35 results on '"Harris, N.R.P."'
Search Results
2. Influence of Northeast Monsoon cold surges on air quality in Southeast Asia
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Ashfold, M.J., Latif, M.T., Samah, A.A., Mead, M.I., and Harris, N.R.P.
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- 2017
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3. OZONE DEPLETION AND RELATED TOPICS | Long-Term Ozone Changes
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Harris, N.R.P., primary
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- 2015
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4. Scout-O3/active: high-altitude aircraft measurements around deep tropical convection
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Vaughan, G., Schiller, C., MacKenzie, A.R., Bower, K., Peter, T., Schlager, H., Harris, N.R.P., and May, P.T.
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Flying-machines -- Usage ,Convection (Meteorology) -- Research ,Atmospheric chemistry -- Research ,Business ,Earth sciences - Abstract
During November and December 2005, two consortia of mainly European groups conducted an aircraft campaign in Darwin, Australia, to measure the composition of the tropical upper-troposphere and tropopause regions, between 12 and 20 km, in order to investigate the transport and transformation in deep convection of water vapor, aerosols, and trace chemicals. The campaign used two high-altitude aircraft--the Russian M55 Geophysica and the Australian Grob 520 Egrett, which can reach 20 and 15 km, respectively--complemented by upward-pointing lidar measurements from the DLR Falcon and low-level aerosol and chemical measurements from the U.K. Dornier-228. The meteorology during the campaign was characterized mainly by premonsoon conditions--isolated afternoon thunderstorms with more organized convective systems in the evening and overnight. At the beginning of November pronounced pollution resulting from widespread biomass burning was measured by the Dornier, giving way gradually to cleaner conditions by December, thus affording the opportunity to study the influence of aerosols on convection. The Egrett was used mainly to sample in and around the outflow from isolated thunderstorms, with a couple of survey missions near the end. The Geophysica-Falcon pair spent about 40% of their flight hours on survey legs, prioritizing remote sensing of water vapor, cirrus, and trace gases, and the remainder on close encounters with storm systems, prioritizing in situ measurements. Two joint missions with all four aircraft were conducted: on 16 November, during the polluted period, sampling a detached anvil from a single-cell storm, and on 30 November, around a much larger multicellular storm.
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- 2008
5. A strategy for process-oriented validation of coupled chemistry--climate models
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Eyring, V., Harris, N.R.P., Rex, M., Shepherd, T.G., Fahey, D.W., Amanatidis, G.T., Austin, J., Chipperfield, M.P., Dameris, M., De F., Forster, P.M., Gettelman, A., Graf, H.F., Nagashima, T., Newman, P.A., Pawson, S., Prather, M.J., Pyle, J.A., Salawitch, R.J., Santer, B.D., and Waugh, D.W.
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Climatic changes -- Research ,Stratosphere -- Research ,Meteorology -- Research ,Business ,Earth sciences - Abstract
Accurate and reliable predictions and an understanding of future changes in the stratosphere are major aspects of the subject of climate change. Simulating the interaction between chemistry and climate is of particular importance, because continued increases in greenhouse gases and a slow decrease in halogen loading are expected. These both influence the abundance of stratospheric ozone. In recent years a number of coupled chemistry-climate models (CCMs) with different levels of complexity have been developed. They produce a wide range of results concerning the timing and extent of ozone-layer recovery. Interest in reducing this range has created a need to address how the main dynamical, chemical, and physical processes that determine the long-term behavior of ozone are represented in the models and to validate these model processes through comparisons with observations and other models. A set of core validation processes structured around four major topics (transport, dynamics, radiation, and stratospheric chemistry and microphysics) has been developed. Each process is associated with one or more model diagnostics and with relevant datasets that can be used for validation. This approach provides a coherent framework for validating CCMs and can be used as a basis for future assessments. Similar efforts may benefit other modeling communities with a focus on earth science research as their models increase in complexity.
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- 2005
6. Chemical Ozone Loss in the Arctic Winter 1994/95 as Determined by the Match Technique
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Rex, M., Von Der Gathen, P., Braathen, G.O., Harris, N.R.P., Reimer, E., Beck, A., Alfier, R., Krüger-carstensen, R., Chipperfield, M., De Backer, H., Balis, D., O'Connor, F., Dier, H., Dorokhov, V., Fast, H., Gamma, A., Gil, M., Kyrö, E., Litynska, Z., Mikkelsen, I.S., Molyneux, M., Murphy, G., Reid, S.J., Rummukainen, M., and Zerefos, C.
