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388 results on '"Bryan Mark"'

1. Climate extremes and their impacts on agriculture across the Eastern Corn Belt Region of the U.S.

Author

Aaron B. Wilson, Alvaro Avila-Diaz, Lais F. Oliveira, Cristian F. Zuluaga, and Bryan Mark

Subjects
Climate change, Agriculture, Downscaling, KGE, ETCCDI indices, Meteorology. Climatology, QC851-999
Abstract

The Eastern Corn Belt Region (ECBR) is an important agricultural sector for the U.S. This study analyzes the climate extremes over the contemporary (1980–2018) and future (2036–2099) periods over the ECBR. We evaluated the performance of 32 downscaled models from the U.S. Global Change Research Program's Localized Constructed Analogs (LOCA) of the Coupled Model Intercomparison Project (CMIP5) to simulate extreme temperature and precipitation indices. The LOCA downscaled models were evaluated for the recent past against the National Aeronautics and Space Administration (NASA)-supported gridded observational dataset DAYMET. Results reveal key trends throughout the region that are consistent with previous studies, including significant increases in extreme minimum temperatures, reduction of cold nights, increase of warm nights, and decreases in diurnal temperature ranges. Much of the region demonstrates extreme warming trends in the coldest night of the year (more than 5 °C) and an increase in the heaviest precipitation events over 1980–2018. An optimal model ensemble (OME) was constructed using a Kling-Gupta Efficiency and Bhattacharyya coefficient evaluation to construct a comprehensive ranking procedure. Having outperformed a standard multi-model ensemble approach, the OME was used to evaluate the future changes of extreme climate indices under RCP4.5 and RCP8.5 scenarios. Though the OME showed consistently strong warming throughout the ECBR, variability among the optimal models and across watersheds is quite significant, especially for precipitation indices. Thus, constraining the uncertainty in future climate models, specifically as it relates to agriculture decisions that support climate-resilience, remains a challenge.

Published
2022
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3. Making Connections for Our Changing Mountains: Future Directions for the Mountain Research Initiative (MRI)

Author

Carolina Adler, Jörg Balsiger, Adrienne Grêt-Regamey, Andreas Heinimann, Christian Huggel, Rolf Weingartner, Irasema Alcántara-Ayala, Aster Gebrekirstos, Ricardo Grau, Elizabeth Jimenez, Robert Marchant, Bryan Mark, Shawn Marshall, Samuel Morin, Maria Shahgedanova, Mandira Singh Shrestha, and Jianchu Xu

Subjects
mountain research initiative (mri), Environmental sciences, GE1-350
Abstract

The Mountain Research Initiative (MRI) promotes basic and applied research to understand how drivers and processes of global change present challenges and opportunities in mountain social-ecological systems. It convenes a global network that collectively generates and synthesizes knowledge on global change in mountains that also supports decisions and actions to enable sustainable development. Building on the considerable social and intellectual wealth fostered by the MRI over its past 20-plus years of existence, we outline future directions aimed at supporting and further developing the network as well as our flagship and community-led activities aimed at linking and scaling interdisciplinary and transdisciplinary research efforts within and across mountain regions worldwide.

Published
2020
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6. Weak Magnetic Fields Enhance the Efficacy of Radiation Therapy

Author

Iwamoto, Keisuke S, Sandstrom, Robert E, Bryan, Mark, Liu, Yue, Elgart, S Robin, Sheng, Ke, Steinberg, Michael L, McBride, William H, and Low, Daniel A

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Cancer, Oncology and carcinogenesis
Abstract

PurposeThe clinical efficacy of radiation therapy is mechanistically linked to ionization-induced free radicals that cause cell and tissue injury through direct and indirect mechanisms. Free radical reaction dynamics are influenced by many factors and can be manipulated by static weak magnetic fields (WMF) that perturb singlet-triplet state interconversion. Our study exploits this phenomenon to directly increase ionizing radiation (IR) dose absorption in tumors by combining WMF with radiation therapy as a new and effective method to improve treatment.Methods and materialsCoils were custom made to produce both homogeneous and gradient magnetic fields. The gradient coil enabled simultaneous in vitro assessment of free radical/reactive oxygen species reactivity across multiple field strengths from 6 to 66 G. First, increases in IR-induced free radical concentrations using oxidant-sensitive fluorescent dyes in a cell-free system were measured and verified. Next, human and murine cancer cell lines were evaluated in in vitro and in vivo models after exposure to clinically relevant doses of IR in combination with WMF.ResultsCellular responses to IR and WMF were field strength and cell line dependent. WMF was able to enhance IR effects on reactive oxygen species formation, DNA double-strand break formation, cell death, and tumor growth.ConclusionsWe demonstrate that the external presence of a magnetic field enhances radiation-induced cancer cell injury and death in vitro and in vivo. The effect extends beyond the timeframe when free radicals are induced in the presence of radiation into the window when endogenous free radicals are produced and therefore extends the applicability of this novel adjunct to cancer therapy in the context of radiation treatment.

