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1. Emerging investigator series: aqueous oxidation of isoprene-derived organic aerosol species as a source of atmospheric formic and acetic acids

Author

Bates, Kelvin H, Jacob, Daniel J, Cope, James D, Chen, Xin, Millet, Dylan B, and Nguyen, Tran B

Subjects
Earth Sciences, Atmospheric Sciences, Chemical Sciences
Abstract

Atmospheric chemistry models generally assume organic aerosol (OA) to be photochemically inert. Recent mechanisms for the oxidation of biogenic isoprene, a major source of secondary organic aerosol (iSOA), produce excessive OA in the absence of subsequent OA reactivity. At the same time, models underestimate atmospheric concentrations of formic and acetic acids for which OA degradation could provide a source. Here we show that the aqueous photooxidation of an isoprene-derived organosulfate (2-methyltriolsulfate or MTS), an important iSOA component, produces formic and acetic acids in high yields and at timescales competitive with deposition. Experimental data are well fit by a kinetic model in which three sequential oxidation reactions of the isoprene organosulfate produce two molar equivalents of formic acid and one of acetic acid. We incorporate this chemistry and that of 2-methyltetrol, another ubiquitous iSOA component, into the GEOS-Chem global atmospheric chemistry model. Simulations show that photooxidation and subsequent revolatilization of this iSOA may account for up to half of total iSOA loss globally, producing 4 Tg a−1 each of formic and acetic acids. This reduces model biases in gas-phase formic acid and total organic aerosol over the Southeast United States in summer by ∼30% and 60% respectively. While our study shows the importance of adding iSOA photochemical sinks into atmospheric models, uncertainties remain that warrant further study. In particular, improved understanding of reaction dependencies on particle characteristics and concentrations of particle-phase OH and other oxidants are needed to better simulate the effects of this chemistry on the atmospheric budgets of organic acids and iSOA.

Published
2023

2. Second-Order Kinetic Rate Coefficients for the Aqueous-Phase Sulfate Radical (SO4 •–) Oxidation of Some Atmospherically Relevant Organic Compounds

Author

Tran, Lillian N, Abellar, Karizza A, Cope, James D, and Nguyen, Tran B

Subjects
Chemical Sciences, Physical Chemistry, Theoretical and Computational Chemistry, Aerosols, Lactic Acid, Nitrates, Organic Chemicals, Oxidants, Oxidation-Reduction, Pyruvic Acid, Sulfates, Sulfur, Sulfur Dioxide, Water, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Physical Chemistry (incl. Structural), Physical chemistry, Theoretical and computational chemistry, Atomic, molecular and optical physics
Abstract

The sulfate anion radical (SO4•-) is a reactive oxidant formed in the autoxidation chain of sulfur dioxide, among other sources. Recently, new formation pathways toward SO4•- and other reactive sulfur species have been reported. This work investigated the second-order rate coefficients for the aqueous SO4•- oxidation of the following important organic aerosol compounds (kSO4): 2-methyltetrol, 2-methyl-1,2,3-trihydroxy-4-sulfate, 2-methyl-1,2-dihydroxy-3-sulfate, 1,2-dihydroxyisoprene, 2-methyl-2,3-dihydroxy-1,4-dinitrate, 2-methyl-1,2,4-trihydroxy-3-nitrate, 2-methylglyceric acid, 2-methylglycerate, lactic acid, lactate, pyruvic acid, pyruvate. The rate coefficients of the unknowns were determined against that of a reference in pure water in a temperature range of 298-322 K. The decays of each reagent were measured with nuclear magnetic resonance (NMR) and high-performance liquid chromatography-high-resolution mass spectrometry (HPLC-HRMS). Incorporating additional SO4•- reactions into models may aid in the understanding of organosulfate formation, radical propagation, and aerosol mass sinks.

