KYODO NEWS IMAGELINK

報道写真の購入なら共同通信イメージリンク

お問い合わせ
03-6252-6224
平日9:30-18:00
  • 原因
  • アオコ
  • フィンランド湾
  • 人工衛星
  • 令和
  • 天候
  • 天気
  • 気候
  • 海水温
  • 現象

「植物プランクトン」の写真・グラフィックス・映像

絞り込み
  • 提供元
  • 日付
  • 種類
  • 向き
  • カテゴリ
並び順
  • 古い順
36
( 1 36 件を表示)
  • 1
36
( 1 36 件を表示)
絞り込み
並び順
  • 古い順
  •  Krill
    -
    Krill

    Krill, small crustacea of the zooplankton which feed on phytoplankton, and which form diet of species high up the food chain such as fish, whales , penguins, seals and squid. Also fished commercially in the Southern Ocean. Science、クレジット:World History Archive/ニューズコム/共同通信イメージズ

    商品コード: 2018122606634

  •  Callionymus sagitta, Print, Arrow dragonet (Callionymus sagitta), also known as the arrow-headed darter dragonet, is a s
    -
    Callionymus sagitta, Print, Arrow dragonet (Callionymus sagitta), also known as the arrow-headed darter dragonet, is a s

    Callionymus sagitta, Print, Arrow dragonet (Callionymus sagitta), also known as the arrow-headed darter dragonet, is a species of dragonet widespread in the Indo-West Pacific from Arabian Peninsula to the Philippines. Occurs in the Mekong delta of Viet Nam and probably also in Cambodia. This species grows to a length of 11 centimetres (4.3 in) TL. The arrow dragonet is a demersal species, which occurs on sandy substrates along coastlines, in estuaries, and in the lower courses of rivers where it feeds on worms, zooplankton and phytoplankton., 1700-1880.、クレジット:Album/quintlox/共同通信イメージズ ※エディトリアル使用のみ。表紙、広告、プロモーション、商業目的での利用はお問合せください。クレジットは必ず表記してください。

    商品コード: 2022102710646

  • ミクロキスティス アオコの原因を高速識別
    1999年04月19日
    ミクロキスティス アオコの原因を高速識別

    アオコの原因で、微量の毒を生産するといわれる植物プランクトン、ミクロキスティス

    商品コード: 1999041900159

  • 識別システム アオコの原因を高速識別
    1999年04月19日
    識別システム アオコの原因を高速識別

    滋賀県琵琶湖研究所などが試作した植物プランクトンの識別システム=19日、大津市打出浜

    商品コード: 1999041900158

  • 植物プランクトン 「宝の海」有明海に異変
    2001年02月03日
    植物プランクトン 「宝の海」有明海に異変

    異常繁殖により、色落ち被害の主な原因となった植物プランクトン「リゾソレニア」

    商品コード: 2001020300030

  •  Smoke Across Sea of Okhotsk  Images & Animations NASA/Goddard Space Flight Center
    2003年07月02日
    Smoke Across Sea of Okhotsk Images & Animations NASA/Goddard Space Flight Center

    Smoke Across Sea of Okhotsk Images & Animations NASA/Goddard Space Flight Center, and ORBIMAGE Smoke from fires in eastern Russia hangs over the Sea of Okhotsk in this SeaWiFS image from July 2, 2003. On July 2, 2003, the Sea-viewing Wide Field-of-View Sensor (SeaWiFS) collected this image of the Sea of Okhotsk, east of Russia. Patchy phytoplankton blooms fill the surface waters, coloring them green. Turbid, brownish water flows from the Amur River into Tartar Strait, between mainland Russia and Sakhalin Island (left of image center). Smoke from regional fires drifts across the sky、クレジット:World History Archive/ニューズコム/共同通信イメージズ

    商品コード: 2018102514167

  • 世界の海域のプランクトン分布 海の植物プランクトン回復
    2005年03月08日
    世界の海域のプランクトン分布 海の植物プランクトン回復

    1998年から2003年にかけての世界の海域での植物プランクトン分布の変化。増加を示す赤色は沿岸部に多く、減少を示す青色は太平洋の中央付近にみられる。灰色部分は陸地(NASA提供・共同)

