{
    "video": {
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        "description": "<p>July  26, 2011---More than a year after the <em>Deepwater Horizon</em> spill, scientists say it could take a decade to figure out how the oil affected the Gulf of Mexico's environment.</p>", 
        "is_us_only": "false", 
        "title": "Gulf Spill's Effects Unknown For Years?", 
        "url": "http://video.nationalgeographic.com/video/news/environment-news/nsf-oil-impact-lipid-vin/", 
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            "link": [
                {
                    "url": "http://news.nationalgeographic.com/news/energy/2011/04/110420-gulf-oil-spill-anniversary/", 
                    "name": "Gulf Oil Spill Hub"
                }, 
                {
                    "url": "http://news.nationalgeographic.com/news/2011/04/110420-gulf-oil-spill-surprises-science-nation-anniversary/", 
                    "name": "Gulf Oil Spill Surprises: 6 Things Experts Got Wrong"
                }
            ]
        }, 
        "credit": " 2011 National Geographic; partially funded by NSF; field producing and videography by Fritz Faerber", 
        "smil": "http://video.nationalgeographic.com/video/player/data/xml/nsf-oil-impact-lipid-vin.smil", 
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        "still": "http://video.nationalgeographic.com/exposure/core_media/ngphoto/image/37828_0_615x346.jpg", 
        "transcript": "<p class=\"MsoNormal\">Scientists studying the Gulf of Mexico say it could  be a decade or more before there is a solid verdict on the impact of  the 2010 BP oil spill.</p><p class=\"MsoNormal\">\u201cLook at this oil\u2026\u201d</p><p class=\"MsoNormal\">In  the meantime, gathering the data from across the giant area impacted by  the oil is a bit like fitting pieces of a puzzle together\u2013 without a  guide to the finished product.</p><p class=\"MsoNormal\">\u201cSee that oil?.... This is all oil\u2026 this is one year after the spill\u2026\u201d</p><p class=\"MsoNormal\">Much  of the data is going into the U.S government coordinated \u201cNatural  Resources Damage Assessment,\u201d which will guide legal action against BP  and other responsible parties. And some scientists are suggesting  further steps to ensure a complete picture.</p><p class=\"MsoNormal\">A  team at the Mote Marine Laboratory in Sarasota, Florida, is hunting for \u2013  and finding \u2013 oil with a different technique than the standard water,  sediment and air samples.</p><p class=\"MsoNormal\">They deploy passive  collectors \u2013 which basically look like little metal boxes \u2013 for four  weeks at a time at spots within the Gulf Coast region. It\u2019s what is  inside the boxes that is special\u2026</p><p class=\"MsoNormal\">SOUNDBITE: Dana Wetzel, Mote Marine Laboratory, Senior Scientist and Program Manager</p><p class=\"MsoNormal\">\u201cThese  samplers are made of pieces of dialysis tubing, and inside that tubing  is some material that\u2019s made from fat \u2013 lipid, it\u2019s actually called  triolein \u2013 and it represents what is found normally, naturally in an  organism. We all have lipid reserves in our body. And contaminants,  organic contaminants like petroleum, prefer to congregate where there is  lipid.\u201d</p><p class=\"MsoNormal\">Wetzel says such \u201csentinel samplers\u201d  have been finding oil in waters where traditional testing has not. She  compares the tried and true method of gathering a few liters of water</p><p class=\"MsoNormal\">from a site for later testing to a snapshot, that may not catch the overall story.</p><p class=\"MsoNormal\">SOUNDBITE: Wetzel</p><p class=\"MsoNormal\">\u201cIf  you\u2019ve only got low levels of petroleum floating around out there, you  may not find any in that water sample. But that doesn\u2019t necessarily mean  that\u2019s the level that an organism is exposed to because they\u2019re  filtering that water through their bodies. They\u2019re collecting little  parts and parcels of petroleum their whole life if they\u2019re exposed to it  their whole life. And so, trying to develop technology that looks at a  broader time series is much better for understanding the exposure to  organisms.\u201d</p><p class=\"MsoNormal\">As Wetzel\u2019s team analyzes samples  from their fieldwork, they\u2019re urging NRDA to use similar techniques to  broaden the data coming in. It\u2019s that collaborative approach, with each  scientist filling in a blank in data collection that Mote\u2019s president  says is essential to properly evaluating the condition of the Gulf.</p><p class=\"MsoNormal\">SOUNDBITE: Kumar Mahadevan, Mote Marine Lab President and CEO</p><p class=\"MsoNormal\">\u201cScientists  are specialized. Depending on their expertise, their work in particular  areas and those are important components of the overall ecosystem. So  every piece needs to come together. And it is important for the  scientists to talk to each other because then we would not know about  the overall ecosystem.\u201d</p><p class=\"MsoNormal\">Halfway across the Gulf,  scientists at the University of Southern Mississippi Gulf Coast  Research Laboratory are tackling questions of what happened to the oil  and what it\u2019s doing to the Gulf ecosystem.</p><p class=\"MsoNormal\">A  team led by Chet Rakocinski is sorting through samples of organisms  taken from the Gulf Islands National Seashore. They have data from  surveys of the islands going back 14 years.</p><p class=\"MsoNormal\">SOUNDBITE: Chet Rakocinski, University of Southern Mississippi Professor, Coastal Sciences</p><p class=\"MsoNormal\">\u201cFor  most environmental impact studies, the classic term that\u2019s used is  before, after, control, impact. Where you have before samples, after  samples, sort of reference areas and then impact areas. And, if you\u2019ve  framed it that way, usually you have the strongest evidence of something  happening from that particular impact that you\u2019re concerned with. In  our case, we feel that we have a pretty good handle on a lot of that\u2026\u201d</p><p class=\"MsoNormal\">By following the same methodology they\u2019ve long used, Rakocinski\u2019s team should be able to sort out any changes tied to the oil.</p><p class=\"MsoNormal\">In  a nearby lab, microbiologists are looking at vibrio - a genus of  bacteria some of which thrive on \u2018eating\u2019 oil. Some vibrios, like  cholera, also cause human infections. Jay Grimes specializes in vibrios  and early on was concerned that spikes in bacteria populations feeding  on the oil plumes could contain high levels of dangerous Vibrio  microbes.</p><p class=\"MsoNormal\">SOUNDBITE: Jay Grimes, University of Southern Mississippi Professor, Marine Microbiology</p><p class=\"MsoNormal\">\u201cYes,  there were blooms. These blooms happen very very rapidly when oil comes  into the seawater. Within 24 to 48 hours you will get anywhere from a  thousand-fold to a million-fold increase of the bacteria that can  decompose oil. Most of these bacteria have not yet been cultured. We  only know them by their DNA signatures. So, we do not know how to grow  them, mother nature does know how.\u201d</p><p class=\"MsoNormal\">Grimes says  vibrios ended up being only a minor part of the bacteria consuming the  oil. But the tiny microbes, like the giant Gulf, need sustained  attention to ensure scientists catch early warning signs\u2026 or discover a  promising lead on how to deal with any future spill.</p>", 
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