Published
2022

3. Sulfur radical formation from the tropospheric irradiation of aqueous sulfate aerosols

Author

Cope, James D, Bates, Kelvin H, Tran, Lillian N, Abellar, Karizza A, and Nguyen, Tran B

Subjects
Chemical Sciences, Organic Chemistry, Physical Chemistry, Earth Sciences, Atmospheric Sciences, Aerosols, Atmosphere, Sulfates, Sulfur, Water, aerosol, sulfur, radical, sulfate
Abstract

The sulfate anion radical (SO4•-) is known to be formed in the autoxidation chain of sulfur dioxide and from minor reactions when sulfate or bisulfate ions are activated by OH radicals, NO3 radicals, or iron. Here, we report a source of SO4•-, from the irradiation of the liquid water of sulfate-containing organic aerosol particles under natural sunlight and laboratory UV radiation. Irradiation of aqueous sulfate mixed with a variety of atmospherically relevant organic compounds degrades the organics well within the typical lifetime of aerosols in the atmosphere. Products of the SO4•- + organic reaction include surface-active organosulfates and small organic acids, alongside other products. Scavenging and deoxygenated experiments indicate that SO4•- radicals, instead of OH, drive the reaction. Ion substitution experiments confirm that sulfate ions are necessary for organic reactivity, while the cation identity is of low importance. The reaction proceeds at pH 1-6, implicating both bisulfate and sulfate in the formation of photoinduced SO4•-. Certain aromatic species may further accelerate the reaction through synergy. This reaction may impact our understanding of atmospheric sulfur reactions, aerosol properties, and organic aerosol lifetimes when inserted into aqueous chemistry model mechanisms.

Published
2022

5. Secondary organic aerosol and organic nitrogen yields from the nitrate radical (NO3) oxidation of alpha-pinene from various RO2 fates

Author

Bates, Kelvin H, Burke, Guy JP, Cope, James D, and Nguyen, Tran B

Subjects
Earth Sciences, Atmospheric Sciences, Astronomical and Space Sciences, Meteorology & Atmospheric Sciences, Atmospheric sciences, Climate change science
Abstract

The reaction of α-pinene with NO3 is an important sink of both α-pinene and NO3 at night in regions with mixed biogenic and anthropogenic emissions; however, there is debate on its importance for secondary organic aerosol (SOA) and reactive nitrogen budgets in the atmosphere. Previous experimental studies have generally observed low or zero SOA formation, often due to excessive [NO3] conditions. Here, we characterize the SOA and organic nitrogen formation from α-pinene + NO3 as a function of nitrooxy peroxy (nRO2) radical fates with HO2, NO, NO3, and RO2 in an atmospheric chamber. We show that SOA yields are not small when the nRO2 fate distribution in the chamber mimics that in the atmosphere, and the formation of pinene nitrooxy hydroperoxide (PNP) and related organonitrates in the ambient atmosphere can be reproduced. Nearly all SOA from α-pinene + NO3 chemistry derives from the nRO2+ RO2 pathway, which alone has an SOA mass yield of 56 (±7) %. Molecular composition analysis shows that particulate nitrates are a large (60 %–70 %) portion of the SOA and that dimer formation is the primary mechanism of SOA production from α-pinene + NO3 under simulated nighttime conditions. Synergistic dimerization between nRO2 and RO2 derived from ozonolysis and OH oxidation also contribute to SOA formation and should be considered in models. We report a 58 (±20) % molar yield of PNP from the nRO2+ HO2 pathway. Applying these laboratory constraints to model simulations of summertime conditions observed in the southeast United States (where 80 % of α-pinene is lost via NO3 oxidation, leading to 20 % nRO2+ RO2 and 45 % nRO2+ HO2), we estimate yields of 11 % SOA and 7 % particulate nitrate by mass and 26 % PNP by mole from α-pinene + NO3 in the ambient atmosphere. These results suggest that α-pinene + NO3 significantly contributes to the SOA budget and likely constitutes a major removal pathway of reactive nitrogen from the nighttime boundary layer in mixed biogenic–anthropogenic areas.

