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  •  Webb Study Reveals Rocky Planets Can Form In Extreme Environments
    2009年11月09日
    Webb Study Reveals Rocky Planets Can Form In Extreme Environments

    November 20, 2023 - Deep Space - Artists impression of a baby star still surrounded by a protoplanetary disc in which planets are forming. Using ESOs very successful HARPS spectrograph, a team of astronomers has found that Sun-like stars which host planets have destroyed their lithium much more efficiently than planet-free stars. This finding does not only shed light on the low levels of this chemical element in the Sun, solving a long-standing mystery, but also provides astronomers with a very efficient way to pick out the stars most likely to host planets. It is not clear what causes the lithium to be destroyed. The general idea is that the planets or the presence of the protoplanetary disc disturb the interior of the star, bringing the lithium deeper down into the star than usual, into regions where the temperature is so hot that it is destroyed...、クレジット:©NASAE/ESA/STSci/ZUMA Press Wire/共同通信イメージズ

    商品コード: 2024021006248

  •  Tardigrade or Water Bear
    2012年11月02日
    Tardigrade or Water Bear

    Water bear or tardigrade. Scanning electron micrograph (SEM) of a water bear (Echiniscus sp., ) walking over spagnum moss. Water bears live in damp habitats such as moss or lichen and are tiny segmented invertebrates. They can survive dry conditions by changing into a dessicated state in which they can remain for many years. Whilst in this form (known as a tun) they can withstand the most extreme environments and can tolerate radiation levels as high as x1000 more than other animals, including humans. They have even been brought back alive after spending 10 days in the vacuum of space! They are classed as extremeophiles. Magnification x1120 (x275 at 10cm wide).、クレジット:SCIENCE PHOTO LIBRARY/共同通信イメージズ

    商品コード: 2022080208309

  •  新型の地球物理総合科学調査船「実験6号」が進水広州市
    2020年07月18日
    新型の地球物理総合科学調査船「実験6号」が進水広州市

    18日、新型の地球物理総合科学調査船「実験6号」。中国の新型地球物理総合科学調査船「実験6号」が18日、広東省広州市で進水した。稼働は来年を予定しており、海洋科学や深海・大洋の極限環境での研究に先進的な海上移動実験室や測定機器の試験プラットフォームを提供する。(広州=新華社配信)=2020(令和2)年7月18日、クレジット:新華社/共同通信イメージズ

    商品コード: 2020072801014

  •  新型の地球物理総合科学調査船「実験6号」が進水広州市
    2020年07月18日
    新型の地球物理総合科学調査船「実験6号」が進水広州市

    18日、ドックに停泊する新型の地球物理総合科学調査船「実験6号」。中国の新型地球物理総合科学調査船「実験6号」が18日、広東省広州市で進水した。稼働は来年を予定しており、海洋科学や深海・大洋の極限環境での研究に先進的な海上移動実験室や測定機器の試験プラットフォームを提供する。(広州=新華社記者/荊淮僑)=2020(令和2)年7月18日、クレジット:新華社/共同通信イメージズ

    商品コード: 2020072801022

  •  新型の地球物理総合科学調査船「実験6号」が進水広州市
    2020年07月18日
    新型の地球物理総合科学調査船「実験6号」が進水広州市

    18日、新型の地球物理総合科学調査船「実験6号」。中国の新型地球物理総合科学調査船「実験6号」が18日、広東省広州市で進水した。稼働は来年を予定しており、海洋科学や深海・大洋の極限環境での研究に先進的な海上移動実験室や測定機器の試験プラットフォームを提供する。(広州=新華社配信)=2020(令和2)年7月18日、クレジット:新華社/共同通信イメージズ

    商品コード: 2020072801019

  •  CHINA-QINGHAI-TIBET PLATEAU-NEW SCIENTIFIC EXPEDITION (CN)
    2022年05月02日
    CHINA-QINGHAI-TIBET PLATEAU-NEW SCIENTIFIC EXPEDITION (CN)