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- 1999
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7. GLOBAL CHANGE | Ozone Trends
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Harris, N.R.P., primary
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- 2003
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8. Isoprene hotspots at the Western Coast of Antarctic Peninsula during MASEC′16
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Nadzir, M.S.M., primary, Cain, M., additional, Robinson, A.D., additional, Bolas, C., additional, Harris, N.R.P., additional, Parnikoza, I., additional, Salimun, E., additional, Mustafa, E.M., additional, Alhasa, K.M., additional, Zainuddin, M.H.M., additional, Ghee, O.C., additional, Morris, K., additional, Khan, M.F., additional, Latif, M.T., additional, Wallis, B.M., additional, Cheah, W., additional, Zainudin, S.K., additional, Yusop, N., additional, Ahmad, M.R., additional, Hussin, W.M.R.W., additional, Salleh, S.M., additional, Hamid, H.H.A., additional, Lai, G.T., additional, Uning, R., additional, Bakar, M.A.A., additional, Ariff, N.M., additional, Tuah, Z., additional, Wahab, M.I.A., additional, Foong, S.Y., additional, Samah, A.A., additional, Chenoli, S.N., additional, Wan Johari, W.L., additional, Zain, C.R.C.M., additional, Rahman, N.A., additional, Rosenstiel, T.N., additional, Yusoff, A.H., additional, Sabuti, A.A., additional, Alias, S.A., additional, and Noor, A.Y.M., additional
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- 2019
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9. Development of a low-maintenance measurement approach to continuously estimate methane emissions: A case study
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Riddick, S.N., primary, Hancock, B.R., additional, Robinson, A.D., additional, Connors, S., additional, Davies, S., additional, Allen, G., additional, Pitt, J., additional, and Harris, N.R.P., additional
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- 2018
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10. Past changes in the vertical distribution of ozone: Part 1: Measurement techniques, uncertainties and availability
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Hassler, B., Petropavlovskikh, I., Staehelin, J., August, T., Bhartia, P.K., Clerbaux, C., Degenstein, D., De Mazière, M., Dinelli, B.M., Dudhia, A., Dufour, G., Frith, S.M., Froidevaux, L., Godin-Beekmann, S., Granville, J., Harris, N.R.P., Hoppel, K., Hubert, D., Kasai, Y., Kurylo, M.J., Kyrölä, E., Levelt, P.F., McElroy, C.T., McPeters, R.D., Munro, R., Nakajima, H., Parrish, A., Raspollini, P., Remsberg, E.E., Rosenlof, K.H., Rozanov, A., Sano, T., Sasano, Y., Shiotani, M., Smit, H.G.J., Stiller, G., Tamminen, J., Tarasick, D.W., Urban, J., Van Der A, R.J., Veefkind, J.P., Vigouroux, C., Von Clarmann, T., Von Savigny, C., Walker, K.A., Weber, M., Wild, J., and Zawodny, J.M.
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Earth sciences ,ddc:550 - Abstract
Peak stratospheric chlorofluorocarbon (CFC) and other ozone depleting substance (ODS) concentrations were reached in the mid- to late 1990s. Detection and attribution of the expected recovery of the stratospheric ozone layer in an atmosphere with reduced ODSs as well as efforts to understand the evolution of stratospheric ozone in the presence of increasing greenhouse gases are key current research topics. These require a critical examination of the ozone changes with an accurate knowledge of the spatial (geographical and vertical) and temporal ozone response. For such an examination, it is vital that the quality of the measurements used be as high as possible and measurement uncertainties well quantified. In preparation for the 2014 United Nations Environment Programme (UNEP)/World Meteorological Organization (WMO) Scientific Assessment of Ozone Depletion, the SPARC/IO3C/IGACO-O3/NDACC (SI2N) Initiative was designed to study and document changes in the global ozone profile distribution. This requires assessing long-term ozone profile data sets in regards to measurement stability and uncertainty characteristics. The ultimate goal is to establish suitability for estimating long-term ozone trends to contribute to ozone recovery studies. Some of the data sets have been improved as part of this initiative with updated versions now available. This summary presents an overview of stratospheric ozone profile measurement data sets (ground and satellite based) available for ozone recovery studies. Here we document measurement techniques, spatial and temporal coverage, vertical resolution, native units and measurement uncertainties. In addition, the latest data versions are briefly described (including data version updates as well as detailing multiple retrievals when available for a given satellite instrument). Archive location information for each data set is also given., Atmospheric Measurement Techniques, 7 (5), ISSN:1867-1381, ISSN:1867-8548
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- 2014
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11. Long-Term Ozone Changes
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Harris, N.R.P. and Hassler, B.
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- 2013
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12. Ozone trends at northern mid- and high latitudes – A European perspective
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Harris, N.R.P. Kyrã, E. Staehelin, J. Brunner, D. Andersen, S.-B. Godin-Beekmann, S. Dhomse, S. Hadjinicolaou, P. Hansen, G. Isaksen, I. Jrrar, A. Karpetchko, A. Kivi, R. Knudsen, B. Krizan, P. Lastovicka, J. Maeder, J. Orsolini, Y. Pyle, J.A. Rex, M. Vanicek, K. Weber, M. Wohltmann, I. Zanis, P. Zerefos, C.
- Abstract
The EU CANDIDOZ project investigated the chemical and dynamical influences on decadal ozone trends focusing on the Northern Hemisphere. High quality long-term ozone data sets, satellite-based as well as ground-based, and the long-term meteorological reanalyses from ECMWF and NCEP are used together with advanced multiple regression models and atmospheric models to assess the relative roles of chemistry and transport in stratospheric ozone changes. This overall synthesis of the individual analyses in CANDIDOZ shows clearly one common feature in the NH mid latitudes and in the Arctic: an almost monotonic negative trend from the late 1970s to the mid 1990s followed by an increase. In most trend studies, the Equivalent Effective Stratospheric Chlorine (EESC) which peaked in 1997 as a consequence of the Montreal Protocol was observed to describe ozone loss better than a simple linear trend. Furthermore, all individual analyses point to changes in dynamical drivers, such as the residual circulation (responsible for the meridional transport of ozone into middle and high latitudes) playing a key role in the observed turnaround. The changes in ozone transport are associated with variations in polar chemical ozone loss via heterogeneous ozone chemistry on PSCs (polar stratospheric clouds). Synoptic scale processes as represented by the new equivalent latitude proxy, by conventional tropopause altitude or by 250 hPa geopotential height have also been successfully linked to the recent ozone increases in the lowermost stratosphere. These show significant regional variation with a large impact over Europe and seem to be linked to changes in tropospheric climate patterns such as the North Atlantic Oscillation. Some influence in recent ozone increases was also attributed to the rise in solar cycle number 23. Changes from the late 1970s to the mid 1990s were found in a number of characteristics of the Arctic vortex. However, only one trend was found when more recent years are also considered, namely the tendency for cold winters to become colder.