Published
2022

6. Second-Order Kinetic Rate Coefficients for the Aqueous-Phase Hydroxyl Radical (OH) Oxidation of Isoprene-Derived Secondary Organic Aerosol Compounds at 298 K

Author

Abellar, Karizza A, Cope, James D, and Nguyen, Tran B

Subjects
Earth Sciences, Atmospheric Sciences, Environmental Sciences, Pollution and Contamination, Aerosols, Butadienes, Hemiterpenes, Hydroxyl Radical, Oxidation-Reduction, Volatile Organic Compounds, Water, aqueous photooxidation, OH radical oxidation, isoprene derived compounds, methyltetrol, organosulfate, organonitrate
Abstract

The hydroxyl radical (OH) oxidation of the most abundant nonmethane volatile organic compound emitted to the atmosphere, isoprene (C5H8), produces a number of chemical species that partition to the condensed phase via gas-particle partitioning or form condensed-phase compounds via multiphase/heterogeneous chemistry to generate secondary organic aerosols (SOA). The SOA species in aerosol water or cloud/fog droplets may oxidize further via aqueous reaction with OH radicals, among other fates. Rate coefficients for compounds in isoprene's photochemical cascade are well constrained in the gas phase; however, a gap of information exists for the aqueous OH rate coefficients of the condensed-phased products, precluding the atmospheric modeling of the oxidative fate of isoprene-derived SOA. This work investigated the OH-initiated oxidation kinetic rate coefficients (kOH) for six major SOA compounds formed from the high-NO and low-NO channels of isoprene's atmospheric oxidation and one analog, most of which were synthesized and purified for study: (k1) 2-methyltetrol [MT: 1.14 (±0.17) × 109 M-1 s-1], (k2) 2-methyl-1,2,3-trihydroxy-4-sulfate [MT-4-S: 1.52 (±0.25) × 109 M-1 s-1], (k3) 2-methyl-1,2-dihydroxy-3-sulfate [MD-3-S: 0.56 (±0.15) × 109 M-1 s-1], (k4) 2-methyl-1,2-dihydroxy-but-3-ene [MDE: 4.35 (±1.16) × 109 M-1 s-1], (k5) 2-methyl-2,3-dihydroxy-1,4-dinitrate [MD-1,4-DN: 0.24 (±0.04) × 109 M-1 s-1], (k6) 2-methyl-1,2,4-trihydroxy-3-nitrate [MT-3-N: 1.12 (±0.15) × 109 M-1 s-1], and (k7) 2-methylglyceric acid [MGA: pH 2:1.41 (±0.49) × 109 M-1 s-1; pH 5:0.97 (±0.42) × 109 M-1 s-1]. The second-order rate coefficients are determined against the known kOH of erythritol in pure water. The decays of each reagent were measured with nuclear magnetic resonance (NMR) and high-performance liquid chromatography-high resolution mass spectrometry (HPLC-HRMS). The aqueous photooxidation fates of isoprene-derived SOA compounds are substantial and may impact the SOA budget when implemented into global models.

Published
2021

7. Gas-Phase Oxidation Rates and Products of 1,2-Dihydroxy Isoprene

Author

Bates, Kelvin H, Cope, James D, and Nguyen, Tran B

Subjects
Earth Sciences, Atmospheric Sciences, Chemical Sciences, Physical Chemistry, Aerosols, Butadienes, Hemiterpenes, Oxidation-Reduction, isoprene, VOC, oxidation, photochemistry, SOA, biogenic, Environmental Sciences
Abstract

