Venus looks different from day to night across wavelengths: morphology from Akatsuki multispectral images

Sanjay S. Limaye; Shigeto Watanabe; Atsushi Yamazaki; Manabu Yamada; Takehiko Satoh; Takao M. Sato; Masato Nakamura; Makoto Taguchi; Tetsuya Fukuhara; Takeshi Imamura; Toru Kouyama; Yeon Joo Lee; Takeshi Horinouchi; Javier Peralta; Naomoto Iwagami; George L. Hashimoto; Seiko Takagi; Shoko Ohtsuki; Shin ya Murakami; Yukio Yamamoto; Kazunori Ogohara; Hiroki Ando; Ko ichiro Sugiyama; Nobuaki Ishii; Takumi Abe; Chikako Hirose; Makoto Suzuki; Naru Hirata; Eliot F. Young; Adriana C. Ocampo

doi:10.1186/s40623-018-0789-5

Venus looks different from day to night across wavelengths: morphology from Akatsuki multispectral images

Sanjay S. Limaye, Shigeto Watanabe, Atsushi Yamazaki, Manabu Yamada, Takehiko Satoh, Takao M. Sato, Masato Nakamura, Makoto Taguchi, Tetsuya Fukuhara, Takeshi Imamura, Toru Kouyama, Yeon Joo Lee, Takeshi Horinouchi, Javier Peralta, Naomoto Iwagami, George L. Hashimoto, Seiko Takagi, Shoko Ohtsuki, Shin ya Murakami, Yukio YamamotoKazunori Ogohara, Hiroki Ando, Ko ichiro Sugiyama, Nobuaki Ishii, Takumi Abe, Chikako Hirose, Makoto Suzuki, Naru Hirata, Eliot F. Young, Adriana C. Ocampo

School of Science

Research output: Contribution to journal › Article › peer-review

32 Citations (Scopus)

Abstract

Since insertion into orbit on December 7, 2015, the Akatsuki orbiter has returned global images of Venus from its four imaging cameras at eleven discrete wavelengths from ultraviolet (283 and 365 nm) and near infrared (0.9–2.3 µm), to the thermal infrared (8–12 µm) from a near-equatorial orbit. The Venus Express and Pioneer Venus Orbiter missions have also monitored the planet for long periods but from polar or near-polar orbits. The wavelength coverage and views of the planet also differ for all three missions. In reflected light, the images reveal features seen near the cloud tops (~ 70 km altitude), whereas in the near-infrared images of the nightside, features seen are at mid- to lower cloud levels (~ 48–60 km altitude). The dayside cloud cover imaged at the ultraviolet wavelengths shows morphologies similar to what was observed from Mariner 10, Pioneer Venus, Galileo, Venus Express and MESSENGER. The daytime images at 0.9 and 2.02 µm also reveal some interesting features which bear similarity to the ultraviolet images. The nighttime images at 1.74, 2.26 and 2.32 µm and at 8–12 µm reveal features not seen before and show new details of the nightside including narrow wavy ribbons, curved string-like features, long-scale waves, long dark streaks, isolated bright spots, sharp boundaries and even mesoscale vortices. Some features previously seen such as circum-equatorial belts (CEBs) and occasional areal brightenings at ultraviolet (seen in Venus Express observations) of the cloud cover at ultraviolet wavelengths have not been observed thus far. Evidence for the hemispheric vortex organization of the global circulation can be seen at all wavelengths on the day- and nightsides. Akatsuki images reveal new and puzzling morphology of the complex nightside cloud cover. The cloud morphologies provide some clues to the processes occurring in the atmosphere and are thus, a key diagnostic tool when quantitative dynamical analysis is not feasible due to insufficient information.[Figure not available: see fulltext.].