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- 2008
13. Process-Oriented Validation of Coupled Chemistry-Climate Models
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Eyring, V., Gettelman, A., Harris, N.R.P., Pawson, S., Shepherd, T.G., Butchart, N., Chipperfield, M.P., Dameris, M., Fahey, D.W., Forster, P.M. de F., Newman, P.A., Salawitch, R.J., Santer, B.D., and Waugh, D.W.
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process oriented validation ,Ozone ,Global Chemistry Climate Modelling - Published
- 2006
14. Arctic winter 2005: Implications for stratospheric ozone loss and climate change
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Rex, M. Salawitch, R.J. Deckelmann, H. von der Gathen, P. Harris, N.R.P. Chipperfield, M.P. Naujokat, B. Reimer, E. Allaart, M. Andersen, S.B. Bevilacqua, R. Braathen, G.O. Claude, H. Davies, J. De Backer, H. Dier, H. Dorokhov, V. Fast, H. Gerding, M. Godin-Beekmann, S. Hoppel, K. Johnson, B. Kyrö, E. Litynska, Z. Moore, D. Nakane, H. Parrondo, M.C. Risley Jr., A.D. Skrivankova, P. Stübi, R. Viatte, P. Yushkov, V. Zerefos, C.
- Abstract
The Arctic polar vortex exhibited widespread regions of low temperatures during the winter of 2005, resulting in significant ozone depletion by chlorine and bromine species. We show that chemical loss of column ozone (ΔO3) and the volume of Arctic vortex air cold enough to support the existence of polar stratospheric clouds (VPSC) both exceed levels found for any other Arctic winter during the past 40 years. Cold conditions and ozone loss in the lowermost Arctic stratosphere (e.g., between potential temperatures of 360 to 400 K) were particularly unusual compared to previous years. Measurements indicate ΔO3 = 121 ± 20 DU and that ΔO3 versus VPSC lies along an extension of the compact, near linear relation observed for previous Arctic winters. The maximum value of VPSC during five to ten year intervals exhibits a steady, monotonic increase over the past four decades, indicating that the coldest Arctic winters have become significantly colder, and hence are more conducive to ozone depletion by anthropogenic halogens. Copyright 2006 by the American Geophysical Union.
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- 2006
15. Comprehensive Summary on the Workshop on Process-Oriented Validation of Coupled Chemistry-Climate Models
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Eyring, V., Harris, N.R.P., Rex, M., Shepherd, T.G., Fahey, D.W., Amanatidis, G., Austin, J., Chipperfield, M.P., Dameris, M., Forster, P.M. de, Gettelman, A., Graf, H. (Univ. of Cambridge, Centre for Atmospheric Science, Dep. of, Geography, Cambridge, UK), Nagashima, T., Newman, P.A., Prather, M.J., Pyle, J. A., Salawitch, R.J., Santer, B.D., and Waugh, D.W.
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ozone ,process oriented validation ,global chemistry climate modelling - Published
- 2004
16. Process-Oriented Validation of Coupled Chemistry-Climate Models
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Eyring, V., Harris, N.R.P., Rex, M., Shepherd, T.G., Fahey, D.W., Amanatidis, G., Austin, J., Dameris, M., Graf, H., Nagashima, T., Newman, P.A., and Santer, B.D.
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ozone ,process oriented validation ,global chemistry climate modelling - Published
- 2004
17. Brief Report on the Workshop on Process-Oriented Validation of Coupled Chemistry-Climate Models
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Eyring, V., Harris, N.R.P., Rex, M., Shepherd, T.G., Fahey, D.W., Austin, J., Dameris, M., Graf, H., Nagashima, T., and Santer, B.D.
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ozone ,process oriented validation ,global chemistry climate modelling - Published
- 2004
18. An overview of the SOLVE-THESEO 2000 campaign
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Newman P.A., Harris N.R.P., Adriani A., Amanatidis G.T., Anderson J.G., Braathen G.O., Brune W.H., Carslaw K.S., Craig M.T., Decola P.E., Guirlet M., Hipskind S.R., Kurylo M.J., Kullmann H., Larsen N., Migie G.J., Pommereau J.P., Poole L.R., and Schoeberl M.R
- Abstract
Between November 1999 and April 2000, two major field experiments, the Stratospheric Aerosol and Gas Experiment (SAGE) III Ozone Loss and Validation Experiment (SOLVE) and the Third European Stratospheric Experiment on Ozone (THESEO 2000), collaborated to form the largest field campaign yet mounted to study Arctic ozone loss. This international campaign involved more than 500 scientists from over 20 countries. These scientists made measurements across the high and middle latitudes of the Northern Hemisphere. The main scientific aims of SOLVE/THESEO 2000 were to study (1) the processes leading to ozone loss in the Arctic vortex and (2) the effect on ozone amounts over northernmidlatitudes. The campaign included satellites, research balloons, six aircraft, ground stations, and scores of ozonesondes. Campaign activities were principally conducted in three intensive measurement phases centered on early December 1999, late January 2000, and early March 2000. Observations made during the campaign showed that temperatures were below normal in the polar lower stratosphere over the course of the 19992000 winter. Because of these low temperatures, extensive polar stratospheric clouds (PSC) formed across the Arctic. Large particles containing nitric acid trihydrate were observed for the first time, showing that denitrification can occur without the formation of ice particles. Heterogeneous chemical reactions on the surfaces of the PSC particles produced high levels of reactive chlorine within the polar vortex by early January. This reactive chlorine catalytically destroyed about 60% of the ozone in a layer near 20 km between late January and mid-March 2000, with good agreement being found between a number of empirical and modeling studies. The measurements made during SOLVE/THESEO 2000 have improved our understanding of key photochemical parameters and the evolution of ozone-destroying forms of chlorine.
