZ) concept, a CO$_{2}$-H$_2$O greenhouse maintains surface liquid water. Through the water-mediated carbonate-silicate weathering cycle, atmospheric CO$_{2}$ partial pressure (pCO$_{2}$) responds to changes in surface temperature, stabilizing the climate over geologic timescales. We show that this weathering feedback ought to produce a log-linear relationship between pCO$_{2}$ and incident flux on Earth-like planets in the HZ. However, this trend has scatter because geophysical and physicochemical parameters can vary, such as land area for weathering and CO$_2$ outgassing fluxes. Using a coupled climate and carbonate-silicate weathering model, we quantify the likely scatter in pCO$_2$ with orbital distance throughout the HZ. From this dispersion, we predict a two-dimensional relationship between incident flux and pCO$_2$ in the HZ and show that it could be detected from at least 83 ($2{\sigma}$) Earth-like exoplanet observations. If fewer Earth-like exoplanets are observed, testing the HZ hypothesis from this relationship could be difficult., Comment: Published 12/1/2020 in Nature Communications. The supplemental data and code referenced in this work are available from the Nature Communications website (see DOI below) or by email from the authors

Published

2020

23. Abundant atmospheric methane from volcanism on terrestrial planets is unlikely and strengthens the case for methane as a biosignature

Author

Wogan, Nicholas, Krissansen-Totton, Joshua, and Catling, David C.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The disequilibrium combination of abundant methane and carbon dioxide has been proposed as a promising exoplanet biosignature that is readily detectable with upcoming telescopes such as the James Webb Space Telescope. However, few studies have explored the possibility of non-biological CH4 and CO2 and related contextual clues. Here, we investigate whether magmatic volcanic outgassing on terrestrial planets can produce atmospheric CH4 and CO2 with a thermodynamic model. Our model suggests that volcanoes are unlikely to produce CH4 fluxes comparable to biological fluxes. Improbable cases where volcanoes produce biological amounts of CH4 also produce ample carbon monoxide. We show, using a photochemical model, that high abiotic CH4 abundances produced by volcanoes would be accompanied by high CO abundances, which could be a detectable false positive diagnostic. Overall, when considering known mechanisms for generating abiotic CH4 on terrestrial planets, we conclude that observations of atmospheric CH4 with CO2 are difficult to explain without the presence of biology when the CH4 abundance implies a surface flux comparable to modern Earth's biological CH4 flux. A small or negligible CO abundance strengthens the CH4+CO2 biosignature because life readily consumes atmospheric CO, while reducing volcanic gases likely cause CO to build up in a planet's atmosphere. Furthermore, the difficulty of volcanically-generated CH4-rich atmospheres suitable for an origin of life may favor alternatives such as impact-induced reducing atmospheres., Comment: Accepted by Planetary Science Journal on September 15th, 2020 and Published on October 29th, 2020

Published

2020

24. Habitability Models for Planetary Sciences

Author

Méndez, Abel, Rivera-Valentín, Edgard G., Schulze-Makuch, Dirk, Filiberto, Justin, Ramírez, Ramses, Wood, Tana E., Dávila, Alfonso, McKay, Chris, Ceballos, Kevin Ortiz, Jusino-Maldonado, Marcos, Nery, Guillermo, Heller, René, Byrne, Paul, Malaska, Michael J., Nathan, Erica, Simões, Marta Filipa, Antunes, André, Martínez-Frías, Jesús, Carone, Ludmila, Izenberg, Noam R., Atri, Dimitra, Chitty, Humberto Itic Carvajal, Nowajewski-Barra, Priscilla, Rivera-Hernández, Frances, Brown, Corine, Lynch, Kennda, Catling, David, Zuluaga, Jorge I., Salazar, Juan F., Chen, Howard, González, Grizelle, Jagadeesh, Madhu Kashyap, Barnes, Rory, Cockell, Charles S., and Haqq-Misra, Jacob

Subjects

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

Abstract

Habitability has been generally defined as the capability of an environment to support life. Ecologists have been using Habitat Suitability Models (HSMs) for more than four decades to study the habitability of Earth from local to global scales. Astrobiologists have been proposing different habitability models for some time, with little integration and consistency between them and different in function to those used by ecologists. In this white paper, we suggest a mass-energy habitability model as an example of how to adapt and expand the models used by ecologists to the astrobiology field. We propose to implement these models into a NASA Habitability Standard (NHS) to standardize the habitability objectives of planetary missions. These standards will help to compare and characterize potentially habitable environments, prioritize target selections, and study correlations between habitability and biosignatures. Habitability models are the foundation of planetary habitability science. The synergy between the methods used by ecologists and astrobiologists will help to integrate and expand our understanding of the habitability of Earth, the Solar System, and exoplanets., Comment: White Paper for the Planetary Science and Astrobiology Decadal Survey 2023-2032

Published

2020

25. Atmospheric Erosion by Giant Impacts onto Terrestrial Planets: A Scaling Law for any Speed, Angle, Mass, and Density

Author

Kegerreis, Jacob A., Eke, Vincent R., Catling, David C., Massey, Richard J., Teodoro, Luis F. A., and Zahnle, Kevin J.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We present a new scaling law to predict the loss of atmosphere from planetary collisions for any speed, angle, impactor mass, target mass, and body compositions, in the regime of giant impacts onto broadly terrestrial planets with relatively thin atmospheres. To this end, we examine the erosion caused by a wide range of impacts, using 3D smoothed particle hydrodynamics simulations with sufficiently high resolution to directly model the fate of low-mass atmospheres around 1% of the target's mass. Different collision scenarios lead to extremely different behaviours and consequences for the planets. In spite of this complexity, the fraction of lost atmosphere is fitted well by a power law. Scaling is independent of the system mass for a constant impactor mass ratio. Slow atmosphere-hosting impactors can also deliver a significant mass of atmosphere, but always accompanied by larger proportions of their mantle and core. Different Moon-forming impact hypotheses suggest that around 10 to 60% of a primordial atmosphere could have been removed directly, depending on the scenario. We find no evident departure from the scaling trends at the extremes of the parameters explored. The scaling law can be incorporated readily into models of planet formation., Comment: Published in ApJL. 12 pages, 6 figures

Published

2020

26. Behaviour regulation and the role of mental health in non-alcoholic fatty liver disease

Author

Asquith, E., Bould, K., Catling, J. C., Day, E. J., and Holt, A.