1,2-Dihydroxy isoprene (1,2-DHI), a product of isoprene oxidation from multiple chemical pathways, is produced in the atmosphere in large quantities; however, its chemical fate has not been comprehensively studied. Here, we perform chamber experiments to investigate its gas-phase reactions. We find that the reactions of 1,2-DHI with OH radicals and ozone are rapid (kOH = 8.0 (±1.3) × 10-11 cm3 molecule-1 s-1; kO3 = 7.2 (±1.1) × 10-18 cm3 molecule-1 s-1). Reaction with OH, which dominates 1,2-DHI loss, leads primarily to fragmentation and radical recycling; major products under both high- and low-NO conditions include hydroxyacetone, glycolaldehyde, and 2,3-dihydroxy-2-methyl-propanal (DHMP). Radical-terminating hydroperoxide formation from the peroxy radical (RO2) reaction with HO2 and organonitrate formation from RO2 + NO are not observed in the gas phase, possibly due to low volatility; constraints for their branching ratios are instead derived by mass balance. We also measure secondary organic aerosol mass yields from 1,2-DHI (0-23%) and show that oxidation in the presence of aqueous particles leads to formic and acetic acid production. Finally, we incorporate results into GEOS-Chem, a global chemical transport model, to compute the global production (25.3 Tg a-1) and gas-phase loss (20.2 Tg a-1) of 1,2-DHI and show that its oxidation provides non-negligible contributions to the atmospheric budgets of hydroxyacetone, glycolaldehyde, hydroxymethyl hydroperoxide, formic acid, and DHMP.

Published
2021

8. Aqueous Photochemistry of 2‑Methyltetrol and Erythritol as Sources of Formic Acid and Acetic Acid in the Atmosphere

Author

Cope, James D, Abellar, Karizza A, Bates, Kelvin H, Fu, Xuan, and Nguyen, Tran B

Subjects
Earth Sciences, Atmospheric Sciences, Chemical Sciences, Physical Chemistry, formic acid, acetic acid, isoprene SOA, 2-methyltetrol, aqueous oxidation, atmospheric chemistry, aerosol aging, Chemical sciences, Earth sciences, Physical sciences
Abstract

Atmospheric formic acid (FA) and acetic acid (AA) mixing ratios are often underestimated in atmospheric models, particularly over areas with high biogenic influence. We investigated the aqueous hydroxyl radical (OH) oxidation of 2-methyltetrol, one of the largest components of secondary organic aerosols (SOAs) that are produced from the oxidation of isoprene, and compare its chemistry to the non-methylated C4 polyol analogue, erythritol. We studied the kinetics and reaction products of the aqueous 2-methyltetrol (2-MT) + OH and erythritol (E) + OH reactions using 1H and 13C nuclear magnetic resonance spectroscopy and high-performance liquid chromatography coupled with high-resolution mass spectrometry. We found that the aqueous oxidation of aliphatic alcohols, such as E and 2-MT, are strong sources of small acids. Nearly all 2-MT is converted to FA, AA, and carbon dioxide (CO2) under atmospherically relevant OH exposures. Suppression of volatile acid partitioning into the gas phase increased the observed yields of volatile products in solution by up to 80%, as quantified by experiments with low headspace. The influence of solution pH on the yields of FA and AA (or their carboxylates) was also investigated in the range of pH 2-9 for the 2-MT + OH reaction. Solution pH strongly influenced the concentrations of FA and AA via their gas-aqueous partitioning, gross production yields, and radical-induced decarboxylation reactions. The data are adequately reproduced with a kinetic model; however, different reaction mechanisms are needed for the low and high pH chemistries. Fewer stable reaction intermediates were observed for 2-MT compared to E and at high pH compared to low pH, providing insight into the decomposition pathways of 2-MT. On the basis of the substantial production yields and partitioning of FA and AA in the aqueous photooxidation of 2-methyltetrol, aqueous aging of isoprene-derived SOA may contribute to FA and AA emissions to the atmosphere that are currently missing from models.

Published
2021

9. Estimated Airline Compliance With Predeparture SARS-CoV-2 Testing for Passengers on Flights to the United States, January 2021 to June 2022.

Author

Preston, Leigh Ellyn, Berro, Andre, Christensen, Deborah, Gesinde, Bukunmi, Vang, Arnold, Gilliland, Candice, Epps, Kelly J., Rothney, Erin, Palo, Matt, Klevos, Andrew D., Cope, James R., D'Angelo, Zoe, Olmstead, John, Shearer, Emma, Guduguntla, Bhavna, Decherd, Josie, Brown, Clive, and Gertz, Alida M.

