Regional and Hemispheric Influences on Temporal Variability in Baseline Carbon Monoxide and Ozone over the Northeast US

Interannual variability in baseline carbon monoxide (CO) and ozone (O3), defined as mixing ratios under minimal influence of recent and local emissions, was studied for seven rural sites in the Northeast US over 2001 - 2010. Annual baseline CO exhibited statistically significant decreasing trends (-4.3 - -2.3 ppbv yr-1), while baseline O3 did not display trends at any site. In examining the data by season, wintertime and springtime baseline CO at the two highest sites (1.5 km and 2 km asl) did not experience significant trends. Decadal increasing trends (~2.55 ppbv yr-1) were found in springtime and wintertime baseline O3 in southern New Hampshire, which was associated with anthropogenic NOx emission reductions from the urban corridor. Biomass burning emissions impacted summertime baseline CO with ~38% variability from wildfire emissions in Russia and ~22% from Canada at five sites and impacted baseline O3 at the two high elevation sites only with ~27% variability from wildfires in both Russia and Canada. The Arctic Oscillation was negatively correlated with summertime baseline O3, while the North Atlantic Oscillation was positively correlated with springtime baseline O3. This study suggested that anthropogenic and biomass burning emissions, and meteorological conditions were important factors working together to determine baseline O3 and CO in the Northeast U.S. during the 2000s.

Space-time analysis of the Air Quality Model Evaluation International Initiative (AQMEII) Phase 1 air quality simulations

This study presents an evaluation of summertime ozone concentrations over North America (NA) and Europe (EU) using the database generated from Phase 1 of the Air Quality Model Evaluation International Initiative (AQMEII). The analysis focuses on identifying temporal and spatial features that can be used to stratify operational model evaluation metrics and to test the extent to which the various modeling systems can replicate the features seen in the observations. Using a synoptic map typing approach, it is demonstrated that model performance varies with meteorological conditions associated with specific synoptic-scale flow patterns over both eastern NA and EU. For example, the root mean square error of simulated daily maximum 8-hr ozone was twice as high when cloud fractions were high compared with when cloud fractions were low over eastern NA. Furthermore, results show that over both NA and EU the regional models participating in AQMEII were able to better reproduce the observed variance in ambient ozone levels than the global model used to specify chemical boundary conditions, although the variance simulated by almost all regional models is still less that the observed variance on all spatiotemporal scales. In addition, all modeling systems showed poor correlations with observed fluctuations on the intraday time scale over both NA and EU. Furthermore, a methodology is introduced to distinguish between locally influenced and regionally representative sites for the purpose of model evaluation. Results reveal that all models have worse model performance at locally influenced sites. Overall, the analyses presented in this paper show how observed temporal and spatial information can be used to stratify operational model performance statistics and to test the modeling systems' ability to replicate observed temporal and spatial features, especially at scales the modeling systems are designed to capture.

IMPLICATIONS

The analyses presented in this paper demonstrate how observed temporal and spatial information can be used to stratify operational model performance and to test the modeling systems' ability to replicate observed temporal and spatial features. Decisions for the improvement of regional air quality models should be based on the information derived from only regionally representative sites.

An operational assessment of the application of the relative reduction factors in the demonstration of attainment of the 8-hr ozone National Ambient Air Quality Standard

The U.S. Environmental Protection Agency in 1997 revised the 1-hr ozone (O3) National Ambient Air Quality Standard (NAAQS) to one based on an 8-hr average, resulting in potential nonattainment status for substantial portions of the eastern United States. The regulatory process provides for the development of a state implementation plan that includes a demonstration that the projected future O3 concentrations will be at or below the NAAQS based on photochemical modeling and analytical techniques. In this study, four photochemical modeling systems, based on two photochemical models, Community Model for Air Quality and the Comprehensive Air Quality Model with extensions, and two emissions processing models, Sparse Matrix Optimization Kernel for Emissions and Emissions Modeling System, were applied to the eastern United States, with emphasis on the northeastern Ozone Transport Region in terms of their response to oxides of nitrogen and volatile organic carbon-focused controls on the estimated design values. With the 8-hr O3 NAAQS set as a bright-line test, it was found that a given area could be termed as being in or out of attainment of the NAAQS depending upon the modeling system. This suggests the need to provide an estimate of model-to-model uncertainty in the relative reduction factor (RRF) for a better understanding of the uncertainty in projecting the status of an area's attainment. Results indicate that the model-to-model differences considered in this study introduce