- Published
- 2002
19. Arctic ozone loss in threshold conditions: Match observations in 1997/1998 and 1998/1999
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Schulz, A. Rex, M. Harris, N.R.P. Braathen, G.O. Reimer, E. Alfier, R. Kilbane-Dawe, I. Eckermann, S. Allaart, M. Alpers, M. Bojkov, B. Cisneros, J. Claude, H. Cuevas, E. Davies, J. De Backer, H. Dier, H. Dorokhov, V. Fast, H. Godin, S. Johnson, B. Kois, B. Kondo, Y. Kosmidis, E. Kyrö, E. Litynska, Z. Mikkelsen, I.S. Molyneux, M.J. Murphy, G. Nagai, T. Nakane, H. O'Connor, F. Parrondo, C. Schmidlin, F.J. Skrivankova, P. Varotsos, C. Vialle, C. Viatte, P. Yushkov, V. Zerefos, C. Von Der Gathen, P.
- Abstract
Chemical ozone loss rates inside the Arctic polar vortex were determined in early 1998 and early 1999 by using the Match technique based on coordinated ozonesonde measurements. These two winters provide the only opportunities in recent years to investigate chemical ozone loss in a warm Arctic vortex under threshold conditions, i.e., where the preconditions for chlorine activation, and hence ozone destruction, only occurred occasionally. In 1998, results were obtained in January and February between 410 and 520 K. The overall ozone loss was observed to be largely insignificant, with the exception of late February, when those air parcels exposed to temperatures below 195 K were affected by chemical ozone loss. In 1999, results are confined to the 475 K isentropic level, where no significant ozone loss was observed. Average temperatures were some 8° - 10° higher than those in 1995, 1996, and 1997, when substantial chemical ozone loss occurred. The results underline the strong dependence of the chemical ozone loss on the stratospheric temperatures. This study shows that enhanced chlorine alone does not provide a sufficient condition for ozone loss. The evolution of stratospheric temperatures over the next decade will be the determining factor for the amount of wintertime chemical ozone loss in the Arctic stratosphere. Copyright 2001 by the American Geophysical Union.
- Published
- 2001
20. Third European Stratospheric Experiment on Ozone (THESEO)
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Harris, N.R.P., Amanatidis, G.T., Braathen, G.O., Burrows, J., Kämpfer, N., Kyrö, E., Lelieveld, G., Megie, G., Pommereau, J.-P., Schumann, U., Stefanutti, L., Zander, R., and Zerefos, C.
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Experiment ,Ozon ,Stratosphäre - Published
- 2000
21. Match observations in the Arctic winter 1996/97: High stratospheric ozone loss rates correlate with low temperatures deep inside the polar vortex
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Schulz, A. Rex, M. Steger, J. Harris, N.R.P. Braathen, G.O. Reimer, E. Alfier, R. Beck, A. Alpers, M. Cisneros, J. Claude, H. De Backer, H. Dier, H. Dorokhov, V. Fast, H. Godin, S. Hansen, G. Kanzawa, H. Kois, B. Kondo, Y. Kosmidis, E. Kyrö, E. Litynska, Z. Molyneux, M.J. Murphy, G. Nakane, H. Parrondo, C. Ravegnani, F. Varotsos, C. Vialle, C. Viatte, P. Yushkov, V. Zerefos, C. Von Der Gathen, P.
- Abstract
With the Match technique, which is based on the coordinated release of ozonesondes, chemical ozone loss rates in the Arctic stratospheric vortex in early 1997 have been quantified in a vertical region between 400 K and 550 K. Ozone destruction was observed from mid February to mid March in most of these levels, with maximum loss rates between 25 and 45 ppbv/day. The vortex averaged loss rates and the accumulated vertically integrated ozone loss have been smaller than in the previous two winters, indicating that the record low ozone columns observed in spring 1997 were partly caused by dynamical effects. The observed ozone loss is inhomogeneous through the vortex with the highest loss rates located in the vortex centre, coinciding with the lowest temperatures. Here the loss rates per sunlit hour reached 6 ppbv/h, while the corresponding vortex averaged rates did not exceed 3.9 ppbv/h.