Abstract

In the early years of the COVID-19 pandemic, unprecedented public health measures were designed and implemented to mitigate the spread of SARS-CoV-2. On January 26, 2021, US Centers for Disease Control and Prevention (CDC) staff began daily audits of documents of arriving passengers at 18 US international ports of entry to ensure documentation of either a negative predeparture antigen or nucleic acid amplification test result for SARS-CoV-2 or recent recovery from COVID-19. This case study briefly describes the results of those audits. The CDC found a very low rate of issues overall. Of the 483,251 passengers selected for audit, 2,142 (0.44%) had issues with their COVID-19 test documentation and 1,182 (0.24%) provided documentation of recovery from COVID-19 rather than a negative test result. The low rate of issues noted during traveler audits indicated airlines were largely compliant with the order. However, the burden of SARS-CoV-2 infections within the United States was high during much of this period, which suggests that implementing a predeparture testing requirement earlier in the pandemic might have had more impact on spread. Digital solutions could reduce the burden of similar interventions in the future on airlines, public health authorities, and other partners. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Pediatric Surgery Collaboration in Uganda, the Benefits of Long Term Partnerships at Regional Referral Hospitals

Author

Klazura, Greg, primary, Kayima, Peter, additional, Situma, Martin, additional, Musinguzi, Edwin, additional, Mugarura, Robert, additional, Nyonyintono, James, additional, Yap, Ava, additional, Cope, James, additional, Akello, Richard, additional, Kiwanuka, Emmanuel, additional, Odonkara, Moses, additional, Okellowange, Chelsea, additional, Adongpiny, Jennifer, additional, Lakwanyero, Daniels, additional, Atim, Patricia, additional, Cadrine, Aber Patience, additional, Olara, Joshua, additional, Boppana, Amulya, additional, Laverde, Ruth, additional, d'Agostino, Sergio, additional, Cigliano, Bruno, additional, Ozgediz, Doruk, additional, Sims, Thomas, additional, and Kisa, Phyllis, additional

Published
2024
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14. Feature Extraction

Author

Remagnino, Paolo, Mayo, Simon, Wilkin, Paul, Cope, James, Kirkup, Don, Remagnino, Paolo, Mayo, Simon, Wilkin, Paul, Cope, James, and Kirkup, Don

Published
2017
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15. Introduction

Author

Remagnino, Paolo, Mayo, Simon, Wilkin, Paul, Cope, James, Kirkup, Don, Remagnino, Paolo, Mayo, Simon, Wilkin, Paul, Cope, James, and Kirkup, Don

Published
2017
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16. Botanists’ Vision

Author

Remagnino, Paolo, Mayo, Simon, Wilkin, Paul, Cope, James, Kirkup, Don, Remagnino, Paolo, Mayo, Simon, Wilkin, Paul, Cope, James, and Kirkup, Don

Published
2017
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17. Morphometrics: A Brief Review

Author

Remagnino, Paolo, Mayo, Simon, Wilkin, Paul, Cope, James, Kirkup, Don, Remagnino, Paolo, Mayo, Simon, Wilkin, Paul, Cope, James, and Kirkup, Don

Published
2017
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18. Computational methods for the classification of plants

Author

Cope, James S.

Subjects
004, Biological sciences, Computer science and informatics
Abstract

Plants are of fundamental importance to life on Earth. The shapes of leaves, petals and whole plants are of great significance to plant science, as they can help to distinguish between different species, to measure plant health, and even to model climate change. The current availability of botanists is increasingly failing to meet the growing demands for their expertise. These demands range from amateurs desiring help in identifying plants, to agricultural applications such as automated weeding systems, and to the cataloguing of biodiversity for conservational purposes. This thesis aims to help fill this gap, by exploring computational techniques for the automated analysis and classification of plants from images of their leaves. The main objective is to provide novel techniques and the required frame¬work for a robust, automated plant identification system. This involves firstly the accurate extraction of different features of the leaf and the generation of appropriate descriptors. One of the biggest challenges involved in working with plants is the high amounts of variation that may occur within a species, and high similarity that exists between some species. Algorithms are introduced which aim to allow accurate classification in spite of this. With many features of the leaf being available for use in classification, a suitable framework is required for combining them. An efficient method is proposed which selects on a leaf-by-leaf basis which of the leaf features are most likely to be of use. This decreases computational costs whilst increasing accuracy, by ignoring unsuitable features. Finally a study is carried out looking at how professional botanists view leaf images. Much can be learnt from the behaviour of experts which can be applied to the task at hand. Eye-tracking technology is used to establish the difference between how botanists and non-botanists view leaf images, and preliminary work is performed towards utilizing this information in an automated system.

