{"id":1059,"date":"2020-06-02T11:59:02","date_gmt":"2020-06-02T15:59:02","guid":{"rendered":"https:\/\/dev.seagrant.w3.uvm.edu\/2020\/06\/02\/benthic-basics\/"},"modified":"2025-10-22T17:49:22","modified_gmt":"2025-10-22T21:49:22","slug":"benthic-basics","status":"publish","type":"post","link":"https:\/\/www.uvm.edu\/seagrant\/2020\/06\/02\/benthic-basics\/","title":{"rendered":"Benthic Basics"},"content":{"rendered":"

\n\tHave you ever picked up a rock in a stream and witnessed a small insect crawl across the bottom of it? If so, it was likely a benthic macroinvertebrate<\/strong> or BMI. Benthic <\/em>refers to the bottom of a body of water. Macro <\/em>means large or that the organism can be seen without a microscope. Lastly, invertebrate<\/em> indicates that it does not have a backbone. Therefore, when you put all of these concepts together you can define a BMI as any small organism that primarily lives on the bottom of a stream, without a backbone, and can be seen without a microscope.\u00a0<\/p>\n

\n\tBMIs are regularly studied by scientists to determine if a stream is healthy or not, based on the presence or absence of certain species. BMIs are great for studying water quality because…<\/p>\n

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  1. \n\t\tThey spend all or most of their lives in water.<\/li>\n
  2. \n\t\tThey are easy to collect (all you need is a bucket and net).<\/li>\n
  3. \n\t\tEach species differs in its tolerance to pollution.<\/li>\n<\/ol>\n

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    \n\"Stream
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    \n\tA healthy body of water will likely have a high variety (many different species) of BMIs. This includes intolerant<\/strong> species that cannot survive in polluted waters. A stream such as this might have a canopy of trees that shade the stream and maintain healthy water temperatures. The rocks shown in this picture provide excellent habitat for BMIs. Also, tree roots help stabilize the stream banks to prevent erosion and runoff.<\/p>\n

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    \n\"Murky
    \n\n<\/picture>Whereas, a polluted body of water will likely have no BMIs or a low variety (only one or two species) including species tolerant<\/strong> to pollution. A stream with poor water quality may lack tree cover causing warmer water temperatures. It might have visible signs of pollution or eroded banks. All of these characteristics decrease the amount of dissolved oxygen present in the water which makes it difficult for BMIs and other aquatic species to survive.<\/p>\n

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    \n\tIdentify Some Benthic Macroinvertebrates<\/h2>\n

    \n\tHere are three BMIs that can be found in streams within the Lake Champlain watershed. They each show differing levels of tolerance to water pollution.<\/p>\n

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    \n\"Stonefly\"
    \n\n<\/picture>Stonefly<\/strong> (Order: Plecoptera) – Intolerant to Pollution<\/p>\n

    \n\tStoneflies can only survive in healthy water quality areas. There are more than 3,500 species of stonefly in the world. Additionally, their gills are on their legs and \u201carmpits\u201d so when they are in water with low levels of dissolved oxygen you can often see them doing \u201cpush ups\u201d to increase the amount of water moving over their gills.<\/p>\n

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    \n\"Dobsonfly\"
    \n\n<\/picture>Dobsonfly<\/strong> (Order: Megaloptera) – Slightly Intolerant to Pollution<\/p>\n

    \n\tDobsonflies can survive in slightly polluted water bodies. They are the aquatic version of a centipede and are the largest aquatic invertebrate in the United States. Dobsonflies have 3 pairs of legs and 8 pairs of lateral filaments. Can you distinguish the difference between the legs and lateral filaments in the photo to the left?<\/p>\n

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    \n\"Midge
    \n\n<\/picture>Midges (<\/strong>Order: Diptera) – Tolerant to Pollution<\/p>\n

    \n\tA midge is the larval stage\u00a0of a fly. It lives in water. Midges and the adult flies\u00a0are found (seasonally or otherwise) on practically every land type, excluding arid deserts and arctic zones.<\/p>\n

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    \n\tAfter all of this, are you wondering if you can collect BMIs in a local stream to determine the quality of water? The answer is YES! Nate Trachte, Education Specialist\u00a0at Lake Champlain Sea Grant<\/a>, demonstrates in this video how to collect BMIs using a kicknet.<\/p>\n

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