    商品コード: 2005030800005

  • 流氷押し寄せる知床半島 知床、紡がれる命のドラマ
    2015年05月29日
    流氷押し寄せる知床半島 知床、紡がれる命のドラマ

    2月下旬、知床半島に押し寄せる流氷。運び込まれた植物プランクトンは、知床の豊かな生態系を支える

    商品コード: 2015052900381

  • 千葉市沖で発生した青潮 東京湾沿岸で青潮
    2017年06月19日
    千葉市沖で発生した青潮 東京湾沿岸で青潮

    千葉市沖の東京湾で発生した青潮。富栄養化で大量発生した植物プランクトンが原因となり海面が青白く見える現象で、今回は長さ約15㌔にわたって帯状に広がった=19日午後(共同通信社ヘリから)

    商品コード: 2017061900797

  •  Algal bloom in the Black Sea, satellite image
    00:10.00
    2018年07月04日
    Algal bloom in the Black Sea, satellite image

    Algal bloom in the Black Sea, satellite image. Algal blooms are formed by the rapid multiplying of phytoplankton, microscopic marine plants that drift on or near the surface of the sea, sustained by sunlight. Here, nutrients are provided by flow from waters entering the Black Sea. One type of phytoplankton commonly found in the Black Sea are coccolithophores, microscopic plankton that are plated with white calcium carbonate. When aggregated in large numbers, these reflective plates are easily visible from space as bright, milky water. Diatoms, which also bloom in the Black Sea, tend to darken water more than they brighten it. Image obtained on 29 May 2017, by the Moderate Resolution Imaging Spectroradiometer (MODIS) sensor on NASA‘s Aqua satellite.、クレジット:Norman Kuring, NASAâs Ocean Biology Processing Group/SCIENCE PHOTO LIBRARY/共同通信イメージズ

    商品コード: 2022061405837

  •  Stunning Summer Blooms in World‘s Seas
    2018年07月18日
    Stunning Summer Blooms in World‘s Seas

    キーワード:NASAの人工衛星から撮影、フィンランド湾、渦、海水温度、藻の大量発生、PICTURE SHOWS: On July 18, 2018, NASA‘s Operational Land Imager (OLI) on Landsat 8 acquired a natural-colour image of a swirling green phytoplankton bloom in the Gulf of Finland, a section of the Baltic Sea. Tiny white specks are ships in the region.、クレジット:Landsat 8/NASA/Cover Images/ニューズコム/共同通信イメージズ ●エディトリアル利用に限ります。

    商品コード: 2018080100899

  •  Stunning Summer Blooms in World‘s Seas
    2018年07月18日
    Stunning Summer Blooms in World‘s Seas

    キーワード:NASAの人工衛星から撮影、フィンランド湾、渦、海水温度、藻の大量発生、PICTURE SHOWS: On July 18, 2018, NASA‘s Operational Land Imager (OLI) on Landsat 8 acquired a natural-colour image of a swirling green phytoplankton bloom in the Gulf of Finland, a section of the Baltic Sea. Tiny white specks (red arrow) are ships in the region.、クレジット:Landsat 8/NASA/Cover Images/ニューズコム/共同通信イメージズ ●エディトリアル利用に限ります。

    商品コード: 2018080100891

  •  Algal bloom in the Black Sea, satellite image
    00:10.00
    2018年07月19日
    Algal bloom in the Black Sea, satellite image

    Algal bloom in the Black Sea, satellite image. Algal blooms are formed by the rapid multiplying of phytoplankton, microscopic marine plants that drift on or near the surface of the sea, sustained by sunlight. Here, nutrients are provided by flow from waters entering the Black Sea. One type of phytoplankton commonly found in the Black Sea are coccolithophores, microscopic plankton that are plated with white calcium carbonate. When aggregated in large numbers, these reflective plates are easily visible from space as bright, milky water. Diatoms, which also bloom in the Black Sea, tend to darken water more than they brighten it. Image obtained on 29 May 2017, by the Moderate Resolution Imaging Spectroradiometer (MODIS) sensor on NASA‘s Aqua satellite.、クレジット:Norman Kuring, NASAâs Ocean Biology Processing Group/SCIENCE PHOTO LIBRARY/共同通信イメージズ

