Your search keyword '"Toshiyuki Murayama"' showing total 12 results

1. Characterization of Asian dust and Siberian smoke with multi-wavelength Raman lidar over Tokyo, Japan in spring 2003

Author

Katsuya Wada, Detlef Müller, Miho Sekiguchi, Tatsuro Tsukamoto, Toshiyuki Murayama, and Atsushi Shimizu

Subjects

Troposphere, Effective radius, Geophysics, Lidar, Asian Dust, Depolarization ratio, General Earth and Planetary Sciences, Mineral dust, Atmospheric sciences, Water vapor, Remote sensing, Aerosol

Abstract

[1] In the spring of 2003, we observed lofted Asian dust and Siberian forest-fire smoke plumes in the free troposphere over Tokyo, Japan with a dual-wavelength Raman lidar. These data show clear signatures of the optical characteristics depending on the aerosol type. The Asiandust layer shows that the particle depolarization ratio (PDR) at 532 nm is 20%, and the extinction-to-backscatter ratio (lidar ratio) at 355 nm is 49 sr, which is close to 43 sr measured at 532 nm. On the contrary, the smoke layers show that the PDR is as small as 5–8% or less, and the lidar ratio at 355 nm is 40 sr, which is considerably lower than 65 sr which was measured at 532 nm. We also applied an inversion algorithm for the smoke case. The effective radius was 0.22 mm and the single-scattering albedo at 532 nm was 0.95. INDEX TERMS: 0305 Atmospheric Composition and Structure: Aerosols and particles (0345, 4801); 0368 Atmospheric Composition and Structure: Troposphere— constituent transport and chemistry; 0394 Atmospheric Composition and Structure: Instruments and techniques.

Published

2004

2. Environmental snapshots from ACE-Asia

Author

Barry J. Huebert, Beat Schmid, Timothy S. Bates, Sonoyo Mukai, Mark J. Rood, Richard C. Flagan, Ellsworth J. Welton, Itaru Sano, John H. Seinfeld, Fred J. Brechtel, P. B. Russell, John M. Livingston, Jae Gwang Won, Jiyoung Kim, Brent N. Holben, Pinar Kus, Anne Jefferson, John T. Merrill, Jian Wang, Teruyuki Nakajima, Steve Howell, Christian M. Carrico, Hajime Fukushima, Wen Hao Li, Toshiyuki Murayama, Jens Redemann, Ralph A. Kahn, Ellsworth G. Dutton, Robert Frouin, Antony D. Clarke, Theodore L. Anderson, Sang Woo Kim, Patricia K. Quinn, Nobuo Sugimoto, Olga V. Kalashnikova, Cameron S. McNaughton, Sarah J. Doherty, Soon-Chang Yoon, James R. Anderson, and Haflidi Jonsson

Subjects

Pollution, Atmospheric Science, media_common.quotation_subject, Soil Science, Aquatic Science, Oceanography, Atmospheric sciences, Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous), pollution, Earth-Surface Processes, Water Science and Technology, media_common, Ecology, Asian Dust, Paleontology, Forestry, Albedo, Aerosol, atmospheric closure, Wavelength, Geophysics, Spectroradiometer, Space and Planetary Science, Particle, Environmental science, Satellite, environmental snapshots, dust, aerosols