- Published
- 2000
22. The impact of local surface changes in Borneo on atmospheric composition at wider spatial scales: coastal processes, land-use change and air quality
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Pyle, J.A., Warwick, N.J., Harris, N.R.P., Abas, Mohd Radzi, Archibald, A.T., Ashfold, M.J., Ashworth, K., Barkley, Michael P., Carver, G.D., Chance, K., Dorsey, J.R., Fowler, D., Gonzi, S., Gostlow, B., Hewitt, C.N., Kurosu, T.P., Lee, J.D., Langford, S.B., Mills, G., Moller, S., MacKenzie, A.R., Manning, A.J., Misztal, P., Nadzir, Mohd Shahrul Mohd, Nemitz, E., Newton, H.M., O'Brien, L.M., Ong, Simon, Oram, D., Palmer, P.I., Peng, Leong Kok, Phang, Siew Moi, Pike, R., Pugh, T.A.M., Rahman, Noorsaadah Abdul, Robinson, A.D., Sentian, J., Samah, Azizan Abu, Skiba, U., Ung, Huan Eng, Yong, Sei Eng, Young, P.J., Pyle, J.A., Warwick, N.J., Harris, N.R.P., Abas, Mohd Radzi, Archibald, A.T., Ashfold, M.J., Ashworth, K., Barkley, Michael P., Carver, G.D., Chance, K., Dorsey, J.R., Fowler, D., Gonzi, S., Gostlow, B., Hewitt, C.N., Kurosu, T.P., Lee, J.D., Langford, S.B., Mills, G., Moller, S., MacKenzie, A.R., Manning, A.J., Misztal, P., Nadzir, Mohd Shahrul Mohd, Nemitz, E., Newton, H.M., O'Brien, L.M., Ong, Simon, Oram, D., Palmer, P.I., Peng, Leong Kok, Phang, Siew Moi, Pike, R., Pugh, T.A.M., Rahman, Noorsaadah Abdul, Robinson, A.D., Sentian, J., Samah, Azizan Abu, Skiba, U., Ung, Huan Eng, Yong, Sei Eng, and Young, P.J.
- Abstract
We present results fromtheOP3 campaign in Sabah during 2008 that allowus to study the impact of local emission changes over Borneo on atmospheric composition at the regional andwider scale. OP3 constituent data provide an important constraint onmodel performance.Treatment of boundary layer processes is highlighted as an important area of model uncertainty.Model studies of land-use change confirm earlier work, indicating that further changes to intensive oil palm agriculture in South EastAsia, and the tropics in general, could have important impacts on air quality, with the biggest factor being the concomitant changes in NOx emissions. With the model scenarios used here, local increases in ozone of around 50 per cent could occur. We also report measurements of short-lived brominated compounds around Sabah suggesting that oceanic (and, especially, coastal) emission sources dominate locally. The concentration of bromine in short-lived halocarbons measured at the surface during OP3 amounted to about 7 ppt, setting an upper limit on the amount of these species that can reach the lower stratosphere.
- Published
- 2011
23. The European Workshop on Mesoscale Processes in the Stratosphere - Overview and Outcomes
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Carslaw, K.S., Volkert, H., Haynes, P., Harris, N.R.P., Larsen, N., Amanatidis, G., and Peter, T.
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PSC ,stratosphere ,mesoscale - Published
- 1999
24. In situ measurements of stratospheric ozone depletion rates in the Arctic winter 1991/1992: A Lagrangian approach
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Rex, M. Von Der Gathen, P. Harris, N.R.P. Lucic, D. Knudsen, B.M. Braathen, G.O. Reid, S.J. De Backer, H. Claude, H. Fabian, R. Fast, H. Gil, M. Kyrö, E. Mikkelsen, I.S. Rummukainen, M. Smit, H.G. Stähelin, J. Varotsos, C. Zaitcev, I.
- Abstract
A Lagrangian approach has been used to assess the degree of chemically induced ozone loss in the Arctic lower stratosphere in winter 1991/1992. Trajectory calculations are used to identify air parcels probed by two ozonesondes at different points along the trajectories. A statistical analysis of the measured differences in ozone mixing ratio and the time the air parcel spent in sunlight between the measurements provides the chemical ozone loss. Initial results were first described by von der Gathen et al. [1995]. Here we present a more detailed description of the technique and a more comprehensive discussion of the results. Ozone loss rates of up to 10 ppbv per sunlit hour (or 54 ppbv per day) were found inside the polar vortex on the 475 K potential temperature surface (about 19.5 km in altitude) at the end of January. The period of rapid ozone loss coincides and slightly lags a period when temperatures were cold enough for type I polar stratospheric clouds to form. It is shown that the ozone loss occurs exclusively during the sunlit portions of the trajectories. The time evolution and vertical distribution of the ozone loss rates are discussed.
- Published
- 1998
25. Improved air-mass factors for ground-based total NO2 measurements: a sensitivity study
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Harris, N.R.P., Guirlet, M., Amanatidis, G.T., Sarkissian, A., Richter, A., Van Roozendael, M., Lambert, J.-C., Granville, J., Vendenberghe, J.-M., Buchwitz, M., Hoiskar, B.A.K., Floisland, I., Tornkvist, K., Roscoe, H.K., Goutail, F., Pommereau, J.-P., Harris, N.R.P., Guirlet, M., Amanatidis, G.T., Sarkissian, A., Richter, A., Van Roozendael, M., Lambert, J.-C., Granville, J., Vendenberghe, J.-M., Buchwitz, M., Hoiskar, B.A.K., Floisland, I., Tornkvist, K., Roscoe, H.K., Goutail, F., and Pommereau, J.-P.
- Abstract
We present an overview of exisiting problems in air-mass factor calculations for NO2 vertical column measurements by UV-visible ground-based spectrometry, Sensitivity studies made using different radiative transfer models allow us to identify and to quantify sources of uncertainties in clculations, and domiment effects are multiple scattering (4%) and profile variations due to diurnal (10%) and seasonal changes (16%)
- Published
- 2000
26. A surface acoustic wave frost-point hygrometer for measurements of stratospheric water vapour
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Harris, N.R.P., Guirlet, M., Amanatidis, G.T., Turnbull, K.F.V., Ostanin, V.P., Hadaway, D.E., Hill, J.G.T., McIntyre, J.D., Roscoe, H.K., Jones, R.L., Harris, N.R.P., Guirlet, M., Amanatidis, G.T., Turnbull, K.F.V., Ostanin, V.P., Hadaway, D.E., Hill, J.G.T., McIntyre, J.D., Roscoe, H.K., and Jones, R.L.