Original language	English
Article number	24
Journal	Earth, Planets and Space
Volume	70
Issue number	1
DOIs	https://doi.org/10.1186/s40623-018-0789-5
Publication status	Published - Dec 1 2018

Keywords

Day
Morphology
Near infrared
Night
Ultraviolet
Venus clouds

ASJC Scopus subject areas

Geology
Space and Planetary Science

Access to Document

10.1186/s40623-018-0789-5

Cite this

Limaye, S. S., Watanabe, S., Yamazaki, A., Yamada, M., Satoh, T., Sato, T. M., Nakamura, M., Taguchi, M., Fukuhara, T., Imamura, T., Kouyama, T., Lee, Y. J., Horinouchi, T., Peralta, J., Iwagami, N., Hashimoto, G. L., Takagi, S., Ohtsuki, S., Murakami, S. Y., ... Ocampo, A. C. (2018). Venus looks different from day to night across wavelengths: morphology from Akatsuki multispectral images. Earth, Planets and Space, 70(1), Article 24. https://doi.org/10.1186/s40623-018-0789-5

Limaye, SS, Watanabe, S, Yamazaki, A, Yamada, M, Satoh, T, Sato, TM, Nakamura, M, Taguchi, M, Fukuhara, T, Imamura, T, Kouyama, T, Lee, YJ, Horinouchi, T, Peralta, J, Iwagami, N, Hashimoto, GL, Takagi, S, Ohtsuki, S, Murakami, SY, Yamamoto, Y, Ogohara, K, Ando, H, Sugiyama, KI, Ishii, N, Abe, T, Hirose, C, Suzuki, M, Hirata, N, Young, EF & Ocampo, AC 2018, 'Venus looks different from day to night across wavelengths: morphology from Akatsuki multispectral images', Earth, Planets and Space, vol. 70, no. 1, 24. https://doi.org/10.1186/s40623-018-0789-5

@article{5e892a551586410e969614950023cb72,

title = "Venus looks different from day to night across wavelengths: morphology from Akatsuki multispectral images",

abstract = "Since insertion into orbit on December 7, 2015, the Akatsuki orbiter has returned global images of Venus from its four imaging cameras at eleven discrete wavelengths from ultraviolet (283 and 365 nm) and near infrared (0.9–2.3 µm), to the thermal infrared (8–12 µm) from a near-equatorial orbit. The Venus Express and Pioneer Venus Orbiter missions have also monitored the planet for long periods but from polar or near-polar orbits. The wavelength coverage and views of the planet also differ for all three missions. In reflected light, the images reveal features seen near the cloud tops (~ 70 km altitude), whereas in the near-infrared images of the nightside, features seen are at mid- to lower cloud levels (~ 48–60 km altitude). The dayside cloud cover imaged at the ultraviolet wavelengths shows morphologies similar to what was observed from Mariner 10, Pioneer Venus, Galileo, Venus Express and MESSENGER. The daytime images at 0.9 and 2.02 µm also reveal some interesting features which bear similarity to the ultraviolet images. The nighttime images at 1.74, 2.26 and 2.32 µm and at 8–12 µm reveal features not seen before and show new details of the nightside including narrow wavy ribbons, curved string-like features, long-scale waves, long dark streaks, isolated bright spots, sharp boundaries and even mesoscale vortices. Some features previously seen such as circum-equatorial belts (CEBs) and occasional areal brightenings at ultraviolet (seen in Venus Express observations) of the cloud cover at ultraviolet wavelengths have not been observed thus far. Evidence for the hemispheric vortex organization of the global circulation can be seen at all wavelengths on the day- and nightsides. Akatsuki images reveal new and puzzling morphology of the complex nightside cloud cover. The cloud morphologies provide some clues to the processes occurring in the atmosphere and are thus, a key diagnostic tool when quantitative dynamical analysis is not feasible due to insufficient information.[Figure not available: see fulltext.].",