Demonstrating attainment of the air quality standards: integration of observations and model predictions into the probabilistic framework

This paper introduces an integrated observational-modeling approach to transform the deterministic nature of attainment demonstrations of the National Ambient Air Quality Standard (NAAQS) into the probabilistic framework. While the methods presented here can be used to address any air quality standard that is based on extreme values, this paper focuses on the application to the 1-hr and 8-hr NAAQS for ozone. Extreme value statistics and resampling techniques are applied to estimate the probability of exceeding the NAAQS for both 1-hr and 8-hr ozone concentrations. Within the integrated observation-modeling analysis approach, we show that the model-to-model differences in the predicted responses to emission reductions are smaller than the model-to-model differences in predicted absolute ozone concentrations. We illustrate that the emission reductions stemming from a real-world emission control strategy would substantially reduce the probability of exceeding the NAAQS over a large portion of the eastern United States, especially for the 8-hr average ozone concentrations.

Molecular cloning of structural and regulatory hydrogenase (hox) genes of Alcaligenes eutrophus H16

A gene bank of the 450-kilobase (kb) megaplasmid pHG1 from the hydrogen-oxidizing bacterium Alcaligenes eutrophus H16 was constructed in the broad-host-range mobilizable vector pSUP202 and maintained in Escherichia coli. hox DNA was identified by screening the E. coli gene bank for restoration of hydrogenase activity in A. eutrophus Hox mutants. Hybrid plasmids that contained an 11.6-kb EcoRI fragment restored soluble NAD-dependent hydrogenase activity when transferred by conjugation into one class of Hos- mutants. An insertion mutant impaired in particulate hydrogenase was partially restored in Hop activity by an 11-kb EcoRI fragment. A contiguous sequence of two EcoRI fragments of 8.6 and 2.0 kb generated Hox+ recombinants from mutants that were devoid of both hydrogenase proteins. hox DNA was subcloned into the vector pVK101. The resulting recombinant plasmids were used in complementation studies. The results indicate that we have cloned parts of the structural genes coding for Hos and Hop activity and a complete regulatory hox DNA sequence which encodes the thermosensitive, energy-dependent derepression signal of hydrogenase synthesis in A. eutrophus H16.

FLP site-specific recombinase of yeast 2-micron plasmid. Topological features of the reaction

The 2-micron plasmid of the yeast Saccharomyces cerevisiae encodes a site-specific recombinase (FLP) that promotes inversion across a unique site contained in each of the 599-base-pair inverted repeats of the plasmid. We have studied the topological changes generated in supercoiled substrates after exposure to the purified FLP protein in vitro. When a supercoiled substrate bearing two FLP target sequences in inverse orientation is treated with FLP, the products are multiply knotted structures that arise as a result of random entrapment of interdomainal supercoils. Likewise, a supercoiled substrate bearing two target sequences in direct orientation yields multiply interlocked catenanes as the product. Both types of substrate seem to be able to undergo repeated rounds of recombination that result in products of further complexity. The FLP protein also acts as a site-specific topoisomerase during the recombination reaction.

Genetics of hydrogenase from aerobic lithoautotrophic bacteria

Aerobic facultatively autotrophic hydrogen bacteria are distinguished on the basis of their hydrogen-oxidizing enzyme system (Hox). The major group, represented by Paracoccus denitrificans and Pseudomonas facilis, contains a membrane-bound, electron transport-coupled protein. Species of Nocardia are characterized by the possession of a cytoplasmic NAD-dependent hydrogenase. Both enzymes are present in strains of Alcaligenes. All hydrogenases from lithoautotrophs are H2-consuming nickel-iron-sulfur proteins. Despite these common characteristics, hydrogenases differ in catalytic and molecular properties, in particular in the regulation of enzyme synthesis. Hydrogenase formation is either inducible by H2 (e.g. P. denitrificans strain F1, Alcaligenes hydrogenophilus) or subject to derepression in response to the supply of reductant, temperature, and oxygen (e.g. Alcaligenes eutrophus). The only plasmid-encoded Hox function has been conclusively identified in species of Alcaligenes. Structural and regulatory hox genes reside on megaplasmids, ranging in size between 400 and 500 kilobase pairs (kb). Most of the plasmids are self-transmissible by conjugation. Hox genes of A. eutrophus H16 have been localized by plasmid curing, genetic transfer, molecular cloning and analysis of plasmid deletions and insertions. They seem to be clustered in a DNA sequence of approximately 50 kb, representing several transcriptional units. In addition, a chromosomally encoded regulatory function is required for the expression of plasmid-linked hox genes. Plasmid pHGl of A. eutrophus H16 has been transferred to the non-lithoautotrophic soil bacterium JMP222. Both hydrogenases are expressed in the new host. The current state of hydrogenase genetics in Alcaligenes is discussed in reference to hydrogenase systems of other lithoautotrophic bacteria.