    (220502) -- XIGAZE, May 2, 2022 (Xinhua) -- Workers transport supplies for a scientific expedition at the Mount Qomolangma base camp, May 1, 2022. China has started a new comprehensive scientific expedition on Mount Qomolangma, the world‘s highest peak on the China-Nepal border. The expedition focuses on major scientific issues such as westerly wind-monsoon synergy, Asian water-tower change, ecosystems and biodiversity, and human activities in the Mount Qomolangma area. The expedition team will also conduct studies on environmental changes, changes in greenhouse gas concentration, ecosystem carbon sink functions, and human adaptation to extreme environments in extremely high altitude areas of the Mount Qomolangma against the backdrop of global warming, according to the research team. (Xinhua/Jiang Fan)= 配信日: 2022(令和4)年5月2日、クレジット:新華社/共同通信イメージズ

    商品コード: 2022050210134

  •  CHINA-QINGHAI-TIBET PLATEAU-NEW SCIENTIFIC EXPEDITION (CN)
    2022年05月02日
    CHINA-QINGHAI-TIBET PLATEAU-NEW SCIENTIFIC EXPEDITION (CN)

    (220502) -- XIGAZE, May 2, 2022 (Xinhua) -- Aerial photo taken on May 1, 2022 shows a view of the Mount Qomolangma base camp. China has started a new comprehensive scientific expedition on Mount Qomolangma, the world‘s highest peak on the China-Nepal border. The expedition focuses on major scientific issues such as westerly wind-monsoon synergy, Asian water-tower change, ecosystems and biodiversity, and human activities in the Mount Qomolangma area. The expedition team will also conduct studies on environmental changes, changes in greenhouse gas concentration, ecosystem carbon sink functions, and human adaptation to extreme environments in extremely high altitude areas of the Mount Qomolangma against the backdrop of global warming, according to the research team. (Xinhua/Sun Fei)= 配信日: 2022(令和4)年5月2日、クレジット:新華社/共同通信イメージズ

    商品コード: 2022050210137

  •  CHINA-QINGHAI-TIBET PLATEAU-NEW SCIENTIFIC EXPEDITION (CN)
    2022年05月02日
    CHINA-QINGHAI-TIBET PLATEAU-NEW SCIENTIFIC EXPEDITION (CN)

    (220502) -- XIGAZE, May 2, 2022 (Xinhua) -- Kang Shichang (1st L), leader of a scientific research team, inspires his team members before a scientific expedition at the Mount Qomolangma base camp, May 1, 2022. China has started a new comprehensive scientific expedition on Mount Qomolangma, the world‘s highest peak on the China-Nepal border. The expedition focuses on major scientific issues such as westerly wind-monsoon synergy, Asian water-tower change, ecosystems and biodiversity, and human activities in the Mount Qomolangma area. The expedition team will also conduct studies on environmental changes, changes in greenhouse gas concentration, ecosystem carbon sink functions, and human adaptation to extreme environments in extremely high altitude areas of the Mount Qomolangma against the backdrop of global warming, according to the research team. (Xinhua/Jiang Fan)= 配信日: 2022(令和4)年5月2日、クレジット:新華社/共同通信イメージズ

    商品コード: 2022050210139

  •  CHINA-QINGHAI-TIBET PLATEAU-NEW SCIENTIFIC EXPEDITION (CN)
    2022年05月02日
    CHINA-QINGHAI-TIBET PLATEAU-NEW SCIENTIFIC EXPEDITION (CN)