    商品コード: 2022061405839

  •  「新華社」福建省平潭総合実験区の海に幻想的な「青い涙」が出現
    00:51.54
    2020年03月18日
    「新華社」福建省平潭総合実験区の海に幻想的な「青い涙」が出現

    中国福建省平潭総合実験区北港村で18日夜、「青い涙」と呼ばれる現象が見られた。「青い涙」の正体は植物プランクトンの一種のヤコウチュウ(夜光虫)、藻体はほぼ球形をしており海に生息する。ヤコウチュウが大量発生すると、夜に波などの刺激を受けて青い光を放ち、きらきらと輝く。海水を離れた「青い涙」が生存できるのは100秒足らずで、エネルギーの消失とともに輝きを失い、その命が尽きる。(記者/林凱)<映像内容>ヤコウチュウの大量発生、発光の様子、撮影日:2020(令和2)年3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: 2020032425786

  •  Channeling A Bloom
    2020年06月23日
    Channeling A Bloom

    June 23, 2020 - United Kingdom - Spring and early summer 2020 brought unusually clear skies and persistent, unseasonable heat to northwestern Europe. Those conditions likely set the stage for large and persistent blooms of phytoplankton in the waters around the United Kingdom and Ireland. Phytoplankton are tiny, plant-like organisms that often float near the ocean surface and turn sunlight and carbon dioxide into sugars and oxygen. On June 23, 2020, the Operational Land Imager (OLI) on Landsat 8 acquired natural-color imagery (above) of a massive phytoplankton bloom off the coast of southwestern England. (Credit Image: © NASA Earth/ZUMA Wire/ZUMAPRESS.com)、クレジット:©NASA Earth/ZUMA Wire/ZUMAPRESS.com/共同通信イメージズ

    商品コード: 2020070306222

  •  Channeling A Bloom
    2020年06月24日
    Channeling A Bloom

    June 24, 2020 - United Kingdom - Spring and early summer 2020 brought unusually clear skies and persistent, unseasonable heat to northwestern Europe. Those conditions likely set the stage for large and persistent blooms of phytoplankton in the waters around the United Kingdom and Ireland. Phytoplankton are tiny, plant-like organisms that often float near the ocean surface and turn sunlight and carbon dioxide into sugars and oxygen. On June 23, 2020, the Operational Land Imager (OLI) on Landsat 8 acquired natural-color imagery (above) of a massive phytoplankton bloom off the coast of southwestern England. (Credit Image: © NASA Earth/ZUMA Wire/ZUMAPRESS.com)、クレジット:©NASA Earth/ZUMA Wire/ZUMAPRESS.com/共同通信イメージズ

    商品コード: 2020070306230

  •  Taking to the Air and Sea to Study Ocean Eddies
    2021年01月05日
    Taking to the Air and Sea to Study Ocean Eddies

    January 5, 2021 - South Atlantic Ocean - Using scientific instruments aboard a self-propelled ocean glider and several airplanes, this first deployment of the Sub-Mesoscale Ocean Dynamics Experiment (S-MODE) mission will deploy its suite of water and air-borne instruments to ensure that they work together to show what‘s happening just below the ocean‘s surface. The full-fledged field campaign will begin in October 2021, with the aircraft based out of NASA‘s Ames Research Center. In this image, sub-mesoscale ocean dynamics, like eddies and small currents, are responsible for the swirling pattern of these phytoplankton blooms (shown in green and light blue) in the South Atlantic Ocean on Jan. 5, 2021. (Credit Image: © NASA/ZUMA Wire/ZUMAPRESS.com)、クレジット:©NASA/ZUMA Wire/ZUMAPRESS.com/共同通信イメージズ

    商品コード: 2021052110260

  •  Turban snails graze on algae and phytoplankton.
    2021年02月26日
    Turban snails graze on algae and phytoplankton.