Published

2023

27. The Marri Gudjaga project: a study protocol for a randomised control trial using Aboriginal peer support workers to promote breastfeeding of Aboriginal babies

Author

Thorne, Rebecca, Ivers, Rowena, Dickson, Michelle, Charlton, Karen, Pulver, Lisa Jackson, Catling, Christine, Dibley, Michael, Eckermann, Simon, Meedya, Shahla, Buck, Miranda, Kelly, Patrick, Best, Elizabeth, Briggs, Melanie, and Taniane, Joan

Published

2023

28. The Marri Gudjaga project: a study protocol for a randomised control trial using Aboriginal peer support workers to promote breastfeeding of Aboriginal babies

Author

Rebecca Thorne, Rowena Ivers, Michelle Dickson, Karen Charlton, Lisa Jackson Pulver, Christine Catling, Michael Dibley, Simon Eckermann, Shahla Meedya, Miranda Buck, Patrick Kelly, Elizabeth Best, Melanie Briggs, and Joan Taniane

Subjects

Breastfeeding, Aboriginal, Peer support, Breastfeeding initiation, Public aspects of medicine, RA1-1270

Abstract

Background Breastfeeding protects against a range of conditions in the infant, including sudden infant death syndrome (SIDS), diarrhoea, respiratory infections and middle ear infections [1, 2]. The World Health Organization (WHO) recommends exclusive breastfeeding until six months of age, with continued breastfeeding recommended for at least two years and other complementary nutritious foods [3]. The 2017-18 National Health Survey (NHS) and 2018-19 National Aboriginal and Torres Strait Islander Health Survey (NATSIHS) reported that the proportion of breastfeeding in Aboriginal and Torres Strait Islander infants (0–2 years) were less than half that of non-Indigenous infants (21.2% vs. 45%, respectively)[4]. There is a lack of research on interventions supporting Aboriginal women to breastfeed, identifying an evaluation gap related to peer support interventions to encourage exclusive breastfeeding in Aboriginal women. Methods We will evaluate the effect of scheduled breastfeeding peer support for and by Aboriginal women, on breastfeeding initiation and the prevalence of exclusive breastfeeding. This MRFF (Medical Research Future Fund) funded project is designed as a single-blinded cluster randomised controlled trial recruiting six sites across New South Wales, Australia, with three sites being randomised to employ a peer support worker or undertaking standard care. Forty pregnant women will be recruited each year from each of the six sites and will be surveyed during pregnancy, at six weeks, four and six months postnatally with a single text message at 12 months to ascertain breastfeeding rates. In-depth interviews via an Indigenous style of conversation and storytelling called ‘Yarning’ will be completed at pre- and post-intervention with five randomly recruited community members and five health professionals at each site” [5]. Yarns will be audio recorded, transcribed, coded and thematic analysis undertaken. Health economic analysis will be completed to assess the health system incremental cost and effects of the breastfeeding intervention relative to usual care. Discussion Evidence will be given on the effectiveness of Aboriginal peer support workers to promote the initiation and continuation of breastfeeding of Aboriginal babies. The findings of this study will provide evidence of effectiveness and cost-effectiveness of including peer support workers in postnatal care to promote breastfeeding practices. Trial Registration ACTRN12622001208796 The impact of breastfeeding peer support on nutrition of Aboriginal infants

Published

2023

29. Predictors of Student Resilience in Higher Education

Author

Robbins, A., Kaye, E., and Catling, J. C.

Abstract

Resilience, when coping with stress, can protect against serious negative life outcomes and lead to greater lifetime satisfaction. The current literature suggests that there are internal factors that may moderate the development of resilience. These factors could be used to inform targeted interventions for young people experiencing stress within the educational sphere. The current study extends previous literature by confirming known predictors and testing novel predictors of resilience in female students within a Higher Education context. Psychological measures of resilience, attachment quality, self-esteem, and exposure to stressful and adverse childhood experiences were utilised. Statistical analysis revealed that self-esteem, exposure to stressful events, levels of avoidance in maternal relationships, and levels of anxiety in paternal relationships were significant predictors of levels of resilience. The practical and theoretical implications of these results are discussed alongside potential interventions.

Published

2018

30. Urban environmental exposures during the first 2000 days of life as a foundation for health across the life-course: a scoping review

Author

Erica McIntyre, Jason Prior, Christine Catling, Rupert Legg, Dwan Vilcins, Jane Frawley, Clare Perry, Amanda Henry, Christina Rojas, and Valsamma Eapen