    (220502) -- XIGAZE, May 2, 2022 (Xinhua) -- Kang Shichang, leader of a scientific research team, checks supplies before a scientific expedition at the Mount Qomolangma base camp, May 1, 2022. China has started a new comprehensive scientific expedition on Mount Qomolangma, the world‘s highest peak on the China-Nepal border. The expedition focuses on major scientific issues such as westerly wind-monsoon synergy, Asian water-tower change, ecosystems and biodiversity, and human activities in the Mount Qomolangma area. The expedition team will also conduct studies on environmental changes, changes in greenhouse gas concentration, ecosystem carbon sink functions, and human adaptation to extreme environments in extremely high altitude areas of the Mount Qomolangma against the backdrop of global warming, according to the research team. (Xinhua/Jiang Fan)= 配信日: 2022(令和4)年5月2日、クレジット:新華社/共同通信イメージズ

    商品コード: 2022050210135

  •  CHINA-QINGHAI-TIBET PLATEAU-NEW SCIENTIFIC EXPEDITION (CN)
    2022年05月02日
    CHINA-QINGHAI-TIBET PLATEAU-NEW SCIENTIFIC EXPEDITION (CN)

    (220502) -- XIGAZE, May 2, 2022 (Xinhua) -- Aerial photo taken on May 1, 2022 shows members of a scientific research team marching towards East Rongbuk glacier on Mount Qomolangma. China has started a new comprehensive scientific expedition on Mount Qomolangma, the world‘s highest peak on the China-Nepal border. The expedition focuses on major scientific issues such as westerly wind-monsoon synergy, Asian water-tower change, ecosystems and biodiversity, and human activities in the Mount Qomolangma area. The expedition team will also conduct studies on environmental changes, changes in greenhouse gas concentration, ecosystem carbon sink functions, and human adaptation to extreme environments in extremely high altitude areas of the Mount Qomolangma against the backdrop of global warming, according to the research team. (Xinhua/Sun Fei)= 配信日: 2022(令和4)年5月2日、クレジット:新華社/共同通信イメージズ

    商品コード: 2022050210136

  •  CHINA-QINGHAI-TIBET PLATEAU-NEW SCIENTIFIC EXPEDITION (CN)
    2022年05月02日
    CHINA-QINGHAI-TIBET PLATEAU-NEW SCIENTIFIC EXPEDITION (CN)

    (220502) -- XIGAZE, May 2, 2022 (Xinhua) -- Aerial photo taken on May 1, 2022 shows yaks transporting supplies at the Mount Qomolangma base camp. China has started a new comprehensive scientific expedition on Mount Qomolangma, the world‘s highest peak on the China-Nepal border. The expedition focuses on major scientific issues such as westerly wind-monsoon synergy, Asian water-tower change, ecosystems and biodiversity, and human activities in the Mount Qomolangma area. The expedition team will also conduct studies on environmental changes, changes in greenhouse gas concentration, ecosystem carbon sink functions, and human adaptation to extreme environments in extremely high altitude areas of the Mount Qomolangma against the backdrop of global warming, according to the research team. (Xinhua/Li Jian)= 配信日: 2022(令和4)年5月2日、クレジット:新華社/共同通信イメージズ

    商品コード: 2022050210140

  •  CHINA-QINGHAI-TIBET PLATEAU-NEW SCIENTIFIC EXPEDITION (CN)
    2022年05月02日
    CHINA-QINGHAI-TIBET PLATEAU-NEW SCIENTIFIC EXPEDITION (CN)

    (220502) -- XIGAZE, May 2, 2022 (Xinhua) -- Aerial photo taken on May 1, 2022 shows members of a scientific research team marching towards East Rongbuk glacier on Mount Qomolangma. China has started a new comprehensive scientific expedition on Mount Qomolangma, the world‘s highest peak on the China-Nepal border. The expedition focuses on major scientific issues such as westerly wind-monsoon synergy, Asian water-tower change, ecosystems and biodiversity, and human activities in the Mount Qomolangma area. The expedition team will also conduct studies on environmental changes, changes in greenhouse gas concentration, ecosystem carbon sink functions, and human adaptation to extreme environments in extremely high altitude areas of the Mount Qomolangma against the backdrop of global warming, according to the research team. (Xinhua/Sun Fei)= 配信日: 2022(令和4)年5月2日、クレジット:新華社/共同通信イメージズ