Abstract

On five occasions spanning the Asian Pacific Regional Aerosol Characterization Experiment (ACE-Asia) field campaign in spring 2001, the Multiangle Imaging Spectroradiometer spaceborne instrument took data coincident with high-quality observations by instruments on two or more surface and airborne platforms. The cases capture a range of clean, polluted, and dusty aerosol conditions. With a three-stage optical modeling process, we synthesize the data from over 40 field instruments into layer-by-layer environmental snapshots that summarize what we know about the atmospheric and surface states at key locations during each event. We compare related measurements and discuss the implications of apparent discrepancies, at a level of detail appropriate for satellite retrieval algorithm and aerosol transport model validation. Aerosols within a few kilometers of the surface were composed primarily of pollution and Asian dust mixtures, as expected. Medium- and coarse-mode particle size distributions varied little among the events studied; however, column aerosol optical depth changed by more than a factor of 4, and the near-surface proportion of dust ranged between 25% and 50%. The amount of absorbing material in the submicron fraction was highest when near-surface winds crossed Beijing and the Korean Peninsula and was considerably lower for all other cases. Having simultaneous single-scattering albedo measurements at more than one wavelength would significantly reduce the remaining optical model uncertainties. The consistency of component particle microphysical properties among the five events, even in this relatively complex aerosol environment, suggests that global, satellite-derived maps of aerosol optical depth and aerosol mixture (air-mass-type) extent, combined with targeted in situ component microphysical property measurements, can provide a detailed global picture of aerosol behavior.

Published

2004

3. Numerical study of Asian dust transport during the springtime of 2001 simulated with the Chemical Weather Forecasting System (CFORS) model

Author

Mitsuo Uematsu, Timothy S. Bates, Gregory R. Carmichael, Patricia K. Quinn, Steven S. Cliff, Zifa Wang, Youhua Tang, Nobuo Sugimoto, Toshiyuki Murayama, Atsushi Shimizu, Shinsuke Satake, Thomas A. Cahill, Toshihiko Takemura, Itsushi Uno, and Sachio Ohta

Subjects

Atmospheric Science, Total Ozone Mapping Spectrometer, Soil Science, Flux, Aquatic Science, Oceanography, Atmospheric sciences, complex mixtures, Latitude, Geochemistry and Petrology, Dust storm, Earth and Planetary Sciences (miscellaneous), Earth-Surface Processes, Water Science and Technology, Ecology, Asian Dust, Paleontology, Forestry, Storm, respiratory tract diseases, Aerosol, Geophysics, Space and Planetary Science, Climatology, Environmental science, Longitude

Abstract

[1] The regional-scale aerosol transport model Chemical Weather Forecasting System (CFORS) is used for analysis of large-scale dust phenomena during the Asian Pacific Regional Characterization Experiment (ACE-Asia) intensive observation. Dust modeling results are examined with the surface weather reports, satellite-derived dust index (Total Ozone Mapping Spectrometer (TOMS) Aerosol Index (AI)), Mie-scattering lidar observation, and surface aerosol observations. The CFORS dust results are shown to accurately reproduce many of the important observed features. Model analysis shows that the simulated dust vertical loading correlates well with TOMS AI and that the dust loading is transported with the meandering of the synoptic-scale temperature field at the 500-hPa level. Quantitative examination of aerosol optical depth shows that model predictions are within 20% difference of the lidar observations for the major dust episodes. The structure of the ACE-Asia Perfect Dust Storm, which occurred in early April, is clarified with the help of the CFORS model analysis. This storm consisted of two boundary layer components and one elevated dust (>6-km height) feature (resulting from the movement of two large low-pressure systems). Time variation of the CFORS dust fields shows the correct onset timing of the elevated dust for each observation site, but the model results tend to overpredict dust concentrations at lower latitude sites. The horizontal transport flux at 130°E longitude is examined, and the overall dust transport flux at 130°E during March–April is evaluated to be 55 Tg.

Published

2004

4. Continuous observations of Asian dust and other aerosols by polarization lidars in China and Japan during ACE-Asia

Author

Naoki Kagawa, Kazuma Aoki, Toshiyuki Murayama, Atsushi Shimizu, Kimio Arao, Ichiro Matsui, Akihiro Uchiyama, A. Akihiro Yamazaki, Itsushi Uno, and Nobuo Sugimoto

Subjects

Atmospheric Science, Observation period, Weather forecasting, Soil Science, Aquatic Science, Oceanography, Atmospheric sciences, computer.software_genre, complex mixtures, Troposphere, Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous), Depolarization ratio, Field campaign, Earth-Surface Processes, Water Science and Technology, Ecology, Asian Dust, Paleontology, Forestry, Polarization (waves), Aerosol, Geophysics, Space and Planetary Science, Environmental science, computer