Subjects

Public aspects of medicine, RA1-1270

Abstract

Objectives: By 2030, 60% of the global population is expected to live in urban areas. Exposure to urban environments during the first 2000 days of life can have positive or negative health outcomes across the life course. Understanding the types of urban exposures that influence health outcomes is needed to guide research priorities for public health and urban planning. This review aims to summarise the published research examining the health outcomes of all urban environmental exposures during the first 2000 days of life, identify the quantity and characteristics of research in this area, methods used, and knowledge gaps. Methods: We conducted a scoping review using the JBI methodology for scoping reviews. Eight databases were searched for peer-reviewed primary studies. Inclusion criteria were studies that measured maternal, infant and child exposure to everyday urban environment features and conditions in cities/metropolitan areas during the first 2000 days of life and reported offspring health outcomes across the life course, including embryo, fetal/newborn, infant, child, adolescent, and adult outcomes. We used Covidence software for data screening and extraction. Study characteristics and findings were summarised using tables and narrative synthesis. Results: We reviewed 235 articles, which included studies conducted across 41 countries, the majority in the US (n = 63). A broad range of environmental exposures were studied, spanning seven categories: air pollution; energy-based pollution; atmosphere, chemical and metal exposure; neighbourhood-built and natural environment features; neighbourhood community conditions; and residential living conditions. Air pollution was the most studied exposure type (n = 153 studies). Health outcomes were reported for all life stages except adults, with fetal/newborn outcomes the most studied life stage (n = 137). Conclusions: We found that most research investigating urban environmental exposures in the first 2000 days and health outcomes across the life course focused on air pollution exposures and fetal/newborn health outcomes, using correlational retrospective cohort designs. Few studies included multiple environmental exposures. There is a clear need for more longitudinal research to determine the health impacts of multiple urban environmental exposures across the life course. This will assist in developing urban design and planning strategies and population health to mitigate health risks across the life course.

Published

2023

31. Creation and Evolution of Impact-generated Reduced Atmospheres of Early Earth

Author

Zahnle, Kevin, Lupu, Roxana, Catling, David, and Wogan, Nick

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The origin of life on Earth seems to demand a highly reduced early atmosphere, rich in CH4, H2, and NH3, but geological evidence suggests that Earth's mantle has always been relatively oxidized and its emissions dominated by CO2 H2O, and N2. The paradox can be resolved by exploiting the reducing power inherent in the "late veneer," i.e., material accreted by Earth after the Moon-forming impact. Isotopic evidence indicates that the late veneer consisted of extremely dry, highly reduced inner solar system materials, suggesting that Earth's oceans were already present when the late veneer came. The major primary product of reaction between the late veneer's iron and Earth's water was H2. Ocean vaporizing impacts generate high pressures and long cooling times that favor CH4 and NH3. Impacts too small to vaporize the oceans are much less productive of CH4 and NH3, unless (i) catalysts were available to speed their formation, or (ii) additional reducing power was extracted from pre-existing crustal or mantle materials. The transient H2-CH4 atmospheres evolve photochemically to generate nitrogenated hydrocarbons at rates determined by solar radiation and hydrogen escape, on timescales ranging up to tens of millions of years and with cumulative organic production ranging up to half a kilometer. Roughly one ocean of hydrogen escapes. The atmosphere after the methane's gone is typically H2 and CO rich, with eventual oxidation to CO2 rate-limited by water photolysis and hydrogen escape., Comment: Submitted 31 Dec 2019 to "The Planetary Science Journal." Accepted 10 Feb 2020

Published

2019

32. When is chemical disequilibrium in Earth-like planetary atmospheres a biosignature versus an anti-biosignature? Disequilibria from dead to living worlds

Author

Wogan, Nicholas and Catling, David

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Chemical disequilibrium in exoplanetary atmospheres (detectable with remote spectroscopy) can indicate life. The modern Earth's atmosphere-ocean system has a much larger chemical disequilibrium than other solar system planets with atmospheres because of oxygenic photosynthesis. However, no analysis exists comparing disequilibrium on lifeless, prebiotic planets to disequilibrium on worlds with primitive chemotrophic biospheres that live off chemicals and not light. Here, we use a photochemical-microbial ecosystem model to calculate the atmosphere-ocean disequilibria of Earth with no life and with a chemotrophic biosphere. We show that the prebiotic Earth likely had a relatively large atmosphere-ocean disequilibrium due to the coexistence of water and volcanic H2, CO2, and CO. Subsequent chemotrophic life probably destroyed nearly all of the prebiotic disequilibrium through its metabolism, leaving a likely smaller disequilibrium between N2, CO2, CH4, and liquid water. So, disequilibrium fell with the rise of chemotrophic life then later rose with atmospheric oxygenation due to oxygenic photosynthesis. We conclude that big prebiotic disequilibrium between H2 and CO2 or CO and water is an anti-biosignature because these easily metabolized species can be eaten due to redox reactions with low activation energy barriers. However, large chemical disequilibrium can also be a biosignature when the disequilibrium arises from a chemical mixture with biologically insurmountable activation energy barriers, and clearly identifiable biogenic gases. Earth's modern disequilibrium between O2, N2, and liquid water along with minor CH4 is such a case. Thus, the interpretation of disequilibrium requires context. With context, disequilibrium can be used to infer dead or living worlds., Comment: This draft was accepted by Astrophysical Journal on 2/29/20

Published

2019

33. Statistical analysis of Curiosity data shows no evidence for a strong seasonal cycle of Martian methane

Author

Gillen, Ed, Rimmer, Paul B, and Catling, David C

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Using Gaussian Process regression to analyze the Martian surface methane Tunable Laser Spectrometer (TLS) data reported by Webster (2018), we find that the TLS data, taken as a whole, are not statistically consistent with seasonal variability. The subset of data derived from an enrichment protocol of TLS, if considered in isolation, are equally consistent with either stochastic processes or periodic variability, but the latter does not favour seasonal variation., Comment: 13 pages, 2 figures, 1 table, accepted for publication as a Note in Icarus