Published
2014

22. Immediate Closures and Violations Identified During Routine Inspections of Public Aquatic Facilities — Network for Aquatic Facility Inspection Surveillance, Five States, 2013

Author

Hlavsa, Michele C., Gerth, Taryn R., Collier, Sarah A., Dunbar, Elizabeth L., Rao, Gouthami, Epperson, Gregory, Bramlett, Becky, Ludwig, David F., Gomez, Diana, Stansbury, Monty M., Miller, Freeman, Warren, Jeffrey, Nichol, Jim, Bowman, Harry, Huynh, Bao-An, Loewe, Kara M., Vincent, Bob, Tarrier, Amanda L., Shay, Timothy, Wright, Robert, Brown, Allison C., Kunz, Jasen M., Fullerton, Kathleen E., Cope, James R., and Beach, Michael J.

Published
2016

23. Cytological, biochemical and genetical investigation of actin and tubulin in fission yeasts

Author

Cope, James Warren

Subjects
572, Biochemistry
Abstract

A combined cytological, biochemical and genetical approach was applied to the distribution and composition of the microtubule and actin components of the fission yeast. Indirect immunofluorescence techniques were used to study the depolymerisation / polymerisation of microtubules in Schizosaccharomyces pombe and Schizosaccharornyces japonicus var. versatilis cells treated for 40 min at 1°C, subsequently re-warmed to 25°C. Microtubules depolymerised totally after 40 min at 1°C, but reappeared in 2 min at 25°C and at 30 min were indistinguishable from control cells. The effect of this treatment on actin distribution was examined. Actin was delocalised in cold treated cells, with some cells showing a ring of actin around the nucleus. Reformation of the normal actin array occurred even in cells in which microtubule polymerisation was blocked with 100μg ml-1 thiabendazole. Therefore polymerised microtubules are not required for the normal distribution of actin to be maintained. One and two-dimensional gel electrophoresis and Western blotting using a monoclonal anti-actin antibody were carried out on block-released cdc25.22 cells to determine whether actins' state changed throughout the cell cycle. Actin levels varied through the cell cycle. Attempts to determine whether any of the four species detected by two-dimensional gel electrophoresis were the result of post-translational modification gave equivocal results. Classical genetic techniques were utilised to identify suppressors of the cold-sensitive β-tubulin mutant nda3-KM311 and thereby identify possible interacting proteins. Two approaches were employed: (i) 552 phenotypically revertant colonies were isolated after EMS-mutagenesis of nda3-KM311; these were further tested for temperature sensitivity at 36°C; (ii) three phenotypically revertant colonies were isolated by spontaneous mutation of nda3-KM311. Ten revertants from the chemically induced group (four temperature sensitive and six not) and the three spontaneous revertants were crossed to wild type cells and the resulting asci dissected, replica plated and scored for growth at 20°C. The cold sensitive phenotype did not segregate out, suggesting that all of the mutations were intragenic. This was confirmed by free spore analysis.