- Abstract
Conventional frost-point hygrometers observe frost on their cold point by optical means [1,2,3], thereby requiring several micrometres of ice to form. We have developed a new hygrometer which uses surface acoustic wave (SAW) devices to determine when condensation has occurred. At the oscillation frequencies used (hundreds of MHz), the SAW device is capable of responding to a few monolayers of condensate, increasing sensitivity and reducing response time. The principle of the method has been demonstrated in the laboratory by calibration against a chilled mirror frost-point hygrometer, and the sensor has had a number of technical balloon flights. Here we describe the principle of the technique and present some preliminary results.
- Published
- 2000
27. Long duration balloon flights in the Arctic: the THESEO-Lagrangian Experiment
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Harris, N.R.P., Guirlet, M., Amanatidis, G.T., Pommereau, J.P., Garnier, A., Goutail, F., Nunes-Pinharanda, M., Denis, F., Vial, F., Nouel, F., Dubourg, V., Letrenne, G., Jones, R.L., Hansford, G., Freshwater, R.A., Turnbull, K., Roscoe, H.K., Williams, D.E., Woods, P., Gardiner, T., Adriani, A., Cairo, F., Pulvirenu, L., Di Donfrancesco, G., Yushkov, V., Merkoulov, S., Knudsen, B., Harris, N.R.P., Guirlet, M., Amanatidis, G.T., Pommereau, J.P., Garnier, A., Goutail, F., Nunes-Pinharanda, M., Denis, F., Vial, F., Nouel, F., Dubourg, V., Letrenne, G., Jones, R.L., Hansford, G., Freshwater, R.A., Turnbull, K., Roscoe, H.K., Williams, D.E., Woods, P., Gardiner, T., Adriani, A., Cairo, F., Pulvirenu, L., Di Donfrancesco, G., Yushkov, V., Merkoulov, S., and Knudsen, B.
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- 2000
28. Solid state ozone sensors for the future: light weight, low power and continuous operation
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Harris, N.R.P., Guirlet, M., Amanatidis, G.T., Hansford, G.M., Sanderson, M.G., Freshwater, R.A., Utembe, S., Bosch, R., Cox, R.A., Jones, R.L., Pratt, K.E., Williams, D.E., Smit, H., Helten, M., O'Connor, F., Vaughan, G., Roscoe, H.K., Harris, N.R.P., Guirlet, M., Amanatidis, G.T., Hansford, G.M., Sanderson, M.G., Freshwater, R.A., Utembe, S., Bosch, R., Cox, R.A., Jones, R.L., Pratt, K.E., Williams, D.E., Smit, H., Helten, M., O'Connor, F., Vaughan, G., and Roscoe, H.K.
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- 2000
29. Instrument development and deployment
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Schmidt, U., Roscoe, H.K., Harris, N.R.P., Kunzi, K., Stefanutti, L., Zander, R., Schmidt, U., Roscoe, H.K., Harris, N.R.P., Kunzi, K., Stefanutti, L., and Zander, R.
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- 1997
30. Changes in Global Stratospheric Ozone
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Harris, N.R.P., primary and Bishop, L., additional
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- 2001
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31. Lessons for the future from coordinated European stratospheric campaigns
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Pyle, J.A., primary and Harris, N.R.P., additional
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- 1995
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32. A multi-model intercomparison of halogenated very short-lived substances (TransCom-VSLS): Linking oceanic emissions and tropospheric transport for a reconciled estimate of the stratospheric source gas injection of bromine
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Hossaini, R., Patra, P.K., Leeson, A.A., Krysztofiak, G., Abraham, N.L., Andrews, S.J., Archibald, A.T., Aschmann, J., Atlas, E.L., Belikov, D.A., Bönisch, H., Carpenter, L.J., Dhomse, S., Dorf, M., Engel, A., Feng, W., Fuhlbrügge, S., Griffiths, P.T., Harris, N.R.P., Hommel, R., Keber, T., Krüger, K., Lennartz, S.T., Maksyutov, S., Mantle, H., Mills, G.P., Miller, B., Montzka, S.A., Moore, F., Navarro, M.A., Oram, D.E., Pfeilsticker, K., Pyle, J.A., Quack, B., Robinson, A.D., Saikawa, E., Saiz-Lopez, A., Sala, S., Sinnhuber, B.-M., Taguchi, S., Tegtmeier, S., Lidster, R.T., Wilson, C., and Ziska, F.