Published

2019

34. A Maximum Subsurface Biomass on Mars from Untapped Free Energy: CO and H2 as Potential Antibiosignatures

Author

Sholes, Steven F., Krissansen-Totton, Joshua, and Catling, David C.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Whether extant life exists in the martian subsurface is an open question. High concentrations of photochemically produced CO and H2 in the otherwise oxidizing martian atmosphere represent untapped sources of biologically useful free energy. These out-of-equilibrium species diffuse into the regolith, so subsurface microbes could use them as a source of energy and carbon. Indeed, CO oxidation and methanogenesis are relatively simple and evolutionarily ancient metabolisms on Earth. Consequently, assuming CO- or H2- consuming metabolisms would evolve on Mars, the persistence of CO and H2 in the martian atmosphere set limits on subsurface metabolic activity. Here, we constrain such maximum subsurface metabolic activity on Mars using a 1-D photochemical model with a hypothetical global biological sink on atmospheric CO and H2. We increase the biological sink until the model atmospheric composition diverges from observed abundances. We find maximum biological downward subsurface sinks of 1.5e8 molecules/cm^2/s for CO and 1.9e8 molecules/cm^2/s for H2. These covert to a maximum metabolizing biomass of <10^27 cells or <2e11 kg, equivalent to <1e-4 to 1e-5 of Earth's biomass, depending on the terrestrial estimate. Diffusion calculations suggest this upper biomass limit applies to the top few kilometers of the martian crust in communication with the atmosphere at low to mid latitudes. This biomass limit is more robust than previous estimates because we test multiple possible chemoautotrophic ecosystems over a broad parameter space of tunable model variables using an updated photochemical model with precise atmospheric concentrations and uncertainties from Curiosity. Our results of sparse or absent life in the martian subsurface also demonstrate how the atmospheric redox pairs of CO-O2 and H2-O2 may constitute antibiosignatures, which may be relevant to excluding life on exoplanets., Comment: 30 pages, 4 figures, 3 tables. Accepted for publication in Astrobiology

Published

2018

35. Strange messenger: A new history of hydrogen on Earth, as told by Xenon

Author

Zahnle, Kevin J., Gacesa, Marko, and Catling, David C.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Atmospheric xenon is strongly mass fractionated, the result of a process that apparently continued through the Archean and perhaps beyond. Previous models that explain Xe fractionation by hydrodynamic hydrogen escape cannot gracefully explain how Xe escaped when Ar and Kr did not, nor allow Xe to escape in the Archean. Here we show that Xe is the only noble gas that can escape as an ion in a photo-ionized hydrogen wind, possible in the absence of a geomagnetic field or along polar magnetic field lines that open into interplanetary space. To quantify the hypothesis we construct new 1-D models of hydrodynamic diffusion-limited hydrogen escape from highly-irradiated CO$_2$-H$_2$-H atmospheres. The models reveal three minimum requirements for Xe escape: solar EUV irradiation needs to exceed $10\times$ that of the modern Sun; the total hydrogen mixing ratio in the atmosphere needs to exceed 1% (equiv. to 0.5% CH$_4$); and transport amongst the ions in the lower ionosphere needs to lift the Xe ions to the base of the outflowing hydrogen corona. The long duration of Xe escape implies that, if a constant process, Earth lost the hydrogen from at least one ocean of water, roughly evenly split between the Hadean and the Archean. However, to account for both Xe's fractionation and also its depletion with respect to Kr and primordial $^{244}$Pu, Xe escape must have been limited to small apertures or short episodes, which suggests that Xe escape was restricted to polar windows by a geomagnetic field, or dominated by outbursts of high solar activity, or limited to transient episodes of abundant hydrogen, or a combination of these. Xenon escape stopped when the hydrogen (or methane) mixing ratio became too small, or EUV radiation from the aging Sun became too weak, or charge exchange between Xe$^+$ and O$_2$ rendered Xe neutral., Comment: 58 pages 18 figures 5 tables

Published

2018

36. Detectability of biosignatures in anoxic atmospheres with the James Webb Space Telescope: A TRAPPIST-1e case study

Author

Krissansen-Totton, Joshua, Garland, Ryan, Irwin, Patrick, and Catling, David C.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The James Webb Space Telescope (JWST) may be capable of finding biogenic gases in the atmospheres of habitable exoplanets around low mass stars. Considerable attention has been given to the detectability of biogenic oxygen, which could be found using an ozone proxy, but ozone detection with JWST will be extremely challenging, even for the most favorable targets. Here, we investigate the detectability of biosignatures in anoxic atmospheres analogous to those that likely existed on the early Earth. Arguably, such anoxic biosignatures could be more prevalent than oxygen biosignatures if life exists elsewhere. Specifically, we simulate JWST retrievals of TRAPPIST-1e to determine whether the methane plus carbon dioxide disequilibrium biosignature pair is detectable in transit transmission. We find that ~10 transits using the Near InfraRed Spectrograph (NIRSpec) prism instrument may be sufficient to detect carbon dioxide and constrain methane abundances sufficiently well to rule out known, non-biological CH$_{4}$ production scenarios to ~90% confidence. Furthermore, it might be possible to put an upper limit on carbon monoxide abundances that would help rule out non-biological methane-production scenarios, assuming the surface biosphere would efficiently drawdown atmospheric CO. Our results are relatively insensitive to high altitude clouds and instrument noise floor assumptions, although stellar heterogeneity and variability may present challenges., Comment: 21 pages, 7 figures

Published

2018

37. Constraining the climate and ocean pH of the early Earth with a geological carbon cycle model

Author

Krissansen-Totton, Joshua, Arney, Giada N., and Catling, David C.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