keywords = "Day, Morphology, Near infrared, Night, Ultraviolet, Venus clouds",

author = "Limaye, {Sanjay S.} and Shigeto Watanabe and Atsushi Yamazaki and Manabu Yamada and Takehiko Satoh and Sato, {Takao M.} and Masato Nakamura and Makoto Taguchi and Tetsuya Fukuhara and Takeshi Imamura and Toru Kouyama and Lee, {Yeon Joo} and Takeshi Horinouchi and Javier Peralta and Naomoto Iwagami and Hashimoto, {George L.} and Seiko Takagi and Shoko Ohtsuki and Murakami, {Shin ya} and Yukio Yamamoto and Kazunori Ogohara and Hiroki Ando and Sugiyama, {Ko ichiro} and Nobuaki Ishii and Takumi Abe and Chikako Hirose and Makoto Suzuki and Naru Hirata and Young, {Eliot F.} and Ocampo, {Adriana C.}",

note = "Funding Information: Drs. SW, AY, TS, NI, MT and TF have been responsible for camera development, calibration and observations, while Prof. Nakamura has been shepherding the Akatsuki mission and operations. Dr. TMS, MY, MS, NH, KS and HA have been involved in instrument calibration and spacecraft operations. Dr. TA has guided the technical aspects of Akatsuki Project. Prof. MY contributed to Venus atmospheric dynamics. Dr. YY, SO, KS, MS, NH and ST have been involved in instrument calibration and operations. Drs. YJL and JP contributed to the interpretation of the data and further image processing for some of the figures. Dr. SM has been responsible for pipeline data processing operations. Drs. Nishii and CH have been leading spacecraft operations and trajectory. Dr. GLH and SM are overseeing systematic data processing. Dr. EFY has been collecting Venus nightside imaging data from IRTF in support of Akatsuki mission. Dr. ACO has played a key role in the NASA-ISAS/JAXA collaboration for Akatsuki mission and overseeing the Participating Scientist Program. All authors read and approved the final manuscript. We thank Mr. Patrick Fry (processing the MESSENGER images), Ms. Rosalyn Pertzborn (editing) and Mr. Robert J. Krauss (software support), all of whom are at Space Science and Engineering Center, UW-Madison. Critical comments from Drs. Colin Wilson and Dmitry Titov were valuable in improving this paper. There are no financial and non-financial competing interests. Prior to the Akatsuki mission, SSL has been studying Venus with data from Mariner 10, Pioneer Venus and Venus Express missions. Drs. Satoh and Iwagami have been studying Venus with ground-based observations as well as spacecraft for a long time. Drs. Lee and Peralta have experience with Venus Express as well as ground-based Venus observations. Other co-authors have been responsible for instrument calibration, observation planning, ground processing and spacecraft operations. Akatsuki data are being posted at http://darts.isas.jaxa.jp/planet/project/akatsuki/. They are also being submitted to the NASA Planetary Data System. Not applicable. SS. Limaye is funded by NASA Grant NNX16AC79G (Participating Scientist in Residence) for Akatsuki mission. Drs. Nakamura, Imamura and Horinouchi are funded by JSPS KAKENHI Grant Number JP16H02231. T. Satoh was supported by JSPS KAKENHI Grant Number 16H05738. J. Peralta acknowledges support from JAXA{\textquoteright}s International Top Young Fellowship. Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations. Funding Information: SS. Limaye is funded by NASA Grant NNX16AC79G (Participating Scientist in Residence) for Akatsuki mission. Drs. Nakamura, Imamura and Horinouchi are funded by JSPS KAKENHI Grant Number JP16H02231. T. Satoh was supported by JSPS KAKENHI Grant Number 16H05738. J. Peralta acknowledges support from JAXA{\textquoteright}s International Top Young Fellowship. Publisher Copyright: {\textcopyright} 2018, The Author(s).",

year = "2018",

month = dec,

day = "1",

doi = "10.1186/s40623-018-0789-5",

language = "English",

volume = "70",

journal = "Earth, Planets and Space",

issn = "1343-8832",

publisher = "Terra Scientific Publishing Company",

number = "1",

}

TY - JOUR

T1 - Venus looks different from day to night across wavelengths

T2 - morphology from Akatsuki multispectral images

AU - Limaye, Sanjay S.