- Subjects
13. Climate action - Abstract
The first concerted multi-model intercomparison of halogenated very short-lived substances (VSLS) has been performed, within the framework of the ongoing Atmospheric Tracer Transport Model Intercomparison Project (TransCom). Eleven global models or model variants participated (nine chemical transport models and two chemistry– climate models) by simulating the major natural bromine VSLS, bromoform (CHBr$_{3}$) and dibromomethane (CH$_{2}$Br$_{2}$), over a 20-year period (1993–2012). Except for three model simulations, all others were driven offline by (or nudged to) reanalysed meteorology. The overarching goal of TransCom- VSLS was to provide a reconciled model estimate of the stratospheric source gas injection (SGI) of bromine from these gases, to constrain the current measurement-derived range, and to investigate inter-model differences due to emissions and transport processes. Models ran with standardised idealised chemistry, to isolate differences due to transport, and we investigated the sensitivity of results to a range of VSLS emission inventories. Models were tested in their ability to reproduce the observed seasonal and spatial distribution of VSLS at the surface, using measurements from NOAA’s long-term global monitoring network, and in the tropical troposphere, using recent aircraft measurements – including high-altitude observations from the NASA Global Hawk platform. The models generally capture the observed seasonal cycle of surface CHBr$_{3}$ and CH$_{2}$Br$_{2}$ well, with a strong model– measurement correlation (r ≥ 0.7) at most sites. In a given model, the absolute model–measurement agreement at the surface is highly sensitive to the choice of emissions. Large inter-model differences are apparent when using the same emission inventory, highlighting the challenges faced in evaluating such inventories at the global scale. Across the ensemble, most consistency is found within the tropics where most of the models (8 out of 11) achieve best agreement to surface CHBr3 observations using the lowest of the three CHBr$_{3}$ emission inventories tested (similarly, 8 out of 11 models for CH$_{2}$ Br$_{2}$). In general, the models reproduce observations of CHBr$_{3}$ and CH$_{2}$Br$_{2}$ obtained in the tropical tropopause layer (TTL) at various locations throughout the Pacific well. Zonal variability in VSLS loading in the TTL is generally consistent among models, with CHBr$_{3}$ (and to a lesser extent CH$_{2}$ Br$_{2}$) most elevated over the tropical western Pacific during boreal winter. The models also indicate the Asian monsoon during boreal summer to be an important pathway for VSLS reaching the stratosphere, though the strength of this signal varies considerably among models. We derive an ensemble climatological mean estimate of the stratospheric bromine SGI from CHBr$_{3}$ and CH2Br$_{2}$ of 2.0 (1.2–2.5) ppt, ~57% larger than the best estimate from the most recent World Meteorological Organization (WMO) Ozone Assessment Report. We find no evidence for a long-term, transport-driven trend in the stratospheric SGI of bromine over the simulation period. The transport-driven interannual variability in the annual mean bromine SGI is of the order of ±5 %, with SGI exhibiting a strong positive correlation with the El Niño–Southern Oscillation (ENSO) in the eastern Pacific. Overall, our results do not show systematic differences between models specific to the choice of reanalysis meteorology, rather clear differences are seen related to differences in the implementation of transport processes in the models.
33. An introduction to the SCOUT-AMMA stratospheric aircraft, balloons and sondes compaign in West Africa, August 2006 : rationale and roadmap
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Cairo, F., Pommereau, J.P., Law, K.S., Schlager, H., Garnier, A., Fierli, F., Ern, M., Streibel, M., Arabas, S., Borrmann, S., Berthelier, J.J., Blom, C., Christensen, T., D'Amato, F., Di Donfrancesco, G ., Deshler, T., Diedhiou, A., Durry, G., Engelsen, O., Goutail, F., Harris, N.R.P., Kerstel, E.R.T., Khaykin, S., Konopka, P., Kylling, A., Larsen, N., Lebel, T., Liu, X., MacKenzie, A.R., Nielsen, J., Oulanowski, A., Parker, D.J., Pelon, J., Polcher, J., Pyle, J.A., Ravegnani, F., Riviere, E.D., Robinson, A.D., Röckmann, T., Schiller, C., Simoes, F., Stefanutti, L., Stroh, F., Some, L., Siegmund, P., Sitnikov, N., Vernier, J.P., Volk, C.M., Voigt, C., Von Hobe, M., Viciani, S., and Yushkov, V.
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13. Climate action - Abstract
A multi-platform field measurement campaign involving aircraft and balloons took place overWest Africa between 26 July and 25 August 2006, in the frame of the concomitant AMMA Special Observing Period and SCOUT-O3 African tropical activities. Specifically aiming at sampling the upper troposphere and lower stratosphere, the high-altitude research aircraft M55 Geophysica was deployed in Ouagadougou (12.3° N, 1.7° W), Burkina Faso, in conjunction with the German D- 20 Falcon, while a series of stratospheric balloons and sonde flights were conducted from Niamey (13.5° N, 2.0° E), Niger. Altogether, these measurements were intended to provide experimental evidence for a better understanding of large scale transport, assessing the effect of lightning on NOx production, and studying the impact of intense mesoscale convective systems on water, aerosol, dust and chemical species in the upper troposphere and lower stratosphere. The M55 Geophysica carried out five local and four transfer flights between southern Europe and the Sahel and back, while eight stratospheric balloons and twenty-nine sondes were flown from Niamey. These experiments allowed a characterization of the tropopause and lower stratosphere of the region. The paper provides an overview of SCOUT-AMMA campaign activities together with a description of the meteorology of the African monsoon and the situation prevailing during the flights and a brief summary of the observations accomplished.