The early Earth's environment is controversial. Climatic estimates range from hot to glacial, and inferred marine pH spans strongly alkaline to acidic. Better understanding of early climate and ocean chemistry would improve our knowledge of the origin of life and its coevolution with the environment. Here, we use a geological carbon cycle model with ocean chemistry to calculate self-consistent histories of climate and ocean pH. Our carbon cycle model includes an empirically justified temperature and pH dependence of seafloor weathering, allowing the relative importance of continental and seafloor weathering to be evaluated. We find that the Archean climate was likely temperate (0-50 {\deg}C) due to the combined negative feedbacks of continental and seafloor weathering. Ocean pH evolves monotonically from 6.6 (+0.6,-0.4) (2{\sigma}) at 4.0 Ga to 7.0 (+0.7,-0.5) (2{\sigma}) at the Archean-Proterozoic boundary, and to 7.9 (+0.1,-0.2) (2{\sigma}) at the Proterozoic-Phanerozoic boundary. This evolution is driven by the secular decline of pCO2, which in turn is a consequence of increasing solar luminosity, but is moderated by carbonate alkalinity delivered from continental and seafloor weathering. Archean seafloor weathering may have been a comparable carbon sink to continental weathering, but is less dominant than previously assumed, and would not have induced global glaciation. We show how these conclusions are robust to a wide range of scenarios for continental growth, internal heat flow evolution and outgassing history, greenhouse gas abundances, and changes in the biotic enhancement of weathering., Comment: Main text 6 pages, appendix 46 pages

Published

2018

38. Consequences of Giant Impacts on Early Uranus for Rotation, Internal Structure, Debris, and Atmospheric Erosion

Author

Kegerreis, J. A., Teodoro, L. F. A., Eke, V. R., Massey, R. J., Catling, D. C., Fryer, C. L., Korycansky, D. G., Warren, M. S., and Zahnle, K. J.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

We perform a suite of smoothed particle hydrodynamics simulations to investigate in detail the results of a giant impact on the young Uranus. We study the internal structure, rotation rate, and atmospheric retention of the post-impact planet, as well as the composition of material ejected into orbit. Most of the material from the impactor's rocky core falls in to the core of the target. However, for higher angular momentum impacts, significant amounts become embedded anisotropically as lumps in the ice layer. Furthermore, most of the impactor's ice and energy is deposited in a hot, high-entropy shell at a radius of ~3 Earth radii. This could explain Uranus' observed lack of heat flow from the interior and be relevant for understanding its asymmetric magnetic field. We verify the results from the single previous study of lower resolution simulations that an impactor with a mass of at least 2 Earth masses can produce sufficiently rapid rotation in the post-impact Uranus for a range of angular momenta. At least 90% of the atmosphere remains bound to the final planet after the collision, but over half can be ejected beyond the Roche radius by a 2 or 3 Earth mass impactor. This atmospheric erosion peaks for intermediate impactor angular momenta (~3*10^36 kg m^2 s^-1). Rock is more efficiently placed into orbit and made available for satellite formation by 2 Earth mass impactors than 3 Earth mass ones, because it requires tidal disruption that is suppressed by the more massive impactors., Comment: Published in ApJ. 14 pages, 11 figures

Published

2018

39. Geoscience and the Search for Life Beyond the Solar System

Author

Barnes, Rory, Shahar, Anat, Unterborn, Cayman, Hartnett, Hilairy, Anbar, Ariel, Foley, Brad, Driscoll, Peter, Shim, S. -H. Dan, Quinn, Thomas, Iacovino, Kayla, Kane, Stephen, Desch, Steven, Sleep, Norman, and Catling, David

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

How can scientists conclude with high confidence that an exoplanet hosts life? As telescopes come on line over the next 20 years that can directly observe photons from terrestrial exoplanets, this question will dictate the activities of many scientists across many fields. The expected data will be sparse and with low signal-to-noise, which will make disentangling biosignatures from abiotic features challenging. Our Earth is not just unique in that it hosts life, it is also the only terrestrial planet with direct observations of its interior through seismic waves, and compositional evolution through field and laboratory measurements. This extensive research reveals a planet born from collisions between worlds, followed by a complicated biogeochemical evolution. Exoplanet interiors, on the other hand, can only be constrained by the following observations: 1) photometric and spectroscopic analysis of the planet's atmosphere, 2) spectroscopic and photometric analysis of the host star, and 3) companion planet properties. From these (future) data, astrobiologists must generate plausible compositional and evolutionary models that constrain a potentially habitable exoplanet's internal properties and history, provide environmental context, and rule out geochemical explanations for any putative biosignatures. The goal of this white paper is to frame the role of geophysical and geochemical processes relevant to the search for life beyond the Solar System and to identify critical, but understudied, areas of future research., Comment: 6 pages, 1 figure. White paper submitted to the NAS Astrobiology Science Strategy solicitation

Published

2018

40. Disequilibrium biosignatures over Earth history and implications for detecting exoplanet life

Author

Krissansen-Totton, Joshua, Olson, Stephanie, and Catling, David C.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Chemical disequilibrium in planetary atmospheres has been proposed as a generalized method for detecting life on exoplanets through remote spectroscopy. Among solar system planets with substantial atmospheres, the modern Earth has the largest thermodynamic chemical disequilibrium due to the presence of life. However, how this disequilibrium changed over time and, in particular, the biogenic disequilibria maintained in the anoxic Archean or less oxic Proterozoic eons are unknown. We calculate the atmosphere-ocean disequilibrium in the Precambrian using conservative proxy- and model-based estimates of early atmospheric and oceanic compositions. We omit crustal solids because subsurface composition is not detectable on exoplanets, unlike above-surface volatiles. We find that (i) disequilibrium increased through time in step with the rise of oxygen; (ii) both the Proterozoic and Phanerozoic may have had remotely detectable biogenic disequilibria due to the coexistence of O$_{2}$, N$_{2}$, and liquid water; and (iii) the Archean had a biogenic disequilibrium caused by the coexistence of N$_2$, CH$_4$, CO$_2$, and liquid water, which, for an exoplanet twin, may be remotely detectable. On the basis of this disequilibrium, we argue that the simultaneous detection of abundant CH$_{4}$ and CO$_{2}$ in a habitable exoplanet's atmosphere is a potential biosignature. Specifically, we show that methane mixing ratios greater than 0.001 are potentially biogenic, whereas those exceeding 0.01 are likely biogenic due to the difficulty in maintaining large abiotic methane fluxes to support high methane levels in anoxic atmospheres. Biogenicity would be strengthened by the absence of abundant CO, which should not coexist in a biological scenario., Comment: Main text 13 pages, supplementary materials 16 pages