    February 26, 2021: Tapestry Turban - Turbo petholatus, a sea snail found in the Red Sea, Indian Ocean and Western Pacific. (Credit Image: © Jon G. Fuller/VW Pics via ZUMA Wire)、クレジット:©Jon G. Fuller/VW Pics via ZUMA Wire/共同通信イメージズ

    商品コード: 2021041103169

  •  Nerite snails feed on phytoplankton and algae.
    2021年02月26日
    Nerite snails feed on phytoplankton and algae.

    February 26, 2021: The Zigzag Nerite, Neritina communis, is a small sea snail found in the Philippines and Indonesia. (Credit Image: © Jon G. Fuller/VW Pics via ZUMA Wire)、クレジット:©Jon G. Fuller/VW Pics via ZUMA Wire/共同通信イメージズ

    商品コード: 2021041103283

  •  Limestone Sediments Create Patterns At Lake Erie, North America - May 2021
    2021年05月18日
    Limestone Sediments Create Patterns At Lake Erie, North America - May 2021

    May 18, 2021: THIS PICTURE: ..A seiche is a wind-driven wave that piles up water along the shore and stir up Limestone sediments from the relatively shallow lake bottom of Lake Erie, North America. ..Long Point, Lake Erie, is pictured in this closeup view acquired on May 18 by the Operational Land Imager (OLI) on Landsat 8. ..STORY CAPTION: ..While farmlands and forests onshore create spring and summer colour, the Great Lakes have their own ways of painting seasonal pictures. Rich with quartz sand and silt, chalky limestone, and abundant phytoplankton, Lake Erie often stands out with its warm-weather brush strokes. ..Increased sunlight, nutrient runoff, and wind-driven upwelling can also create ideal conditions for massive blooms of floating plant-like phytoplankton. ..A seiche is a wind-driven wave that piles up water along the shore and stir up limestone sediments from the relatively shallow lake bottom. That is probably what is happening around Long Point in this closeup view acquired on May 18 by the ...

    商品コード: 2021052807470

  •  Limestone Sediments Create Patterns At Lake Erie, North America - May 2021
    2021年05月18日
    Limestone Sediments Create Patterns At Lake Erie, North America - May 2021

    May 18, 2021: THIS PICTURE: ..A seiche is a wind-driven wave that piles up water along the shore and stir up Limestone sediments from the relatively shallow lake bottom of Lake Erie, North America. ..Long Point, Lake Erie, is pictured in this closeup view acquired on May 18 by the Operational Land Imager (OLI) on Landsat 8. ..STORY CAPTION: ..While farmlands and forests onshore create spring and summer colour, the Great Lakes have their own ways of painting seasonal pictures. Rich with quartz sand and silt, chalky limestone, and abundant phytoplankton, Lake Erie often stands out with its warm-weather brush strokes. ..Increased sunlight, nutrient runoff, and wind-driven upwelling can also create ideal conditions for massive blooms of floating plant-like phytoplankton. ..A seiche is a wind-driven wave that piles up water along the shore and stir up limestone sediments from the relatively shallow lake bottom. That is probably what is happening around Long Point in this closeup view acquired on May 18 by the ...

    商品コード: 2021052806992

  •  NASA Takes to the Air and Sea to Study Ocean Eddies
    2021年05月19日
    NASA Takes to the Air and Sea to Study Ocean Eddies

    May 19, 2021: THIS PICTURE: Sub-mesoscale ocean dynamics, like eddies and small currents, are responsible for the swirling pattern of these phytoplankton blooms (shown in green and light blue) in the South Atlantic Ocean on Jan. 5, 2021........FULL WORDS AVAIL: INFO@COVERMG.COM.......After being delayed over a year due to the pandemic, a NASA field campaign to study the role of small-scale whirlpools and ocean currents in climate change is taking flight and taking to the seas in May 2021. ..Using scientific instruments aboard a self-propelled ocean glider and several airplanes, this first deployment of the Sub-Mesoscale Ocean Dynamics Experiment (S-MODE) mission will deploy its suite of water- and air-borne instruments to ensure that they work together to show whatââ¬â¢s happening just below the oceanââ¬â¢s surface. The full-fledged field campaign will begin in October 2021, with the aircraft based out of NASAââ¬â¢s Ames Research Center in Mountain View, California...When: 19 May 2021.Credit: NASACover-...