    商品コード: 2022050210138

  •  China‘s FAST telescope detects over 660 new pulsars
    00:58.24
    2022年07月27日
    China‘s FAST telescope detects over 660 new pulsars

    STORY: China‘s FAST telescope detects over 660 new pulsarsDATELINE: July 27, 2022LENGTH: 00:00:58LOCATION: GUIYANG, ChinaCATEGORY: TECHNOLOGY/SCIENCESHOTLIST:1. various of China‘s FAST telescope2. SOUNDBITE (Chinese): JIANG PENG, Chief engineer of FASTSTORYLINE:Using the Five-hundred-meter Aperture Spherical Radio Telescope (FAST), or the “China Sky Eye,“ scientists have identified over 660 new pulsars.Pulsars, or fast-spinning neutron stars, originate from the imploded cores of massive dying stars through supernova explosions. With their high density and fast rotation, they are an ideal laboratory for studying the laws of physics in extreme environments. SOUNDBITE (Chinese): JIANG PENG, Chief engineer of FAST“The development of FAST has entered a golden period, and the stable operation of observation equipment has made a great contribution to this...= 配信日: 2022(令和4)年7月27日、クレジット:新華社/共同通信イメージズ

    商品コード: 2022072800558

  •  Hydronaut H03 DeepLab
    2023年05月11日
    Hydronaut H03 DeepLab

    Pick up of the Czech science laboratory Deep Lab H03 from a flooded quarry in Jesenne, Semily region, Czech Republic, May 11, 2023. The 35-tonne station will be used for the three-year Delta 1 science project, in which Taiwan will also participate. The project will be carried out on the premises of the Czech Technical University in Prague. Delta will result in the development of equipment to assess human physical fitness in extreme environments. It will be completed with an extremely long stay of a human crew underwater in 2025. (CTK Photo/Radek Petrasek)、クレジット:CTK/共同通信イメージズ

    商品コード: 2023051207233

  •  Hydronaut H03 DeepLab
    2023年05月11日
    Hydronaut H03 DeepLab

    Pick up of the Czech science laboratory Deep Lab H03 from a flooded quarry in Jesenne, Semily region, Czech Republic, May 11, 2023. The 35-tonne station will be used for the three-year Delta 1 science project, in which Taiwan will also participate. The project will be carried out on the premises of the Czech Technical University in Prague. Delta will result in the development of equipment to assess human physical fitness in extreme environments. It will be completed with an extremely long stay of a human crew underwater in 2025. (CTK Photo/Radek Petrasek)、クレジット:CTK/共同通信イメージズ

    商品コード: 2023051206877

  •  Hydronaut H03 DeepLab
    2023年05月11日
    Hydronaut H03 DeepLab

    Pick up of the Czech science laboratory Deep Lab H03 from a flooded quarry in Jesenne, Semily region, Czech Republic, May 11, 2023. The 35-tonne station will be used for the three-year Delta 1 science project, in which Taiwan will also participate. The project will be carried out on the premises of the Czech Technical University in Prague. Delta will result in the development of equipment to assess human physical fitness in extreme environments. It will be completed with an extremely long stay of a human crew underwater in 2025. (CTK Photo/Radek Petrasek)、クレジット:CTK/共同通信イメージズ

    商品コード: 2023051206952

  •  Hydronaut H03 DeepLab
    2023年05月11日
    Hydronaut H03 DeepLab

    Pick up of the Czech science laboratory Deep Lab H03 from a flooded quarry in Jesenne, Semily region, Czech Republic, May 11, 2023. The 35-tonne station will be used for the three-year Delta 1 science project, in which Taiwan will also participate. The project will be carried out on the premises of the Czech Technical University in Prague. Delta will result in the development of equipment to assess human physical fitness in extreme environments. It will be completed with an extremely long stay of a human crew underwater in 2025. (CTK Photo/Radek Petrasek)、クレジット:CTK/共同通信イメージズ