Published

2018

41. Life Beyond the Solar System: Remotely Detectable Biosignatures

Author

Domagal-Goldman, Shawn, Kiang, Nancy Y., Parenteau, Niki, Catling, David C., DasSarma, Shiladitya, Fujii, Yuka, Harman, Chester E., Lenardic, Adrian, Pallé, Enric, Reinhard, Christopher T., Schwieterman, Edward W., Schneider, Jean, Smith, Harrison B., Tamura, Motohide, Angerhausen, Daniel, Arney, Giada, Airapetian, Vladimir S., Batalha, Natalie M., Cockell, Charles S., Cronin, Leroy, Deitrick, Russell, Del Genio, Anthony, Fisher, Theresa, Gelino, Dawn M., Grenfell, J. Lee, Hartnett, Hilairy E., Hegde, Siddharth, Hori, Yasunori, Kaçar, Betül, Krissansen-Totten, Joshua, Lyons, Timothy, Moore, William B., Narita, Norio, Olson, Stephanie L., Rauer, Heike, Robinson, Tyler D., Rugheimer, Sarah, Siegler, Nick, Shkolnik, Evgenya L., Stapelfeldt, Karl R., and Walker, Sara

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

For the first time in human history, we will soon be able to apply the scientific method to the question "Are We Alone?" The rapid advance of exoplanet discovery, planetary systems science, and telescope technology will soon allow scientists to search for life beyond our Solar System through direct observation of extrasolar planets. This endeavor will occur alongside searches for habitable environments and signs of life within our Solar System. While the searches are thematically related and will inform each other, they will require separate observational techniques. The search for life on exoplanets holds potential through the great diversity of worlds to be explored beyond our Solar System. However, there are also unique challenges related to the relatively limited data this search will obtain on any individual world. This white paper reviews the scientific community's ability to use data from future telescopes to search for life on exoplanets. This material summarizes products from the Exoplanet Biosignatures Workshop Without Walls (EBWWW). The EBWWW was constituted by a series of online and in person activities, with participation from the international exoplanet and astrobiology communities, to assess state of the science and future research needs for the remote detection of life on planets outside our Solar System., Comment: This is a white paper that was submitted to the National Academies of Sciences Study: Astrobiology Science Strategy for the Search for Life in the Universe

Published

2018

42. Stratospheric Gas‐Phase Production Alone Cannot Explain Observations of Atmospheric Perchlorate on Earth

Author

Yuk‐Chun Chan, Lyatt Jaeglé, Pedro Campuzano‐Jost, David C. Catling, Jihong Cole‐Dai, Vasile I. Furdui, W. Andrew Jackson, Jose L. Jimenez, Dongwook Kim, Alanna E. Wedum, and Becky Alexander

Subjects

perchlorate, GEOS‐Chem, global modeling, photochemistry, oxygen isotopes, 17O excess, Geophysics. Cosmic physics, QC801-809

Abstract

Abstract Perchlorate has been observed in many environments on Earth and Mars but its sources remain poorly quantified. In this study, we use a global three‐dimensional chemical transport model to simulate perchlorate's gas‐phase photochemical production, atmospheric transport, and deposition on Earth's surface. Model predictions are compared to newly compiled observations of atmospheric concentrations, deposition flux, and oxygen isotopic composition of perchlorate. We find that the modeled gas‐phase production of perchlorate is consistent with reported stratospheric observations. Nevertheless, we show that this mechanism alone cannot explain the high levels of perchlorate observed at many near‐surface sites (aerosol concentrations >0.1 ng m−3 and deposition fluxes >10 g km−2 yr−1) or the low 17O‐excess observed in perchlorate sampled from pristine environments (

Published

2023

43. A geografia dos anos iniciais como desafiadora e perigosa

Author

Simon Catling

Subjects

Geografia dos anos iniciais, Geografia desafiadora, Geografia perigosa, Geografia local, Geografia global, Geography. Anthropology. Recreation, Geography (General), G1-922

Abstract

A Geografia dos Anos Iniciais (AI) é um assunto bastante confortável. Ela tende a evitar tópicos da Geografia considerados "inaceitáveis", ameaçadores e potencialmente perigosos. Considerar desafio e 'perigo' na Geografia dessa fase escolar não é tanto sobre os perigos do trabalho de campo, mas sim sobre tópicos intelectuais, emocionais e socialmente perigosos, local e globalmente. A tendência é ensinar o que é aceitável e não causar desconforto, focar nos aspectos positivos do mundo, demonstrar esperança. Porém isso não é sempre recomendável. Aqui serão descritos e questionados quatro argumentos em prol dessa abordagem confortável. O argumento que versa sobre ‘ir com cuidado’ em um mundo inseguro, mesmo quando pensamos em crianças menores, mantém o indivíduo desinformado, e por isso deve ser questionado. O desejo de ser positivo não deve comprometer o ato de ser realista e honesto com as crianças, que por sua vez são capazes e resilientes. A fim de corroborar a proposta de uma abordagem mais exigente, até mesmo mais ‘perigosa’ em relação à Geografia dos AI, alguns tópicos que podem ser investigados pelas crianças são aqui sugeridos. Surge então a inevitável pergunta: a quem ensinamos Geografia? O objetivo desse artigo é levantar questionamentos e trazer uma reflexão sobre o papel da educação (em Geografia) no mundo atual.

