< Return to Video

3 Animals That Keep Their Whole Ecosystem Together

  • 0:00 - 0:03
    ♪ (dynamic music) ♪
  • 0:03 - 0:05
    The original keystone
  • 0:05 - 0:08
    refers to a wedge-shaped slab
    at the peak of a stone arch.
  • 0:08 - 0:12
    If you remove the keystone,
    you risk the whole thing tumbling down.
  • 0:12 - 0:17
    And some ecosystems work the same way,
    relying on one keystone species.
  • 0:17 - 0:19
    In biology, keystone species
  • 0:19 - 0:22
    have a disproportionately
    large impact on their habitat,
  • 0:22 - 0:24
    given their size or numbers.
  • 0:24 - 0:27
    Their daily activities affect
    all kinds of other species,
  • 0:27 - 0:28
    directly or indirectly.
  • 0:28 - 0:32
    And a change in their numbers
    can cause a trophic cascade,
  • 0:32 - 0:34
    where effects ripple
    through the ecosystem,
  • 0:34 - 0:36
    often in surprising ways.
  • 0:36 - 0:39
    Take the grey wolves of Yellowstone
    National Park in Wyoming.
  • 0:39 - 0:42
    Their numbers dropped to zero
    around the early 1930s,
  • 0:42 - 0:43
    mostly because of hunting.
  • 0:43 - 0:47
    But in 1995, wolves were
    reintroduced to the park,
  • 0:47 - 0:49
    and the wolves’ impact
    has been monitored ever since.
  • 0:49 - 0:52
    Turns out that impact
    is seriously important.
  • 0:52 - 0:55
    The wolves’ absence and reintroduction
  • 0:55 - 0:58
    changed Yellowstone in large
    and often surprising ways:
  • 0:58 - 1:00
    right down to how the rivers flow.
  • 1:00 - 1:03
    For one thing, wolves prey
    on elk, and the elk know it.
  • 1:03 - 1:06
    So their behavior changes
    when wolves are in the area.
  • 1:06 - 1:10
    Elk are generally nomadic, staying
    on the move as they munch on plants.
  • 1:10 - 1:14
    But without any wolves around,
    the elk became much less cautious,
  • 1:14 - 1:17
    preferring to settle down
    and eat a lot in one place at a time.
  • 1:17 - 1:19
    The elk even ate all the way
    down to the riverbank,
  • 1:19 - 1:22
    somewhere they wouldn’t dare linger
    if there were wolves around.
  • 1:22 - 1:25
    Instead of eating a little bit
    from a lot of different plants,
  • 1:25 - 1:29
    they ate so much at a time
    that aspen and cottonwood trees declined,
  • 1:29 - 1:33
    and so did the riverside willows
    that beavers and some songbirds depend on.
  • 1:33 - 1:35
    And beavers are also keystone species
  • 1:35 - 1:37
    because of their special
    engineering talents.
  • 1:37 - 1:40
    Their dams slow the flow of rivers,
    preventing floods
  • 1:40 - 1:44
    and offering a wide range of habitats
    for all kinds of species.
  • 1:44 - 1:47
    Ever since wolves were
    reintroduced to Yellowstone,
  • 1:47 - 1:49
    willows have grown better,
  • 1:49 - 1:51
    beaver colonies have increased
    from just one to nine,
  • 1:51 - 1:53
    and songbirds are flourishing, too.
  • 1:53 - 1:57
    Elk numbers declined at first,
    but now seem to have stabilized.
  • 1:57 - 1:58
    And bison numbers are up,
  • 1:58 - 2:01
    probably because of a decrease
    in competition from the elk.
  • 2:01 - 2:05
    Research is ongoing to assess
    the wolves’ long-term impact,
  • 2:05 - 2:07
    considering the many
    subtle interconnections
  • 2:07 - 2:09
    in this complex ecosystem.
  • 2:09 - 2:10
    But as top predators,
  • 2:10 - 2:14
    it’s clear that the presence, absence,
    and then reintroduction of wolves
  • 2:14 - 2:16
    has resonated throughout Yellowstone.
  • 2:16 - 2:19
    And research into other wolf habitats
    will help work out
  • 2:19 - 2:23
    what’s unique to Yellowstone
    and what can be applied elsewhere.
  • 2:23 - 2:26
    Elephants also do a lot
    to manage their environment,
  • 2:26 - 2:29
    from what goes on in their mouths
    to what comes out the other end.
  • 2:29 - 2:32
    They’re sometimes known
    as the “mega-gardeners of the forest”.
  • 2:32 - 2:35
    For example,
    without African forest elephants,
  • 2:35 - 2:39
    a single species of acacia tree
    tends to dominate African forests.
  • 2:39 - 2:42
    It grows fast and shuts out