Published
1996

24. Classification of High-Dimension PDFs Using the Hungarian Algorithm

Author

Cope, James S., Remagnino, Paolo, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Doug, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Gimel’farb, Georgy, editor, Hancock, Edwin, editor, Imiya, Atsushi, editor, Kuijper, Arjan, editor, Kudo, Mineichi, editor, Omachi, Shinichiro, editor, Windeatt, Terry, editor, and Yamada, Keiji, editor

Published
2012
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25. Classifying Plant Leaves from Their Margins Using Dynamic Time Warping

Author

Cope, James S., Remagnino, Paolo, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Doug, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Blanc-Talon, Jacques, editor, Philips, Wilfried, editor, Popescu, Dan, editor, Scheunders, Paul, editor, and Zemčík, Pavel, editor

Published
2012
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26. Utilizing the Hungarian Algorithm for Improved Classification of High-Dimension Probability Density Functions in an Image Recognition Problem

Author

Cope, James S., Remagnino, Paolo, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Doug, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Blanc-Talon, Jacques, editor, Philips, Wilfried, editor, Popescu, Dan, editor, Scheunders, Paul, editor, and Zemčík, Pavel, editor

Published
2012
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27. Shape and Texture Based Plant Leaf Classification

Author

Beghin, Thibaut, Cope, James S, Remagnino, Paolo, Barman, Sarah, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Nierstrasz, Oscar, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Sudan, Madhu, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Vardi, Moshe Y., Series editor, Weikum, Gerhard, Series editor, Blanc-Talon, Jacques, editor, Bone, Don, editor, Philips, Wilfried, editor, Popescu, Dan, editor, and Scheunders, Paul, editor

Published
2010
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28. The Extraction of Venation from Leaf Images by Evolved Vein Classifiers and Ant Colony Algorithms

Author

Cope, James S., Remagnino, Paolo, Barman, Sarah, Wilkin, Paul, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Nierstrasz, Oscar, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Sudan, Madhu, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Vardi, Moshe Y., Series editor, Weikum, Gerhard, Series editor, Blanc-Talon, Jacques, editor, Bone, Don, editor, Philips, Wilfried, editor, Popescu, Dan, editor, and Scheunders, Paul, editor

Published
2010
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29. Plant Texture Classification Using Gabor Co-occurrences

Author

Cope, James S., Remagnino, Paolo, Barman, Sarah, Wilkin, Paul, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Nierstrasz, Oscar, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Sudan, Madhu, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Vardi, Moshe Y., Series editor, Weikum, Gerhard, Series editor, Bebis, George, editor, Boyle, Richard, editor, Parvin, Bahram, editor, Koracin, Darko, editor, Chung, Ronald, editor, Hammound, Riad, editor, Hussain, Muhammad, editor, Kar-Han, Tan, editor, Crawfis, Roger, editor, Thalmann, Daniel, editor, Kao, David, editor, and Avila, Lisa, editor

Published
2010
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30. Computational Botany

Author

Remagnino, Paolo, primary, Mayo, Simon, additional, Wilkin, Paul, additional, Cope, James, additional, and Kirkup, Don, additional

Published
2017
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32. Feature Extraction

Author

Remagnino, Paolo, primary, Mayo, Simon, additional, Wilkin, Paul, additional, Cope, James, additional, and Kirkup, Don, additional

Published
2016
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34. Botanists’ Vision

Author

Remagnino, Paolo, primary, Mayo, Simon, additional, Wilkin, Paul, additional, Cope, James, additional, and Kirkup, Don, additional

Published
2016
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35. Introduction

Author

Remagnino, Paolo, primary, Mayo, Simon, additional, Wilkin, Paul, additional, Cope, James, additional, and Kirkup, Don, additional

Published
2016
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38. Secondary organic aerosol and organic nitrogen yields from the nitrate radical (NO3) oxidation of alpha-pinene from various RO2 fates

Author

Bates, Kelvin H., Burke, Guy J. P., Cope, James D., and Nguyen, Tran B.