AU - Watanabe, Shigeto

AU - Yamazaki, Atsushi

AU - Yamada, Manabu

AU - Satoh, Takehiko

AU - Sato, Takao M.

AU - Nakamura, Masato

AU - Taguchi, Makoto

AU - Fukuhara, Tetsuya

AU - Imamura, Takeshi

AU - Kouyama, Toru

AU - Lee, Yeon Joo

AU - Horinouchi, Takeshi

AU - Peralta, Javier

AU - Iwagami, Naomoto

AU - Hashimoto, George L.

AU - Takagi, Seiko

AU - Ohtsuki, Shoko

AU - Murakami, Shin ya

AU - Yamamoto, Yukio

AU - Ogohara, Kazunori

AU - Ando, Hiroki

AU - Sugiyama, Ko ichiro

AU - Ishii, Nobuaki

AU - Abe, Takumi

AU - Hirose, Chikako

AU - Suzuki, Makoto

AU - Hirata, Naru

AU - Young, Eliot F.

AU - Ocampo, Adriana C.

N1 - Funding Information: Drs. SW, AY, TS, NI, MT and TF have been responsible for camera development, calibration and observations, while Prof. Nakamura has been shepherding the Akatsuki mission and operations. Dr. TMS, MY, MS, NH, KS and HA have been involved in instrument calibration and spacecraft operations. Dr. TA has guided the technical aspects of Akatsuki Project. Prof. MY contributed to Venus atmospheric dynamics. Dr. YY, SO, KS, MS, NH and ST have been involved in instrument calibration and operations. Drs. YJL and JP contributed to the interpretation of the data and further image processing for some of the figures. Dr. SM has been responsible for pipeline data processing operations. Drs. Nishii and CH have been leading spacecraft operations and trajectory. Dr. GLH and SM are overseeing systematic data processing. Dr. EFY has been collecting Venus nightside imaging data from IRTF in support of Akatsuki mission. Dr. ACO has played a key role in the NASA-ISAS/JAXA collaboration for Akatsuki mission and overseeing the Participating Scientist Program. All authors read and approved the final manuscript. We thank Mr. Patrick Fry (processing the MESSENGER images), Ms. Rosalyn Pertzborn (editing) and Mr. Robert J. Krauss (software support), all of whom are at Space Science and Engineering Center, UW-Madison. Critical comments from Drs. Colin Wilson and Dmitry Titov were valuable in improving this paper. There are no financial and non-financial competing interests. Prior to the Akatsuki mission, SSL has been studying Venus with data from Mariner 10, Pioneer Venus and Venus Express missions. Drs. Satoh and Iwagami have been studying Venus with ground-based observations as well as spacecraft for a long time. Drs. Lee and Peralta have experience with Venus Express as well as ground-based Venus observations. Other co-authors have been responsible for instrument calibration, observation planning, ground processing and spacecraft operations. Akatsuki data are being posted at http://darts.isas.jaxa.jp/planet/project/akatsuki/. They are also being submitted to the NASA Planetary Data System. Not applicable. SS. Limaye is funded by NASA Grant NNX16AC79G (Participating Scientist in Residence) for Akatsuki mission. Drs. Nakamura, Imamura and Horinouchi are funded by JSPS KAKENHI Grant Number JP16H02231. T. Satoh was supported by JSPS KAKENHI Grant Number 16H05738. J. Peralta acknowledges support from JAXA’s International Top Young Fellowship. Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations. Funding Information: SS. Limaye is funded by NASA Grant NNX16AC79G (Participating Scientist in Residence) for Akatsuki mission. Drs. Nakamura, Imamura and Horinouchi are funded by JSPS KAKENHI Grant Number JP16H02231. T. Satoh was supported by JSPS KAKENHI Grant Number 16H05738. J. Peralta acknowledges support from JAXA’s International Top Young Fellowship. Publisher Copyright: © 2018, The Author(s).