Isolation and characterization of megaplasmid DNA from lithoautotrophic bacteria

A method is described for the preparative isolation of megaplasmids ranging in size from 340 to 700 kb. These plasmids were isolated from chemolithoautotrophic bacteria including the species Alcaligenes, Pseudomonas, and Paracoccus. The procedure was based on alkaline sodium dodecyl sulfate lysis of the cells, followed by heat treatment, salt precipitation, several phenol extractions, dialysis steps, and proteinase and RNase treatment. The various parameters were evaluated and controlled. Hydrogen-oxidizing-ability (Hox) encoding plasmids were compared by EcoRI restriction enzyme analysis. pHG plasmids from Alcaligenes eutrophus wild-type strains appeared to be closely related; plasmids derived from the type strain TF93 and from A. hydrogenophilus exhibited major differences in restriction sites. Two cryptic plasmids harbored by Pseudomonas facilis and Paracoccus denitrificans showed scarcely detectable similarity to the plasmid species of Alcaligenes.

Alcaligenes eutrophus hydrogenase genes (Hox)

Mutants of Alcaligenes eutrophus H16 lacking catalytically active soluble hydrogenase (Hos-) grew very slowly lithoautotrophically with hydrogen. Mutants devoid of particulate hydrogenase activity (Hop-) were not affected in growth with hydrogen. The use of Hos- and Hop- mutants as donors of hydrogen-oxidizing ability in crosses with plasmid-free recipients impaired in both hydrogenases (Hox-) resulted in transconjugants which had inherited the plasmid and the phenotype of the donor. This indicates that the structural genes which code for the hydrogenases reside on plasmid pHG1. The Hox function of one class of Hox- mutants could not be restored by conjugation. These mutants exhibited a pleiotropic phenotype since they were unable to grow with hydrogen and also failed to grow heterotrophically with nitrate (Hox- Nit-). Nitrate was scarcely utilized as electron acceptor or as nitrogen source. Hox- Nit- mutants did not act as recipients but could act as donors of the Hox character. Transconjugants derived from those crosses were Hox+ Nit+, indicating that the mutation which leads to the Hox- Nit- phenotype maps on the chromosome. Apparently, the product of a chromosomal gene is involved in the expression of plasmid-encoded Hox genes. We observed that the elimination of plasmid pHG1 coincided with the occurrence of multiple resistances to various antibiotics. Since Hox+ transconjugate retained the antibiotic-resistant phenotype, we conclude that this property is not directly plasmid associated.

Naturally occurring genetic transfer of hydrogen-oxidizing ability between strains of Alcaligenes eutrophus

Mutants defective in chemolithoautotrophic growth (Aut-) have been isolated from Alcaligenes eutrophus strains H16, N9A, G27, and TF93. Spontaneous Aut- mutants were obtained only with strain TF93. Mutants of the other strains were selected after conventional mutagenesis or treatment with mitomycin. Most of the mutants, including the spontaneous Aut- strains, lacked hydrogenase activity (Hox-) but possessed the ability to fix carbon dioxide (Cfx+). Agar mating of A. eutrophus H16 with Hox- mutants of the various strains resulted in transconjugants which had recovered the ability to grow autotrophically and to express activity of hydrogenase as examined by enzymatic and immunochemical analysis. Transfer of hydrogen-oxidizing ability occurred in the absence of a mobilizing plasmid such as Rp4. The transfer frequency was particularly high (ca. 10(-2) per donor) when the spontaneous Hox- mutants of strain TF93 were used as recipients. These strains proved to be plasmid free, whereas donors, transconjugants, and the mutagen-treated Hox- mutants contained a large plasmid (molecular weight, 270 +/- 10 X 10(6) revealed by agarose gel electrophoresis. The results allow the conclusion that A. eutrophus H16 harbors a self-transmissible plasmid designated pHG1, which carries information for hydrogen-oxidizing ability.