    the light from other plants,
  • 2:42 - 2:44
    and the elephants help counter that.
  • 2:44 - 2:47
    They sometimes knock down acacia
    in their search for food,
  • 2:47 - 2:49
    opening up space
    and a critical shaft for light.
  • 2:49 - 2:53
    Other plant species seize their chance,
    adding to the forest’s biodiversity.
  • 2:53 - 2:57
    The smaller branches that they knock down
    provide hidey-holes for lizards,
  • 2:57 - 2:59
    which are more diverse
    in places where elephants roam.
  • 2:59 - 3:03
    When reaching for leaves or fruit,
    they’ll often knock off a bunch more.
  • 3:03 - 3:07
    And these windfalls get picked up
    by smaller ground dwellers like warthogs,
  • 3:07 - 3:09
    as well as the kudu,
    which is a type of antelope.
  • 3:09 - 3:15
    All this eating results in plenty of dung,
    around a metric ton every week.
  • 3:15 - 3:18
    And all that poop becomes
    a mini-ecosystem all by itself,
  • 3:18 - 3:21
    since it’s rich in nutrients
    that the elephants couldn’t process.
  • 3:21 - 3:25
    Fungi live in it, as do insects
    like beetle larvae, crickets and spiders.
  • 3:25 - 3:30
    In 2009, three species of frogs were found
    happily living in Asian elephant dung.
  • 3:30 - 3:32
    And of course, it’s excellent fertilizer.
  • 3:32 - 3:36
    Many plant species grow better in elephant
    dung than in poop from any other animal.
  • 3:36 - 3:39
    Their wide roaming
    and variation in movement
  • 3:39 - 3:42
    make them especially good
    at spreading seeds to new places.
  • 3:42 - 3:44
    But you don’t have to be
    as big as an elephant
  • 3:44 - 3:47
    to have a jumbo-sized impact
    on your ecosystem.
  • 3:47 - 3:50
    Parrotfish are named for their tough,
    almost beak-like mouthparts.
  • 3:50 - 3:54
    These hardened lips are well adapted
    for plucking algae off coral,
  • 3:54 - 3:57
    their main food source
    in their warm reef environment.
  • 3:57 - 3:58
    It may not be glamorous,
  • 3:58 - 4:01
    but it turns out to be vital
    to keeping the reef healthy.
  • 4:01 - 4:02
    Without parrotfish,
  • 4:02 - 4:06
    macroalgae can smother the coral
    to the point of killing it off.
  • 4:06 - 4:09
    And no coral means no reef,
    which would be big trouble
  • 4:09 - 4:11
    for these species
    that call coral reefs home.
  • 4:11 - 4:14
    A major report covering four decades
    of research in the Caribbean
  • 4:14 - 4:17
    identified parrotfish as a group
    to keep a special eye on.
  • 4:17 - 4:22
    Coral reefs are generally having
    a tough time of it, with climate change,
  • 4:22 - 4:25
    ocean acidification and pollution
    steadily degrading the ecosystem.
  • 4:25 - 4:28
    The parrotfish’s maintenance work
    helps keep reefs resilient,
  • 4:28 - 4:32
    so they can recover from blows
    like sudden heating or a hurricane.
  • 4:32 - 4:35
    Caribbean reefs where the parrotfish
    are heavily fished are suffering the most,
  • 4:35 - 4:39
    so the report recommends more countries
    adopt policies to save the parrotfish,
  • 4:39 - 4:42
    and hopefully save
    the reefs along with it.
  • 4:42 - 4:44
    So, like all keystone species,
  • 4:44 - 4:46
    they really hold
    their ecosystems together.
  • 4:46 - 4:48
    Thanks for watching
    this episode of SciShow,
  • 4:48 - 4:50
    which was brought to you
    by our patrons on Patreon.
  • 4:50 - 4:54
    If you want to help support this show,
    go to patreon.com/scishow
  • 4:54 - 4:56
    and don’t forget to go
    to youtube.com/scishow
  • 4:56 - 4:58
    and subscribe.
  • 4:58 - 5:00
    And some microbes, for example,
  • 5:00 - 5:02
    use energy from the sun
    to produce their own food.
  • 5:02 - 5:04
    Then, they're eaten by small consumers,
  • 5:04 - 5:07
    which are then eaten by larger predators.
    Each of these--
Title:
3 Animals That Keep Their Whole Ecosystem Together
Description:

What do gray wolves, elephants, and parrotfish have in common? They're all keystone species, which means they have an especially large impact on their habitat. SciShow explores how these animals keep their ecosystems running.