34. Results of a trajectory box model simulating the size distribution evolution of stratospheric particles (H2SO4/H2O and H2SO4/HNO3/H2O solutions). A case study during SESAME
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Pyle, A., Harris, N.R.P., Amanatidis, G.T., Rizi, V.; Dipartimeto di Fisica, Università di L'Aquila, Italy, Redaelli, G.; Dipartimeto di Fisica, Università di L'Aquila, Italy, Visconti, G.; Dipartimeto di Fisica, Università di L'Aquila, Italy, Masci, F.; ING, Italy, Ivanova, I.; Bulgarian Academy of Science, Bulgaria, Weedekind, C.; Freie Universitat Berlin, Germany, Immler, F.; Freie Universitat Berlin, Germany, Mielke, B.; Freie Universitat Berlin, Germany, Rairoux, P.; Freie Universitat Berlin, Germany, Stein, B.; Freie Universitat Berlin, Germany, Woste, L.; Freie Universitat Berlin, Germany, Matthey, R.; Observatorie Cantonal Neuchatel, Swizerland, Mitev, V.; Observatorie Cantonal Neuchatel, Swizerland, Douard, M.; Universitè, Lyon, Wolf, J.P.; Universiẗ, Lyon, Kyro, E.; FMI, Sodankyla, Finland, Kivi, R.; FMI, Sodankyla, Finland, Pyle, A., Harris, N.R.P., Amanatidis, G.T., Rizi, V.; Dipartimeto di Fisica, Università di L'Aquila, Italy, Redaelli, G.; Dipartimeto di Fisica, Università di L'Aquila, Italy, Visconti, G.; Dipartimeto di Fisica, Università di L'Aquila, Italy, Masci, F.; ING, Italy, Ivanova, I.; Bulgarian Academy of Science, Bulgaria, Weedekind, C.; Freie Universitat Berlin, Germany, Immler, F.; Freie Universitat Berlin, Germany, Mielke, B.; Freie Universitat Berlin, Germany, Rairoux, P.; Freie Universitat Berlin, Germany, Stein, B.; Freie Universitat Berlin, Germany, Woste, L.; Freie Universitat Berlin, Germany, Matthey, R.; Observatorie Cantonal Neuchatel, Swizerland, Mitev, V.; Observatorie Cantonal Neuchatel, Swizerland, Douard, M.; Universitè, Lyon, Wolf, J.P.; Universiẗ, Lyon, Kyro, E.; FMI, Sodankyla, Finland, and Kivi, R.; FMI, Sodankyla, Finland
- Abstract
A revised interpretation of ER-2 polar stratospheric cloud (PSC) observations during AASE I (1989) and MOE (1987) Tabazadeh et al., 1995) suggests a picture of the PSC formations which evidences the importance of the air mass thermal histories. A series of ER-2 measurements are consistent with the thermodynamical properties of the liquid H2SO4/HNO3/H20 solution particles, but the data collected in other flights are in agreement with the possible formation of amorphous solid solutions of HNO3 and H2O through a peculiar coolingiheating cycle below the solid sulfuric acid tetrahydrate (SAT) melting temperatures and above the water ice saturation temperatures (frost point). During this cycle the liquid H2SO4 stratospheric aerosols may undergo a phase transition to SAT particles, required for the growing of solid nitric acid hydrates. On the other hand Koop et al., (1995) report laboratory experiments which show that H2SO4/HNO3/H20 liquid particles never freeze under stratospheric conditions for temperatures higher than the frost point. despite the change in composition due to the HNO3 uptake when cooling. In addition, when solid particles are heated, they start to become liquid at the SAT melting point. Then the analysis of any PSC data should start from air mass trajectory studies, and some thermodynamical criteria could be used to infer the physical state (liquid or solid) of the sampled particles. We use a trajectory box model to study the microphysical properties of stratospheric clouds observed during SESAME by the MOANA (Measurements and modelling of Ozone and Aerosols in the Northern Atmosphere) lidar at Sodankyla (SF). Our models treats the gas to particle conversion of H2SO4, HNO3, H2O and the microphysics of Aitken particles (ATK), H2SO4/H20 (WS) and H2SO4/HNO3/H20 (WSN) solution droplets; H2SO4 -nH2O (SA) and HNO3 -nH20 (NA) solid hydrates particles are also taken into account. To analyze the MOANA observations, within a prescribed air mass thermal history, w
35. A lightweight balloon-borne gas chromatograph for in situ measurements of atmospheric halocarbons.
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Robinson, A. D., Robinson, A.D., McIntyre, J. D., McIntyre, J.D., Harris, N. R. P., Harris, N.R.P., Pyle, J. A., Pyle, J.A., Simmonds, P. G., Simmonds, P.G., and Danis, F.
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GAS chromatography ,HALOCARBONS ,SCIENTIFIC apparatus & instruments ,MEASUREMENT ,ATMOSPHERIC halocarbons - Abstract
A new lightweight gas chromatograph using a Carboxen microtrap to pre-concentrate the sample has been developed for in situ measurements of stratospheric chlorofluorocarbons (CFCs) from balloon platforms. The instrument has been developed for fast analysis of a single tracer CFC-11 (CCl[sub 3]F) to maximize the vertical resolution of ascent/descent profiles. In principle a wide range of halocarbons can be measured by changing operational parameters. The instrument weights <25 kg and can easily be deployed on either the balloon flight train or on gondolas. It has a time resolution of <2 min which corresponds to a vertical resolution of 500-700 m for a typical balloon ascent and better for a controlled slow descent. The precision of the CFC-11 measurement is estimated to be 1.7% and the accuracy is currently estimated to be 2.9% with much of the uncertainty arising from the links to the absolute calibration scale. An improved calibration procedure is being developed which should reduce this uncertainty. Test flights were completed in 1998 and the instrument recently participated in the Third European Stratospheric Experiment on Ozone when a number of scientific flights were made. © 2000 American Institute of Physics. [ABSTRACT FROM AUTHOR]
- Published
- 2000
- Full Text
- View/download PDF
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