Abstract

[1] Continuous observations of aerosols in China and Japan were made by polarization lidars during March to May 2001, corresponding with the Asian Pacific Regional Aerosol Characterization Experiment (ACE-Asia) field campaign period. Lidars in Beijing, Nagasaki, and Tsukuba were continuously operated regardless of weather conditions. Scatterers in the atmosphere were categorized for all vertical profiles, and occurrence frequencies of dust, spherical aerosols, and clouds up to 6 km were calculated. The frequency of dust was highest in Beijing for the whole height range. There was a peak of dust occurrence near the ground in Nagasaki. Dust was frequently detected in the free troposphere in Tsukuba. The contributions of dust and spherical aerosols to the total backscattering coefficient were estimated from the depolarization ratio with the assumption of the external mixture of both kinds of aerosols. Vertical profiles of backscattering by dust and by spherical aerosols represented the different characteristics of these aerosols. The monthly averaged backscattering coefficients by dust near the surface were 0.003/km/sr in Beijing, 0.001–0.002/km/sr in Nagasaki, and 0.0006/km/sr in Tsukuba. The backscattering coefficients by spherical aerosols near the surface were 0.002–0.004/km/sr at all three observatories. We compared the derived backscattering coefficients with aerosol mass concentrations calculated by a numerical model, Chemical Weather Forecasting System (CFORS). CFORS reproduced well the vertical structures of the tall dust events and the enhancements of spherical aerosols throughout the observation period. A specific dust event on 16–19 May 2001 was analyzed by using five lidars in Japan, and its fine structure is described.

Published

2004

5. Optical properties of Asian dust aerosol by SeaWiFS and contemporaneous ground observation data

Author

Hiroshi Kobayashi, Sachio Ohta, Hajime Fukushima, Toshiyuki Murayama, and Yuichiro Hagihara

Subjects

Atmosphere, Geography, Lidar, SeaWiFS, Asian Dust, Radiative transfer, Atmospheric correction, Radiance, Atmospheric sciences, Aerosol

Abstract

Asian dust aerosol layer of 4-6 km altitude accompanied by low clouds was observed with a LIDAR in Tokyo urban area on April 10 2001. In addition, column-integrated size distribution of aerosol was measured with a SkyRadiometer. To synthesize the top of atmosphere (TOA) reflectance, radiative transfer simulation was conducted assuming aerosol/cloud vertical structure and aerosol size distribution that were estimated after the ground observations. The refractive index of Asian dust was derived from a laboratory measurement of sampled Chinese soil particles. The synthesized TOA reflectance was compared to the SeaWiFS-derived one sampled at the low cloud pixels whose airmass is the same as the one passed at the observation site. TOA reflectance of the one of Asian dust models compare generally well with few percent difference in reflectance. We estimated an affect of Asian dust aerosol to ocean color remote sensing. Simulated TOA radiance absorbed by Asian dust was 20.0 W/m 2 /μm/sr in 443 nm. It is suggest that the existence of Asian dust occurs to dervie negative water-leaving radiance.

Published

2003

6. An intercomparison of lidar-derived aerosol optical properties with airborne measurements near Tokyo during ACE-Asia

Author

John M. Livingston, Philip B. Russell, Barry J. Huebert, Masanori Yabuki, K. Maxwell-Meier, Antony D. Clarke, Makoto Abo, Nobuo Sugimoto, D. Orsini, Donald C. Thornton, Theodore L. Anderson, Cameron S. McNaughton, Rodney J. Weber, Alan R. Bandy, Sarah J. Masonis, Beat Schmid, Toshiyuki Murayama, Byron Blomquist, Jens Redemann, Shunsuke Fukagawa, Steven G. Howell, Hiroaki Kuze, and Atsushi Shimizu