    商品コード: 2023051207011

  •  Hydronaut H03 DeepLab
    2023年05月11日
    Hydronaut H03 DeepLab

    Pick up of the Czech science laboratory Deep Lab H03 from a flooded quarry in Jesenne, Semily region, Czech Republic, May 11, 2023. The 35-tonne station will be used for the three-year Delta 1 science project, in which Taiwan will also participate. The project will be carried out on the premises of the Czech Technical University in Prague. Delta will result in the development of equipment to assess human physical fitness in extreme environments. It will be completed with an extremely long stay of a human crew underwater in 2025. (CTK Photo/Radek Petrasek)、クレジット:CTK/共同通信イメージズ

    商品コード: 2023051206913

  •  Hydronaut H03 DeepLab
    2023年05月11日
    Hydronaut H03 DeepLab

    Pick up of the Czech science laboratory Deep Lab H03 from a flooded quarry in Jesenne, Semily region, Czech Republic, May 11, 2023. The 35-tonne station will be used for the three-year Delta 1 science project, in which Taiwan will also participate. The project will be carried out on the premises of the Czech Technical University in Prague. Delta will result in the development of equipment to assess human physical fitness in extreme environments. It will be completed with an extremely long stay of a human crew underwater in 2025. (CTK Photo/Radek Petrasek)、クレジット:CTK/共同通信イメージズ

    商品コード: 2023051206991

  •  Hydronaut H03 DeepLab
    2023年05月11日
    Hydronaut H03 DeepLab

    Pick up of the Czech science laboratory Deep Lab H03 from a flooded quarry in Jesenne, Semily region, Czech Republic, May 11, 2023. The 35-tonne station will be used for the three-year Delta 1 science project, in which Taiwan will also participate. The project will be carried out on the premises of the Czech Technical University in Prague. Delta will result in the development of equipment to assess human physical fitness in extreme environments. It will be completed with an extremely long stay of a human crew underwater in 2025. (CTK Photo/Radek Petrasek)、クレジット:CTK/共同通信イメージズ

    商品コード: 2023051206993

  •  Hydronaut H03 DeepLab
    2023年05月11日
    Hydronaut H03 DeepLab

    Pick up of the Czech science laboratory Deep Lab H03 from a flooded quarry in Jesenne, Semily region, Czech Republic, May 11, 2023. The 35-tonne station will be used for the three-year Delta 1 science project, in which Taiwan will also participate. The project will be carried out on the premises of the Czech Technical University in Prague. Delta will result in the development of equipment to assess human physical fitness in extreme environments. It will be completed with an extremely long stay of a human crew underwater in 2025. (CTK Photo/Radek Petrasek)、クレジット:CTK/共同通信イメージズ

    商品コード: 2023051206967

  •  Hydronaut H03 DeepLab
    2023年05月11日
    Hydronaut H03 DeepLab

    Pick up of the Czech science laboratory Deep Lab H03 from a flooded quarry in Jesenne, Semily region, Czech Republic, May 11, 2023. The 35-tonne station will be used for the three-year Delta 1 science project, in which Taiwan will also participate. The project will be carried out on the premises of the Czech Technical University in Prague. Delta will result in the development of equipment to assess human physical fitness in extreme environments. It will be completed with an extremely long stay of a human crew underwater in 2025. (CTK Photo/Radek Petrasek)、クレジット:CTK/共同通信イメージズ

    商品コード: 2023051206866

  •  Hydronaut H03 DeepLab
    2023年05月11日
    Hydronaut H03 DeepLab

    Pick up of the Czech science laboratory Deep Lab H03 from a flooded quarry in Jesenne, Semily region, Czech Republic, May 11, 2023. The 35-tonne station will be used for the three-year Delta 1 science project, in which Taiwan will also participate. The project will be carried out on the premises of the Czech Technical University in Prague. Delta will result in the development of equipment to assess human physical fitness in extreme environments. It will be completed with an extremely long stay of a human crew underwater in 2025. (CTK Photo/Radek Petrasek)、クレジット:CTK/共同通信イメージズ