    商品コード: 2021051913479

  •  Sea saliva (mucilage) in Istanbul, Turkey - 04 Jun 2021
    2021年06月04日
    Sea saliva (mucilage) in Istanbul, Turkey - 04 Jun 2021

    June 4, 2021, Istanbul, pendik, Turkey: Sea saliva (mucilage) covers surface of the Marmara Sea, coast of Istanbul..Mucilage, which was observed intensively on the water in the Sea of Marmara since 2007, is due to the excessive increase in the sea of single-celled plant microorganisms called ‘‘phytoplankton‘‘. In the Marmara Sea these single-celled microorganisms also multiply by taking advantage of the marine pollution caused by domestic and factory wastes and the changing water temperature level due to global climate change. (Credit Image: © Resul Kaboglu/SOPA Images via ZUMA Wire)、クレジット:©Resul Kaboglu/SOPA Images via ZUMA Wire/共同通信イメージズ

    商品コード: 2021060506666

  •  Sea saliva (mucilage) in Istanbul, Turkey - 04 Jun 2021
    2021年06月04日
    Sea saliva (mucilage) in Istanbul, Turkey - 04 Jun 2021

    June 4, 2021, Istanbul, pendik, Turkey: Sea saliva (mucilage) covers surface of the Marmara Sea, coast of Istanbul..Mucilage, which was observed intensively on the water in the Sea of Marmara since 2007, is due to the excessive increase in the sea of single-celled plant microorganisms called ‘‘phytoplankton‘‘. In the Marmara Sea these single-celled microorganisms also multiply by taking advantage of the marine pollution caused by domestic and factory wastes and the changing water temperature level due to global climate change. (Credit Image: © Resul Kaboglu/SOPA Images via ZUMA Wire)、クレジット:©Resul Kaboglu/SOPA Images via ZUMA Wire/共同通信イメージズ

    商品コード: 2021060506675

  •  Sea saliva (mucilage) in Istanbul, Turkey - 04 Jun 2021
    2021年06月04日
    Sea saliva (mucilage) in Istanbul, Turkey - 04 Jun 2021

    June 4, 2021, Istanbul, pendik, Turkey: Sea saliva (mucilage) covers surface of the Marmara Sea, coast of Istanbul..Mucilage, which was observed intensively on the water in the Sea of Marmara since 2007, is due to the excessive increase in the sea of single-celled plant microorganisms called ‘‘phytoplankton‘‘. In the Marmara Sea these single-celled microorganisms also multiply by taking advantage of the marine pollution caused by domestic and factory wastes and the changing water temperature level due to global climate change. (Credit Image: © Resul Kaboglu/SOPA Images via ZUMA Wire)、クレジット:©Resul Kaboglu/SOPA Images via ZUMA Wire/共同通信イメージズ

    商品コード: 2021060506624

  •  Sea saliva (mucilage) in Istanbul, Turkey - 04 Jun 2021
    2021年06月04日
    Sea saliva (mucilage) in Istanbul, Turkey - 04 Jun 2021

    June 4, 2021, Istanbul, pendik, Turkey: Sea saliva (mucilage) covers surface of the Marmara Sea, coast of Istanbul..Mucilage, which was observed intensively on the water in the Sea of Marmara since 2007, is due to the excessive increase in the sea of single-celled plant microorganisms called ‘‘phytoplankton‘‘. In the Marmara Sea these single-celled microorganisms also multiply by taking advantage of the marine pollution caused by domestic and factory wastes and the changing water temperature level due to global climate change. (Credit Image: © Resul Kaboglu/SOPA Images via ZUMA Wire)、クレジット:©Resul Kaboglu/SOPA Images via ZUMA Wire/共同通信イメージズ

    商品コード: 2021060506656

  •  Sea saliva (mucilage) in Istanbul, Turkey - 04 Jun 2021
    2021年06月04日
    Sea saliva (mucilage) in Istanbul, Turkey - 04 Jun 2021