Subjects
TheoryofComputation_MATHEMATICALLOGICANDFORMALLANGUAGES
Abstract

The reaction of α-pinene with NO3 is an important sink of both α-pinene and NO3 at night in regions with mixed biogenic and anthropogenic emissions; however, there is debate on its importance for secondary organic aerosol (SOA) and reactive nitrogen budgets in the atmosphere. Previous experimental studies have generally observed low or zero SOA formation, often due to excessive [NO3] conditions. Here, we characterize the SOA and organic nitrogen formation from α-pinene + NO3 as a function of nitrooxy peroxy (nRO2) radical fates with HO2, NO, NO3, and RO2 in an atmospheric chamber. We show that SOA yields are not small when the nRO2 fate distribution in the chamber mimics that in the atmosphere, and the formation of pinene nitrooxy hydroperoxide (PNP) and related organonitrates in the ambient atmosphere can be reproduced. Nearly all SOA from α-pinene + NO3 chemistry derives from the nRO2+ RO2 pathway, which alone has an SOA mass yield of 56 (±7) %. Molecular composition analysis shows that particulate nitrates are a large (60 %–70 %) portion of the SOA and that dimer formation is the primary mechanism of SOA production from α-pinene + NO3 under simulated nighttime conditions. Synergistic dimerization between nRO2 and RO2 derived from ozonolysis and OH oxidation also contribute to SOA formation and should be considered in models. We report a 58 (±20) % molar yield of PNP from the nRO2+ HO2 pathway. Applying these laboratory constraints to model simulations of summertime conditions observed in the southeast United States (where 80 % of α-pinene is lost via NO3 oxidation, leading to 20 % nRO2+ RO2 and 45 % nRO2+ HO2), we estimate yields of 11 % SOA and 7 % particulate nitrate by mass and 26 % PNP by mole from α-pinene + NO3 in the ambient atmosphere. These results suggest that α-pinene + NO3 significantly contributes to the SOA budget and likely constitutes a major removal pathway of reactive nitrogen from the nighttime boundary layer in mixed biogenic–anthropogenic areas.

Published
2022

41. The nitrate radical (NO3) oxidation of alpha-pinene is a significant source of secondary organic aerosol and organic nitrogen under simulated ambient nighttime conditions

Author

Bates, Kelvin H., Burke, Guy J. P., Cope, James D., and Nguyen, Tran B.

Abstract

The reaction of α-pinene with NO3 is an important sink of both α-pinene and NO3 at night in regions with mixed biogenic and anthropogenic emissions; however, there is debate on its importance for secondary organic aerosol (SOA) and reactive nitrogen budgets in the atmosphere. Previous experimental studies have generally observed low or zero SOA formation, often due to excessive [NO3] conditions. Here, we characterize the SOA and organic nitrogen formation from α-pinene + NO3 as a function of nitrooxy peroxy (nRO2) radical fates with HO2, NO, NO3, and RO2 in an atmospheric chamber. We show that SOA yields are not small when the nRO2 fate distribution in the chamber mimics that in the atmosphere, and the formation of pinene nitrooxy hydroperoxide (PNP) and related organonitrates in the ambient can be reproduced. Nearly all SOA from α-pinene + NO3 chemistry derives from the nRO2 + nRO2 pathway, which alone has an SOA mass yield of 65 (±9) %. Molecular composition analysis shows that particulate nitrates are a large (60–70 %) portion of the SOA, and that dimer formation is the primary mechanism of SOA production from α-pinene + NO3 under simulated nighttime conditions. We estimate an average nRO2 + nRO2 → ROOR branching ratio of ~18 %. Synergistic dimerization between nRO2 and RO2 derived from ozonolysis and OH oxidation also contribute to SOA formation, and should be considered in models. We report a 58 (±20) % molar yield of PNP from the nRO2 + HO2 pathway. Applying these laboratory constraints to model simulations of summertime conditions observed in the Southeast United States (where 80 % of α-pinene is lost via NO3 oxidation, leading to 20 % nRO2 + nRO2 and 45 % nRO2 + HO2) , we estimate yields of 13% SOA and 9% particulate nitrate by mass, and 26 % PNP by mole, from α-pinene + NO3 in the ambient. These results suggest that α-pinene + NO3 significantly contributes to the SOA budget, and likely constitutes a major removal pathway of reactive nitrogen from the nighttime boundary layer in mixed biogenic/anthropogenic areas.

Published
2021

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