Subjects

Atmospheric Science, Ecology, Nephelometer, Meteorology, Asian Dust, Planetary boundary layer, Paleontology, Soil Science, Forestry, Aquatic Science, Oceanography, Atmospheric sciences, Aerosol, Troposphere, Sun photometer, Geophysics, Lidar, Space and Planetary Science, Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous), Mixing ratio, Environmental science, Earth-Surface Processes, Water Science and Technology

Abstract

[1] During the ACE-Asia intensive observation period (IOP), an intercomparison experiment with ground-based lidars and aircraft observations was conducted near Tokyo. On 23 April 2001, four Mie backscatter lidars were simultaneously operated in the Tokyo region, while the National Center for Atmospheric Research C-130 aircraft flew a steppedascent profile between the surface and 6 km over Sagami Bay southwest of Tokyo. The C-130 observation package included a tracking Sun photometer and in situ packages measuring aerosol optical properties, aerosol size distribution, aerosol ionic composition, and SO2 concentration. The three polarization lidars suggested that the observed modest concentrations of Asian dust in the free troposphere extended up to an altitude of 8 km. We found a good agreement in the backscattering coefficient at 532 nm among lidars and in situ 180� backscatter nephelometer observations. The intercomparison indicated that the aerosol layer between 1.6 and 3.5 km was a remarkably stable and homogenous in mesoscale. We also found reasonable agreement between the aerosol extinction coefficients (sa � 0.03 km � 1 ) derived from the airborne tracking Sun photometer, in situ optical instruments, and those estimated from the lidars above the planetary boundary layer (PBL). We also found considerable vertical variation of the aerosol depolarization ratio (da) and a negative correlation between da and the backscattering coefficient (da) below 3.5 km. Airborne measurements of size-dependent optical parameters (e.g., the fine mode fraction of scattering) and of aerosol ionic compositions suggests that the mixing ratio of the accumulation-mode and coarse-mode (dust) aerosols was primarily responsible for the observed variation of da. Aerosol observations during the intercomparison period captured the following three types of layers in the atmosphere: a PBL (surface to 1.2–1.5 km) where fine (mainly sulfate) particles with a low da (

Published

2003

7. Correction to 'An intercomparison of lidar-derived aerosol optical properties with airborne measurements near Tokyo during ACE-Asia'

Author

Barry J. Huebert, Philip B. Russell, Theodore L. Anderson, Alan R. Bandy, Cameron S. McNaughton, John M. Livingston, Donald C. Thornton, Steven G. Howell, Sarah J. Masonis, Hiroaki Kuze, Rodney J. Weber, Beat Schmid, Jens Redemann, Toshiyuki Murayama, Antony D. Clarke, Makoto Abo, Byron Blomquist, Nobuo Sugimoto, D. Orsini, Masanori Yabuki, K. Maxwell-Meier, Atsushi Shimizu, and Shunsuke Fukagawa

Subjects

Atmospheric Science, Ecology, Meteorology, Asian Dust, Paleontology, Soil Science, Forestry, Aquatic Science, Oceanography, Aerosol, Geophysics, Lidar, Space and Planetary Science, Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous), Environmental science, Earth-Surface Processes, Water Science and Technology, Remote sensing

Published

2003

8. Formation of ice cloud from Asian dust particles in the upper troposphere

Author

Toshiyuki Murayama

Subjects

Troposphere, Ice cloud, Lidar, Geography, Asian Dust, law, Radiosonde, Ice nucleus, Cirrus, Atmospheric sciences, Water vapor, law.invention

Abstract

We sometimes observed ice clouds (cirrus) that coexisted with an Asian-dust layer in the upper troposphere by a polarization lidar during Asian dust events over Tokyo, Japan in the springs of 1998 to 2000. Here we present such lidar observations during spring 2000. We discussed qualitatively a mechanism of the formation of the cirrus clouds combined with imageries of Geostationally Meteorological Satellite 5 (GMS-5) and the nearest radiosonde data. The water-vapor channel imagery indicates that the cirms was formed or enhanced over a high mountain area in the middle of Japan. The cirrus that we observed over Tokyo was a part of the cirrus flowed by the westerly wind. Asian dust particle seems to act as ice nuclei in the upper troposphere if the air mass merged with a humid air mass during the transportation.