Hosted by: Olivia Gordon

Want more SciShow in person? We'll be at NerdCon: Nerdfighteria in Boston on February 25th and 26th! For more information, go to http://www.nerdconnerdfighteria.com/
----------
Support SciShow by becoming a patron on Patreon: https://www.patreon.com/scishow
----------
Dooblydoo thanks go to the following Patreon supporters—we couldn't make SciShow without them! Shout out to Jeremy Peng, Kevin Bealer, Mark Terrio-Cameron, KatieMarie Magnone, Patrick Merrithew, Charles Southerland, Fatima Iqbal, Benny, Kyle Anderson, Tim Curwick, Scott Satovsky Jr, Will and Sonja Marple, Philippe von Bergen, Bella Nash, Bryce Daifuku, Chris Peters, Saul, Patrick D. Ashmore, Charles George, Bader AlGhamdi
----------
Like SciShow? Want to help support us, and also get things to put on your walls, cover your torso and hold your liquids? Check out our awesome products over at DFTBA Records: http://dftba.com/scishow
----------
Looking for SciShow elsewhere on the internet?
Facebook: http://www.facebook.com/scishow
Twitter: http://www.twitter.com/scishow
Tumblr: http://scishow.tumblr.com
Instagram: http://instagram.com/thescishow
----------
Sources:

General
http://www.nature.com/scitable/knowledge/library/keystone-species-15786127
http://web.utk.edu/~mnunez/Keystones%20Nunez%20Dimarco.pdf

Wolves
http://www.yellowstonepark.com/wolf-reintroduction-changes-ecosystem/
https://www.youtube.com/watch?v=ysa5OBhXz-Q
https://www.researchgate.net/profile/Mark_Boyce2/publication/228623397_Wolves_Influence_Elk_Movements_behavior_Shapes_a_Trophic_Cascade_in_Yellowstone_National_Park/links/09e41508036f97539e000000.pdf
http://ir.library.oregonstate.edu/xmlui/bitstream/handle/1957/25603/RippleWilliam.Forestry.TrophicCascadesYellowstone.pdf
https://www.nps.gov/yell/learn/nature/elkinfo.htm

Elephants
http://nationalgeographic.org/encyclopedia/keystone-species/
https://www.youtube.com/watch?v=hvsWXyIseS0
http://www.sciencedirect.com/science/article/pii/S1146609X11000154
http://thinkelephants.blogspot.co.uk/
http://jmammal.oxfordjournals.org/content/93/3/698
https://www.sciencenews.org/blog/wild-things/importance-elephant-poop
http://www.livescience.com/5650-frogs-find-home-elephant-dung.html

Parrotfish
http://voices.nationalgeographic.com/2014/07/02/to-save-coral-reefs-start-with-parrotfish/
http://www.icriforum.org/caribbeanreport
https://sustainabledevelopment.un.org/content/documents/1891-Status%20and%20Trends%20of%20Caribbean%20Coral%20Reefs-%201970-2012-2014Caribbean%20Coral%20Reefs%20-%20Status%20Report%201970-2012%20(1).pdf

Image Sources:
https://commons.wikimedia.org/wiki/File:%E3%82%A2%E3%82%B9%E3%83%9A%E3%83%B3%E3%81%AE%E6%9C%A8_Aspen_Trees_(8178058710).jpg
https://commons.wikimedia.org/wiki/File:African_Forest_Elephant.jpg
https://commons.wikimedia.org/wiki/File:Ornate_Pygmy_Frog_(Microhyla_fissipes)_%E9%A3%BE%E7%B4%8B%E5%A7%AC%E8%9B%994.jpg
https://commons.wikimedia.org/wiki/File:Microhyla_rubra.jpg
https://commons.wikimedia.org/wiki/File:Sphaerotheca.jpg
https://commons.wikimedia.org/wiki/File:Scarus_vetula_(queen_parrotfish)_(San_Salvador_Island,_Bahamas)_(15548372734).jpg
https://commons.wikimedia.org/w/index.php?title=Special:Search&limit=20&offset=20&profile=images&search=kudu&searchToken=5a246gj4kb5hz9cghc6ro8bc0#/media/File:Kudu_antelope_.JPG
https://archive.org/details/ScienceNationCatchingACoralKiller
more » « less
Video Language:
English
Team:
Amplifying Voices
Project:
Environment and Climate Change
Duration:
05:08

English subtitles

Revisions Compare revisions

Our website uses cookies for analysis purposes.