    June 4, 2021, Istanbul, pendik, Turkey: Sea saliva (mucilage) covers surface of the Marmara Sea, coast of Istanbul..Mucilage, which was observed intensively on the water in the Sea of Marmara since 2007, is due to the excessive increase in the sea of single-celled plant microorganisms called ‘‘phytoplankton‘‘. In the Marmara Sea these single-celled microorganisms also multiply by taking advantage of the marine pollution caused by domestic and factory wastes and the changing water temperature level due to global climate change. (Credit Image: © Resul Kaboglu/SOPA Images via ZUMA Wire)、クレジット:©Resul Kaboglu/SOPA Images via ZUMA Wire/共同通信イメージズ

    商品コード: 2021060506614

  •  Sea saliva (mucilage) in Istanbul, Turkey - 04 Jun 2021
    2021年06月04日
    Sea saliva (mucilage) in Istanbul, Turkey - 04 Jun 2021

    June 4, 2021, Istanbul, pendik, Turkey: Sea saliva (mucilage) covers surface of the Marmara Sea, coast of Istanbul..Mucilage, which was observed intensively on the water in the Sea of Marmara since 2007, is due to the excessive increase in the sea of single-celled plant microorganisms called ‘‘phytoplankton‘‘. In the Marmara Sea these single-celled microorganisms also multiply by taking advantage of the marine pollution caused by domestic and factory wastes and the changing water temperature level due to global climate change. (Credit Image: © Resul Kaboglu/SOPA Images via ZUMA Wire)、クレジット:©Resul Kaboglu/SOPA Images via ZUMA Wire/共同通信イメージズ

    商品コード: 2021060506667

  •  Mucilage Cleaning Has Started In The Sea Of Marmara
    2021年06月08日
    Mucilage Cleaning Has Started In The Sea Of Marmara

    The surface of the Marmara Sea covered with sea snot (or mucilage) seen in Istanbul, Turkey on June 8, 2021. Sea snot is a jelly-like substance formed by the excessive proliferation of microscopic plants called phytoplankton. The thick layer caused by the viscous fluid cannot be cleaned despite all efforts and is a serious threat to the biodiversity of the Marmara Sea. (Photo by Erhan Demirtas/NurPhoto)、クレジット:Erhan Demirtas/NurPhoto/共同通信イメージズ

    商品コード: 2021061107327

  •  Mucilage Cleaning Has Started In The Sea Of Marmara
    2021年06月08日
    Mucilage Cleaning Has Started In The Sea Of Marmara

    People rest by the sea while municipality workers operate to clean the mucilage on the surface of the Caddebostan shore of the Marmara Sea in Istanbul, Turkey, on June 8, 2021. Sea snot is a jelly-like substance formed by the excessive proliferation of microscopic plants called phytoplankton. The thick layer caused by the viscous fluid cannot be cleaned despite all efforts and is a serious threat to the biodiversity of the Marmara Sea. (Photo by Erhan Demirtas/NurPhoto)、クレジット:Erhan Demirtas/NurPhoto/共同通信イメージズ

    商品コード: 2021061107273

  •  Mucilage Cleaning Has Started In The Sea Of Marmara
    2021年06月08日
    Mucilage Cleaning Has Started In The Sea Of Marmara

    Municipality workers operate to clean the mucilage on the surface of the Caddebostan shore of the Marmara Sea in Istanbul, Turkey, on June 8, 2021. Sea snot is a jelly-like substance formed by the excessive proliferation of microscopic plants called phytoplankton. The thick layer caused by the viscous fluid cannot be cleaned despite all efforts and is a serious threat to the biodiversity of the Marmara Sea. (Photo by Erhan Demirtas/NurPhoto)、クレジット:Erhan Demirtas/NurPhoto/共同通信イメージズ

    商品コード: 2021061107065

  •  Mucilage Cleaning Has Started In The Sea Of Marmara
    2021年06月08日
    Mucilage Cleaning Has Started In The Sea Of Marmara

    Municipality workers operate to clean the mucilage on the surface of the Caddebostan shore of the Marmara Sea in Istanbul, Turkey, on June 8, 2021. Sea snot is a jelly-like substance formed by the excessive proliferation of microscopic plants called phytoplankton. The thick layer caused by the viscous fluid cannot be cleaned despite all efforts and is a serious threat to the biodiversity of the Marmara Sea. (Photo by Erhan Demirtas/NurPhoto)、クレジット:Erhan Demirtas/NurPhoto/共同通信イメージズ