Published

2023

44. A Multinational Study of Authors' Perceptions of and Practical Approaches to Writing Geography Textbooks

Author

Lee, Jongwon, Catling, Simon, Kidman, Gillian, Bednarz, Robert, Krause, Uwe, Martija, Andoni Arenas, Ohnishi, Koji, Wilmot, Di, and Zecha, Stefanie

Abstract

Like all school textbooks, geography textbooks are authored. Almost all textbook research in and beyond geography has neglected their authors. This questionnaire-based multinational research project investigated the perceptions of 71 primary and secondary school geography textbook authors from seven countries in five continents. Though not intended as a definitive study, the findings identified several values and areas of expertise which many textbook authors in different countries held to be important for their work. While there were variations across country contexts, there was much that was shared by the authors. Authors valued enabling students to develop geographical perspectives, knowledge and skills and informed attitudes about the world when learning in real world contexts and making connections with everyday life. It was notable that the focus of authors on subject knowledge, the pedagogy of textbooks and the students who will use the textbooks aligned with these same key elements which are central to curriculum making. Authors can be said to perceive their role as creating a geography curriculum, albeit externally to any specific geography classroom, through their textbooks.

Published

2021

45. Highlighting uncertainty in clinical risk prediction using a model of emergency laparotomy mortality risk

Author

Jakob F. Mathiszig-Lee, Finneas J. R. Catling, S. Ramani Moonesinghe, and Stephen J. Brett

Subjects

Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Abstract Clinical prediction models typically make point estimates of risk. However, values of key variables are often missing during model development or at prediction time, meaning that the point estimates mask significant uncertainty and can lead to over-confident decision making. We present a model of mortality risk in emergency laparotomy which instead presents a distribution of predicted risks, highlighting the uncertainty over the risk of death with an intuitive visualisation. We developed and validated our model using data from 127134 emergency laparotomies from patients in England and Wales during 2013–2019. We captured the uncertainty arising from missing data using multiple imputation, allowing prospective, patient-specific imputation for variables that were frequently missing. Prospective imputation allows early prognostication in patients where these variables are not yet measured, accounting for the additional uncertainty this induces. Our model showed good discrimination and calibration (95% confidence intervals: Brier score 0.071–0.078, C statistic 0.859–0.873, calibration error 0.031–0.059) on unseen data from 37 hospitals, consistently improving upon the current gold-standard model. The dispersion of the predicted risks varied significantly between patients and increased where prospective imputation occurred. We present a case study that illustrates the potential impact of uncertainty quantification on clinical decision making. Our model improves mortality risk prediction in emergency laparotomy and has the potential to inform decision-makers and assist discussions with patients and their families. Our analysis code was robustly developed and is publicly available for easy replication of our study and adaptation to predicting other outcomes.

Published

2022

46. Effects of the COVID-19 lockdown on mental health in a UK student sample

Author

J. C. Catling, A. Bayley, Z. Begum, C. Wardzinski, and A. Wood

Subjects

COVID, Mental Health, Depression, Anxiety, Smartphone, Psychology, BF1-990

Abstract

Abstract Background The COVID-19 pandemic and the resulting restrictions placed upon society have had a profound impact on both physical and mental health, particularly for young people. Aims The current study assesses the impact of COVID-19 on student mental health. Method Four hundred and thirty four first year Undergraduate students completed a battery of self-report questionnaires (PHQ-P, GAD-7 and SAS-SV) to assess for depression, anxiety and mobile phone addiction respectively with data being collected over a 2 year period. The data from each year was compared (216 and 218 students respectively). Results A MANOVA revealed that COVID-19 had a significant impact on self-reported levels of depression, anxiety and smartphone addiction—which all significantly increased from the 2020 to the 2021 group. The percentage of students who had a score which warranted a classification of clinical depression increased from 30 to 44%, and for anxiety increased from 22 to 27%—those students who showed a comorbidity across the two rose from 12 to 21%. Smartphone addiction levels rose from 39 to 50%. Correlational analysis showed a significant relationship between Smartphone usage and depression and anxiety. Conclusions This research suggests that COVID-19 has had a major impact upon student mental health, and smartphone addiction. The importance of identifying predictive factors of depression and anxiety is emphasised, and suggestions for intervention are discussed.

Published

2022

47. Group Clinical Supervision for midwives and burnout: a cluster randomized controlled trial

Author

Christine Catling, Helen Donovan, Hala Phipps, Simeon Dale, and Sungwon Chang

Subjects

Midwifery, Support, Clinical supervision, Cluster randomised controlled trial, Burnout, Workplace culture, Gynecology and obstetrics, RG1-991

Abstract

Abstract Background There are major shortfalls in the midwifery workforce which has been exacerbated by the COVID 19 pandemic. Midwives have high levels of burnout and many, often early career midwives, are planning to leave the profession. There are reports of a poor workplace culture in maternity units, including bullying. Support is essential for the welfare of the workforce to be able to cope with the demands of their jobs. Supportive strategies, such as Clinical Supervision, a recognised approach in healthcare, enable reflection in a facilitated, structured way, and can enhance professional standards. The purpose of this research is to study burnout levels in midwives, those exiting their workplace and perceptions of workplace culture in relation to access to, and attendance of, monthly Clinical Supervision. Methods This study will be a cluster randomised controlled trial of maternity sites within Sydney and the surrounding districts. Twelve sites will be recruited and half will receive monthly Clinical Supervision for up to two years. Midwives from all sites will be requested to complete 6-monthly surveys comprising validated measurement tools: the Copenhagen Burnout Inventory (CBI), the Australian Midwifery Workplace Culture (AMWoC) tool and the Clinical Supervision Evaluation Questionnaire (CSEQ) (the latter for intervention sites only). Primary outcomes are the levels of burnout in midwives (using the CBI). Secondary outcomes will be the quality of the intervention (using the CSEQ), perceptions of workplace culture (using the AMWoC tool) and midwives’ intention to stay in their role/profession, as well as sick leave rates and numbers of exiting staff. We will also determine the dose effect – ie the impact in relation to how many Clinical Supervision sessions the midwives have attended, as well as other supportive workplace strategies such as mentoring/coaching on outcomes. Discussion Through attending monthly Clinical Supervision we hypothesise that midwives will report less burnout and more positive perceptions of workplace culture than those in the control sites. The potential implications of which are a productive workforce giving high quality care with the flow-on effect of having physically and psychologically well women and their babies. Trial registration The ACTRN Registration number is ACTRN12621000545864p , dated 10/05/2021,

Published

2022

48. A warm or a cold early Earth? New insights from a 3-D climate-carbon model

Author

Charnay, Benjamin, Hir, Guillaume Le, Fluteau, Frédéric, Forget, François, and Catling, David C.