PY - 2018/12/1

Y1 - 2018/12/1

N2 - Since insertion into orbit on December 7, 2015, the Akatsuki orbiter has returned global images of Venus from its four imaging cameras at eleven discrete wavelengths from ultraviolet (283 and 365 nm) and near infrared (0.9–2.3 µm), to the thermal infrared (8–12 µm) from a near-equatorial orbit. The Venus Express and Pioneer Venus Orbiter missions have also monitored the planet for long periods but from polar or near-polar orbits. The wavelength coverage and views of the planet also differ for all three missions. In reflected light, the images reveal features seen near the cloud tops (~ 70 km altitude), whereas in the near-infrared images of the nightside, features seen are at mid- to lower cloud levels (~ 48–60 km altitude). The dayside cloud cover imaged at the ultraviolet wavelengths shows morphologies similar to what was observed from Mariner 10, Pioneer Venus, Galileo, Venus Express and MESSENGER. The daytime images at 0.9 and 2.02 µm also reveal some interesting features which bear similarity to the ultraviolet images. The nighttime images at 1.74, 2.26 and 2.32 µm and at 8–12 µm reveal features not seen before and show new details of the nightside including narrow wavy ribbons, curved string-like features, long-scale waves, long dark streaks, isolated bright spots, sharp boundaries and even mesoscale vortices. Some features previously seen such as circum-equatorial belts (CEBs) and occasional areal brightenings at ultraviolet (seen in Venus Express observations) of the cloud cover at ultraviolet wavelengths have not been observed thus far. Evidence for the hemispheric vortex organization of the global circulation can be seen at all wavelengths on the day- and nightsides. Akatsuki images reveal new and puzzling morphology of the complex nightside cloud cover. The cloud morphologies provide some clues to the processes occurring in the atmosphere and are thus, a key diagnostic tool when quantitative dynamical analysis is not feasible due to insufficient information.[Figure not available: see fulltext.].

AB - Since insertion into orbit on December 7, 2015, the Akatsuki orbiter has returned global images of Venus from its four imaging cameras at eleven discrete wavelengths from ultraviolet (283 and 365 nm) and near infrared (0.9–2.3 µm), to the thermal infrared (8–12 µm) from a near-equatorial orbit. The Venus Express and Pioneer Venus Orbiter missions have also monitored the planet for long periods but from polar or near-polar orbits. The wavelength coverage and views of the planet also differ for all three missions. In reflected light, the images reveal features seen near the cloud tops (~ 70 km altitude), whereas in the near-infrared images of the nightside, features seen are at mid- to lower cloud levels (~ 48–60 km altitude). The dayside cloud cover imaged at the ultraviolet wavelengths shows morphologies similar to what was observed from Mariner 10, Pioneer Venus, Galileo, Venus Express and MESSENGER. The daytime images at 0.9 and 2.02 µm also reveal some interesting features which bear similarity to the ultraviolet images. The nighttime images at 1.74, 2.26 and 2.32 µm and at 8–12 µm reveal features not seen before and show new details of the nightside including narrow wavy ribbons, curved string-like features, long-scale waves, long dark streaks, isolated bright spots, sharp boundaries and even mesoscale vortices. Some features previously seen such as circum-equatorial belts (CEBs) and occasional areal brightenings at ultraviolet (seen in Venus Express observations) of the cloud cover at ultraviolet wavelengths have not been observed thus far. Evidence for the hemispheric vortex organization of the global circulation can be seen at all wavelengths on the day- and nightsides. Akatsuki images reveal new and puzzling morphology of the complex nightside cloud cover. The cloud morphologies provide some clues to the processes occurring in the atmosphere and are thus, a key diagnostic tool when quantitative dynamical analysis is not feasible due to insufficient information.[Figure not available: see fulltext.].

KW - Day

KW - Morphology

KW - Near infrared

KW - Night

KW - Ultraviolet

KW - Venus clouds

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Venus looks different from day to night across wavelengths: morphology from Akatsuki multispectral images

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