Published

2001

9. Extinction-to-backscatter ratio of Asian dust observed with high-spectral-resolution lidar and Raman lidar

Author

Zhaoyan Liu, Nobuo Sugimoto, and Toshiyuki Murayama

Subjects

Physics, Backscatter, business.industry, Scattering, Asian Dust, Materials Science (miscellaneous), Mie scattering, Industrial and Manufacturing Engineering, symbols.namesake, Optics, Lidar, Extinction (optical mineralogy), symbols, Business and International Management, Rayleigh scattering, business, Physics::Atmospheric and Oceanic Physics, Atmospheric optics

Abstract

Extinction-to-backscatter ratio or lidar ratio is a key parameter in the issue of backscatter-lidar inversions. The lidar ratio of Asian dust was observed with a high-spectral-resolution lidar and a combined Raman elastic-backscatter lidar during the springs of 1998 and 1999. The measured values range from 42 to55 sr in most cases, with a mean of 51 sr. These values are significantly larger than those predicted by the Mie computations that incorporate measured Asian dust size distributions and a range of refractive index with a typical value of 1.55-0.005i. The enhancement of lidar ratio is mostly due to the nonsphericity of dust particles, as indicated by the T-matrix calculations for spheroid particles and a number of other theoretical studies. In addition, possible contamination of urban aerosols may also contribute somewhat in optically thin cases. Mie theory, although it can well describe spherical particle scattering, will not be sufficient to represent the scattering characteristics of irregular particles such as Asian dust, especially in directions larger than approximately 90 degrees when the size parameter is large.

Published

2002

10. Asian dust events of April 1998

Author

Charles R. McClain, Franck Vignola, Brent N. Holben, William C. Malm, Santiago Gassó, Slobodan Nickovic, Rudolf B. Husar, Christian A. Gueymard, Kenneth Sassen, Toshiyuki Murayama, F. Li, Douglas L. Westphal, Daniel A. Jaffe, Robert Frouin, Norman Kuring, John T. Merrill, Gene C. Feldman, Stefan Falke, Bret A. Schichtel, David M. Tratt, Nels S. Laulainen, Y. Chun, Ian G. McKendry, William E. Wilson, Marith C. Reheis, Nobuo Sugimoto, F. Lu, David Dubois, and Thomas E. Gill

Subjects

Atmospheric Science, Ecology, Meteorology, Asian Dust, Paleontology, Soil Science, Forestry, Storm, Aquatic Science, Albedo, Oceanography, Atmospheric sciences, Aerosol, Geophysics, SeaWiFS, Space and Planetary Science, Geochemistry and Petrology, Dust storm, Earth and Planetary Sciences (miscellaneous), Environmental science, Air quality index, Optical depth, Earth-Surface Processes, Water Science and Technology

Abstract

On April 15 and 19, 1998, two intense dust storms were generated over the Gobi desert by springtime low-pressure systems descending from the northwest. The windblown dust was detected and its evolution followed by its yellow color on SeaWiFS satellite images, routine surface-based monitoring, and through serendipitous observations. The April 15 dust cloud was recirculating, and it was removed by a precipitating weather system over east Asia. The April 19 dust cloud crossed the Pacific Ocean in 5 days, subsided to the surface along the mountain ranges between British Columbia and California, and impacted severely the optical and the concentration environments of the region. In east Asia the dust clouds increased the albedo over the cloudless ocean and land by up to 10–20%, but it reduced the near-UV cloud reflectance, causing a yellow coloration of all surfaces. The yellow colored backscattering by the dust eludes a plausible explanation using simple Mie theory with constant refractive index. Over the West Coast the dust layer has increased the spectrally uniform optical depth to about 0.4, reduced the direct solar radiation by 30–40%, doubled the diffuse radiation, and caused a whitish discoloration of the blue sky. On April 29 the average excess surface-level dust aerosol concentration over the valleys of the West Coast was about 20–50 μg/m3 with local peaks >100 μg/m3. The dust mass mean diameter was 2–3 μm, and the dust chemical fingerprints were evident throughout the West Coast and extended to Minnesota. The April 1998 dust event has impacted the surface aerosol concentration 2–4 times more than any other dust event since 1988. The dust events were observed and interpreted by an ad hoc international web-based virtual community. It would be useful to set up a community-supported web-based infrastructure to monitor the global aerosol pattern for such extreme aerosol events, to alert and to inform the interested communities, and to facilitate collaborative analysis for improved air quality and disaster management.