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Oxygen isotopes in marine cherts have been used to infer hot oceans during the Archean with temperatures between 60{\deg}C (333 K) and 80{\deg}C (353 K). Such climates are challenging for the early Earth warmed by the faint young Sun. The interpretation of the data has therefore been controversial. 1D climate modeling inferred that such hot climates would require very high levels of CO2 (2-6 bars). Previous carbon cycle modeling concluded that such stable hot climates were impossible and that the carbon cycle should lead to cold climates during the Hadean and the Archean. Here, we revisit the climate and carbon cycle of the early Earth at 3.8 Ga using a 3D climate-carbon model. We find that CO2 partial pressures of around 1 bar could have produced hot climates given a low land fraction and cloud feedback effects. However, such high CO2 partial pressures should not have been stable because of the weathering of terrestrial and oceanic basalts, producing an efficient stabilizing feedback. Moreover, the weathering of impact ejecta during the Late Heavy Bombardment (LHB) would have strongly reduced the CO2 partial pressure leading to cold climates and potentially snowball Earth events after large impacts. Our results therefore favor cold or temperate climates with global mean temperatures between around 8{\deg}C (281 K) and 30{\deg}C (303 K) and with 0.1-0.36 bar of CO2 for the late Hadean and early Archean. Finally, our model suggests that the carbon cycle was efficient for preserving clement conditions on the early Earth without necessarily requiring any other greenhouse gas or warming process., Comment: 21 pages, 7 figures, 2 tables. Accepted for publication in Earth and Planetary Science Letters

Published

2017

49. Rocky Worlds Limited to ~1.8 Earth Radii by Atmospheric Escape During a Star's Extreme UV Saturation

Author

Lehmer, Owen and Catling, David

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Recent observations and analysis of low mass (<10$M_{\oplus}$), exoplanets have found that rocky planets only have radii up to 1.5-2$R_{\oplus}$. Two general hypotheses exist for the cause of the dichotomy between rocky and gas-enveloped planets (or possible water worlds): either low mass planets do not necessarily form thick atmospheres of a few wt. %, or the thick atmospheres on these planets easily escape driven by x-ray and extreme ultraviolet (XUV) emissions from young parent stars. Here we show that a cutoff between rocky and gas-enveloped planets due to hydrodynamic escape is most likely to occur at a mean radius of 1.76$\pm$0.38 (2$\sigma$) $R_{\oplus}$ around Sun-like stars. We examine the limit in rocky planet radii predicted by hydrodynamic escape across a wide range of possible model inputs using 10,000 parameter combinations drawn randomly from plausible parameter ranges. We find a cutoff between rocky and gas-enveloped planets that agrees with the observed cutoff. The large cross-section available for XUV absorption in the extremely distended primitive atmospheres of low mass planets results in complete loss of atmospheres during the ~100 Myr phase of stellar XUV saturation. In contrast, more massive planets have less distended atmospheres and less escape, and so retain thick atmospheres through XUV saturation and then indefinitely as the XUV and escape fluxes drop over time. The agreement between our model and exoplanet data leads us to conclude that hydrodynamic escape plausibly explains the observed upper limit on rocky planet size and few planets (a "valley" or "radius gap") in the 1.5-2$R_{\oplus}$ range., Comment: Submitted to ApJ on May 23, 2017; Accepted on July 11, 2017

Published

2017

50. Exoplanet Biosignatures: A Framework for Their Assessment

Author

Catling, David C., Krissansen-Totton, Joshua, Kiang, Nancy Y., Crisp, David, Robinson, Tyler D., DasSarma, Shiladitya, Rushby, Andrew, Del Genio, Anthony, Bains, William, and Domagal-Goldman, Shawn

Subjects

Astrophysics - Earth and Planetary Astrophysics

Abstract

Finding life on exoplanets from telescopic observations is an ultimate goal of exoplanet science. Life produces gases and other substances, such as pigments, which can have distinct spectral or photometric signatures. Whether or not life is found with future data must be expressed with probabilities, requiring a framework of biosignature assessment. We present a framework in which we advocate using biogeochemical "Exo-Earth System" models to simulate potential biosignatures in spectra or photometry. Given actual observations, simulations are used to find the Bayesian likelihoods of those data occurring for scenarios with and without life. The latter includes "false positives" where abiotic sources mimic biosignatures. Prior knowledge of factors influencing planetary inhabitation, including previous observations, is combined with the likelihoods to give the Bayesian posterior probability of life existing on a given exoplanet. Four components of observation and analysis are necessary. 1) Characterization of stellar (e.g., age and spectrum) and exoplanetary system properties, including "external" exoplanet parameters (e.g., mass and radius) to determine an exoplanet's suitability for life. 2) Characterization of "internal" exoplanet parameters (e.g., climate) to evaluate habitability. 3) Assessment of potential biosignatures within the environmental context (components 1-2) and any corroborating evidence. 4) Exclusion of false positives. The resulting posterior Bayesian probabilities of life's existence map to five confidence levels, ranging from "very likely" (90-100%) to "very unlikely" ($\le$10%) inhabited., Comment: Part of a NASA Nexus for Exoplanet System Science (NExSS) series of 5 papers. V.3 published as an Open Access paper in Astrobiology

Published

2017