    商品コード: 2023051206914

  •  Hydronaut H03 DeepLab
    2023年05月11日
    Hydronaut H03 DeepLab

    Pick up of the Czech science laboratory Deep Lab H03 from a flooded quarry in Jesenne, Semily region, Czech Republic, May 11, 2023. The 35-tonne station will be used for the three-year Delta 1 science project, in which Taiwan will also participate. The project will be carried out on the premises of the Czech Technical University in Prague. Delta will result in the development of equipment to assess human physical fitness in extreme environments. It will be completed with an extremely long stay of a human crew underwater in 2025. (CTK Photo/Radek Petrasek)、クレジット:CTK/共同通信イメージズ

    商品コード: 2023051200651

  •  Hydronaut H03 DeepLab
    2023年05月11日
    Hydronaut H03 DeepLab

    Pick up of the Czech science laboratory Deep Lab H03 from a flooded quarry in Jesenne, Semily region, Czech Republic, May 11, 2023. The 35-tonne station will be used for the three-year Delta 1 science project, in which Taiwan will also participate. The project will be carried out on the premises of the Czech Technical University in Prague. Delta will result in the development of equipment to assess human physical fitness in extreme environments. It will be completed with an extremely long stay of a human crew underwater in 2025. (CTK Photo/Radek Petrasek)、クレジット:CTK/共同通信イメージズ

    商品コード: 2023051207067

  •  Hydronaut H03 DeepLab
    2023年05月11日
    Hydronaut H03 DeepLab

    Pick up of the Czech science laboratory Deep Lab H03 from a flooded quarry in Jesenne, Semily region, Czech Republic, May 11, 2023. The 35-tonne station will be used for the three-year Delta 1 science project, in which Taiwan will also participate. The project will be carried out on the premises of the Czech Technical University in Prague. Delta will result in the development of equipment to assess human physical fitness in extreme environments. It will be completed with an extremely long stay of a human crew underwater in 2025. (CTK Photo/Radek Petrasek)、クレジット:CTK/共同通信イメージズ

    商品コード: 2023051207230

  •  Hydronaut H03 DeepLab
    2023年05月11日
    Hydronaut H03 DeepLab

    Pick up of the Czech science laboratory Deep Lab H03 from a flooded quarry in Jesenne, Semily region, Czech Republic, May 11, 2023. The 35-tonne station will be used for the three-year Delta 1 science project, in which Taiwan will also participate. The project will be carried out on the premises of the Czech Technical University in Prague. Delta will result in the development of equipment to assess human physical fitness in extreme environments. It will be completed with an extremely long stay of a human crew underwater in 2025. (CTK Photo/Radek Petrasek)、クレジット:CTK/共同通信イメージズ

    商品コード: 2023051207128

  •  Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami
    2024年03月24日
    Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami

    A view of the arid Yadan landscape with a moist lake nestled in the depths of the Gobi desert in Hami, Xinjiang province, China, on March 24, 2024. (Photo by Costfoto/NurPhoto)、クレジット:Costfoto/NurPhoto/共同通信イメージズ ※NO USE CHINA

    商品コード: 2024032810047

  •  Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami
    2024年03月24日
    Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami

    A view of the arid Yadan landscape with a moist lake nestled in the depths of the Gobi desert in Hami, Xinjiang province, China, on March 24, 2024. (Photo by Costfoto/NurPhoto)、クレジット:Costfoto/NurPhoto/共同通信イメージズ ※NO USE CHINA

    商品コード: 2024032810002

  •  Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami
    2024年03月24日
    Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami

    A view of the arid Yadan landscape with a moist lake nestled in the depths of the Gobi desert in Hami, Xinjiang province, China, on March 24, 2024. (Photo by Costfoto/NurPhoto)、クレジット:Costfoto/NurPhoto/共同通信イメージズ ※NO USE CHINA

    商品コード: 2024032810004

  •  Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami
    2024年03月24日
    Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami

    A view of the arid Yadan landscape with a moist lake nestled in the depths of the Gobi desert in Hami, Xinjiang province, China, on March 24, 2024. (Photo by Costfoto/NurPhoto)、クレジット:Costfoto/NurPhoto/共同通信イメージズ ※NO USE CHINA

    商品コード: 2024032810058

  •  Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami
    2024年03月24日
    Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami

    A view of the arid Yadan landscape with a moist lake nestled in the depths of the Gobi desert in Hami, Xinjiang province, China, on March 24, 2024. (Photo by Costfoto/NurPhoto)、クレジット:Costfoto/NurPhoto/共同通信イメージズ ※NO USE CHINA

    商品コード: 2024032810046

  •  Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami
    2024年03月24日
    Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami

    A view of the arid Yadan landscape with a moist lake nestled in the depths of the Gobi desert in Hami, Xinjiang province, China, on March 24, 2024. (Photo by Costfoto/NurPhoto)、クレジット:Costfoto/NurPhoto/共同通信イメージズ ※NO USE CHINA

    商品コード: 2024032810011

  •  Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami
    2024年03月24日
    Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami

    A view of the arid Yadan landscape with a moist lake nestled in the depths of the Gobi desert in Hami, Xinjiang province, China, on March 24, 2024. (Photo by Costfoto/NurPhoto)、クレジット:Costfoto/NurPhoto/共同通信イメージズ ※NO USE CHINA

    商品コード: 2024032809992

  •  Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami
    2024年03月24日
    Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami

    A view of the arid Yadan landscape with a moist lake nestled in the depths of the Gobi desert in Hami, Xinjiang province, China, on March 24, 2024. (Photo by Costfoto/NurPhoto)、クレジット:Costfoto/NurPhoto/共同通信イメージズ ※NO USE CHINA

    商品コード: 2024032810083

  •  Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami
    2024年03月24日
    Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami

    A view of the arid Yadan landscape with a moist lake nestled in the depths of the Gobi desert in Hami, Xinjiang province, China, on March 24, 2024. (Photo by Costfoto/NurPhoto)、クレジット:Costfoto/NurPhoto/共同通信イメージズ ※NO USE CHINA

    商品コード: 2024032810063

  •  Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami
    2024年03月24日
    Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami

    A view of the arid Yadan landscape with a moist lake nestled in the depths of the Gobi desert in Hami, Xinjiang province, China, on March 24, 2024. (Photo by Costfoto/NurPhoto)、クレジット:Costfoto/NurPhoto/共同通信イメージズ ※NO USE CHINA

    商品コード: 2024032810055

  •  Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami
    2024年03月24日
    Arid Yadan Landscape and A Moist Lake in Gobi Desert in Hami

    A view of the arid Yadan landscape with a moist lake nestled in the depths of the Gobi desert in Hami, Xinjiang province, China, on March 24, 2024. (Photo by Costfoto/NurPhoto)、クレジット:Costfoto/NurPhoto/共同通信イメージズ ※NO USE CHINA

    商品コード: 2024032810053

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    2024年07月07日
    中国の研究者、火星でも生存可能な植物を発見

    新疆ウイグル自治区で発見されたシントリキア・カニネルビス。中国新疆ウイグル自治区の資源・生態環境を調べる第3次新疆総合科学調査で、研究者が砂漠の極限環境の中で火星でも生存が可能と思われるコケ植物、シントリキア・カニネルビス(Syntrichiacaninervis)を発見した。(ウルムチ=新華社配信)= 配信日: 2024(令和6)年7月7日、クレジット:新華社/共同通信イメージズ

    商品コード: 2024070709288

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