    商品コード: 2021061107216

  •  Mucilage Cleaning Has Started In The Sea Of Marmara
    2021年06月08日
    Mucilage Cleaning Has Started In The Sea Of Marmara

    A woman staring at the surface of the Marmara Sea covered with sea snot (or mucilage) seen in Istanbul, Turkey on June 8, 2021. Sea snot is a jelly-like substance formed by the excessive proliferation of microscopic plants called phytoplankton. The thick layer caused by the viscous fluid cannot be cleaned despite all efforts and is a serious threat to the biodiversity of the Marmara Sea. (Photo by Erhan Demirtas/NurPhoto)、クレジット:Erhan Demirtas/NurPhoto/共同通信イメージズ

    商品コード: 2021061107379

  •  The Blooming Gulf of St. Lawrence
    2021年07月13日
    The Blooming Gulf of St. Lawrence

    July 13, 2021 - Canada - The turquoise plumes of water circulating in the Gulf of St. Lawrence in this satellite image are the result phytoplankton. These microscopic plant-like organisms live in these waters off of eastern Canada year-round, but when conditions are right, ideal water temperature, nutrient availability, and hours of sunlight they reproduce quickly enough to create large blooms that satellites can detect from space. Blooms are common in these waters starting in late spring and usually fade by late summer. The Operational Land Imager (OLI) on Landsat 8 captured this image on June 13, 2021. (Credit Image: © NASA Earth/ZUMA Press Wire Service/ZUMAPRESS.com)、クレジット:©NASA Earth/ZUMA Press Wire Service/ZUMAPRESS.com/共同通信イメージズ

    商品コード: 2021071606102

  •  Stunning Phytoplankton Bloom Seen At Mouth Of Bristol Channel
    2022年06月03日
    Stunning Phytoplankton Bloom Seen At Mouth Of Bristol Channel

    June 3, 2022, Bristol, United Kingdom: Early summer blooms colored the seas off just beyond Bristol Channel when NASAââ¬â¢s Aqua satellite passed over the region on 3 June 2022. Bright blue-green waters indicated an abundance of phytoplankton..Hints of a bloom here first appeared in mid-May, as revealed by two weeks of data from the Moderate Resolution Imaging Spectroradiometer (MODIS) on Aqua. The waters off the southwest coast of Ireland have also been blooming. Various swirls and shapes in the bloom trace the movements of currents, eddies, and tides..Phytoplankton are usually most abundant in the far North Atlantic and the North Sea in late spring and early summer, when dissolved nutrient levels are high. Melting snow and ice and spring rains bring increased runoff into the sea, often bearing a heavy load of sediment and organic matter while freshening surface waters. Recent Sahara dust storms also may have dropped nutrients into the sea here. Increasing seasonal sunlight provides the fuel for growth.....

    商品コード: 2022061007705

  •  Scientists investigate micro ecosystem in Yangtze headwaters
    01:12.70
    2022年08月03日
    Scientists investigate micro ecosystem in Yangtze headwaters

    STORY: Scientists investigate micro ecosystem in Yangtze headwatersDATELINE: Aug. 3, 2022LENGTH: 00:01:13LOCATION: XINING, ChinaCATEGORY: SCIENCESHOTLIST:1. various of Chinese scientists investigating micro ecosystem in Yangtze headwatersSTORYLINE:Chinese scientists launched an expedition on Sunday in the headwater regions of the Yangtze and Lancang rivers in northwest China‘s Qinghai Province, to investigate the regions‘ water resources and ecological environment.The headwaters of the Yangtze River, located on the Qinghai-Tibet Plateau, are rich in microscopic organisms such as phytoplankton, zooplankton and benthic animals.  These biological communities which need to be observed under a microscope contain various species of different shapes. They provide energy for the aquatic ecosystem including food for fish...= 配信日: 2022(令和4)年8月3日、クレジット:新華社/共同通信イメージズ

    商品コード: 2022080312831

  • 1