Published
2021

19. Democratisation of Wellbeing: Stakeholder Perspectives on Policy Priorities for Improving National Wellbeing through Paid Employment and Adult Learning

Author

Daniels, Kevin, Connolly, Sara, Ogbonnaya, Chidiebere, Tregaskis, Olga, Bryan, Mark L., Robinson-Pant, Anna, and Street, John

Abstract

Recent policy initiatives in the UK have heightened the degree to which wellbeing can be considered a political construct: The acceptance of different policy options for wellbeing depends on the extent to which those options are responsive to popular wellbeing concerns. Drawing on the views of over 400 people gathered through a variety of methods and across the UK, we outline different stakeholder views of what wellbeing is and the priorities that stakeholders believe should be addressed to improve wellbeing. We draw out the implications for reframing policy debates around wellbeing, the practice of career guidance, academic debates around identified wellbeing priorities, and the best means of developing a policy and a practice-oriented and stakeholder-responsive approach to researching wellbeing.

Published
2018
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21. Life satisfaction and unemployment—The role of gender attitudes and work identity.

Author

Longhi, Simonetta, Nandi, Alita, Bryan, Mark, Connolly, Sara, and Gedikli, Cigdem

Subjects
UNEMPLOYMENT, LIFE satisfaction, ATTITUDES toward work, GENDER identity, SUBJECTIVE well-being (Psychology), GENDER role
Abstract

Unemployment has a strong negative effect on subjective well‐being, but the effect varies across groups. Using an event study approach, we explore the sources of heterogeneity in the effect of the transition into unemployment on life satisfaction, focusing on work identity and gender role attitudes. All experience a loss of life satisfaction when they become unemployed, but we find greater heterogeneity of experience among men: the losses in life satisfaction are greater if they hold egalitarian rather than traditional gender role attitudes, and if they have strong rather than weak work identity. Among women, those holding traditional gender role attitudes experience larger losses. We discuss possible reasons for these results. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Turbulent Angular Momentum Transport in Weakly-Ionized Accretion Disks

Author

Johnson, Bryan Mark

Subjects
Astrophysics
Abstract

Understanding the mechanism that drives accretion has been the primary challenge in accretion disk theory. Turbulence provides a natural means of dissipation and the removal of angular momentum, but firmly establishing its presence in disks proved for many years to be difficult. The realization in the 1990s that a weak magnetic field will destabilize a disk and result in a vigorous turbulent transport of angular momentum has revolutionized the field. Much of accretion disk research now focuses on understanding the implications of this mechanism for astrophysical observations. At the same time, the success of this mechanism depends upon a sufficient ionization level in the disk for the flow to be well-coupled to the magnetic field. Many disks, such as disks around young stars and disks in binary systems that are in quiescence, are too cold to be sufficiently ionized, and so efforts to establish the presence of turbulence in these disks continues. This dissertation focuses on several possible mechanisms for the turbulent transport of angular momentum in weakly-ionized accretion disks: gravitational instability, radial convection and vortices driving compressive motions. It appears that none of these mechanisms are very robust in driving accretion. A discussion is given, based on these results, as to the most promising directions to take in the search for a turbulent transport mechanism that does not require magnetic fields. Also discussed are the implications of assuming that no turbulent transport mechanism exists for weakly-ionized disks., Comment: 146 pages, 47 figures, PhD dissertation

Published
2005

23. Back Cover

Author

Rigg, Bryan Mark

Published
2016

24. Index

Author

Rigg, Bryan Mark

Published
2016

25. Conclusion

Author

Rigg, Bryan Mark

Published
2016

27. Notes

Author

Rigg, Bryan Mark

Published
2016

36. Preface

Author

Rigg, Bryan Mark

Published
2016

41. 12. Flight

Author

Rigg, Bryan Mark

Published
2016

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