11. Ground-based network observation of Asian dust events of April 1998 in east Asia

Author

Jun Zhou, Yasunobu Iwasaka, Itsushi Uno, Byung-Ju Sohn, Toshiyuki Murayama, Ichiro Matsui, Naseru Hagiwara, Jae Gwang Won, Soon-Chang Yoon, Kengo Iokibe, Nobuo Sugimoto, Kisei Kinoshita, Tetsu Sakai, Zhaoyan Liu, Huanling Hu, Takashi Shibata, Kazuma Aoki, Kimio Arao, Tao Li, Makoto Abo, and Ryuji Koga

Subjects

Atmospheric Science, Radiometer, Ecology, Meteorology, Asian Dust, media_common.quotation_subject, Paleontology, Soil Science, Forestry, Aquatic Science, Oceanography, Vortex, Troposphere, Geophysics, Lidar, Space and Planetary Science, Geochemistry and Petrology, Sky, Earth and Planetary Sciences (miscellaneous), Environmental science, East Asia, Cirrus, Earth-Surface Processes, Water Science and Technology, media_common

Abstract

We coordinated a ground-based network that has been in use since 1997 to observe Asian dust during springtime. Huge Asian dust events that occurred in the middle of April 1998 were captured by this network. In this paper we present the organization of the network; a description of the instruments, including the lidar, sky radiometer, and optical particle counter; and the results of the observation, and offer discussions regarding the transport mechanism of Asian dust in east Asia using an on-line tracer model. We discussed the time series of the surface concentration and the height distribution of the dust. A cutoff cyclone generated during the dust episode was responsible for trapping and sedimentation during the transportation of the Asian dust, particularly in the southern parts of China and Japan. Horizontal dust images derived from NOAA/AVHRR clearly revealed the structure of the vortex. The lidar network observation confirmed the general pattern of dust height distribution in this event; the height of the major dust layer was about 3 km over Japan but was higher (4 to 5 km) in Seoul and Hefei. A thin dust layer in the upper troposphere was also commonly observed in Hefei and Japan. Evidence of the coexistence of dust and cirrus was shown by the polarization lidar. The lidar network observation of Asian dust and satellite remote sensing provide key information for the study of the transport mechanism of Asian dust. Further extension of the lidar network toward the interior of the continent and the Pacific Rim would reveal the greater global mechanism of the transportation.

12. Lidar network observation of Asian dust (Kosa) in Japan

Author

Nobuo Sugimoto, Toshiyuki Murayama, Naoki Kaneyasu, Kimio Arao, Makoto Abo, Naseru Hagiwara, Kazuma Aoki, Kazuhiro Asai, Yasunori Saito, Ichiro Matsui, Kengo Iokibe, Tetsu Sakai, Yasuhiro Kubota, Hiroaki Kuze, Ryuji Koga, and Rouichi Imasu

Subjects

Troposphere, Lidar, Geography, Meteorology, Asian Dust, Satellite, Atmospheric dust, Particle counter, Atmospheric optics, Aerosol

Abstract

We have organized a network campaign for the observation of Asian dust in the spring of 1997 and 1998 in Japan. Through the communication with electric mail, we have successfully observed Kosa events by lidar, sunphotometer, and particle counter, etc. These data must be useful to analyze the transport mechanism of Asian dust and validate the satellite observations.