WBEZ | rock paper scissors http://www.wbez.org/tags/rock-paper-scissors Latest from WBEZ Chicago Public Radio en Clever Apes #22: Paper covers rock http://www.wbez.org/blog/clever-apes/2011-11-22/clever-apes-22-paper-covers-rock-94295 <img typeof="foaf:Image" src="http://llnw.wbez.org/blog/photo/2011-November/2011-11-22/IMG_3809 keeper.JPG" alt="" /><p><p><img alt="" class="caption" src="http://llnw.wbez.org/blog/insert-image/2011-November/2011-11-22/IMG_3809 keeper small.jpg" title="Rock paper scissors, and its variations, may lie hidden in the math that underlies natural systems. (WBEZ/Gabriel Spitzer)" width="600" height="450"></p><p>Charles Darwin ushered in modern biology with his explanation of how different species evolve. But his work leaves us with a paradox: Why should dozens or even thousands of species coexist in a single habitat? The theory suggests they ought to duke it out until just a few winners dominate. And yet we have such magnificent biodiversity all over. More than 2,000 species of trees share a single acre of rainforest in the Amazon. So what gives?</p><p><em><strong><span style="font-size: 8px;">Listen to the episode:</span></strong></em></p><p><audio class="mejs mediaelement-formatter-identified-1332483827-1" src="http://llnw.wbez.org/sites/default/files/Clever_Apes_22_Paper_covers_rock.mp3">&nbsp;</audio></p><p>The answer might lie in a game you probably mastered before you were 12: rock, paper, scissors. Any pairing of two species (say, “rock” tree and “paper” tree) will almost always lead to the weaker one going extinct (so long, “rock” tree). But introduce a third species – “scissors” tree – and you close up into a stable loop, where all three can coexist. This has been known for a while, and observed in natural settings among <a href="http://bio.research.ucsc.edu/%7Ebarrylab/lizardland/male_lizards.overview.html">side-blotched lizards in California</a> and <a href="http://www.nature.com/nature/journal/v428/n6981/full/nature02429.html">bacteria growing in a dish.</a></p><p>University of Chicago ecologist <a href="http://allesinalab.uchicago.edu/people/stefano-allesina.html">Stefano Allesina </a>scaled it up with a computer model, and showed it could indeed explain big, complicated systems like the Amazon jungle or underwater kelp forests. In fact, you can have as many species as you want coexisting, with one big caveat: Strangely, it has to be an odd number. That means no fourth throw in roshambo, though <a href="http://www.youtube.com/watch?v=iapcKVn7DdY">“rock, paper, scissors, lizard, Spock”</a> is safe.</p><p><img alt="" class="caption" src="http://llnw.wbez.org/blog/insert-image/2011-November/2011-11-22/ouroborous.GIF" style="width: 250px; height: 169px; float: left; border-width: 1px; border-style: solid; margin: 10px;" title="Side-blotched lizards form a loop in competing for mates. (Courtesy of Barry Sinervo)"></p><p>Dig even a little deeper, and it seems that rock, paper scissors describes a basic mathematical concept that appears in all kinds of systems, as shown in <a href="http://plato.stanford.edu/entries/game-theory/">game theory</a>. Whether it’s economics, political science or biology, any system where competitors have different advantages that can’t be ranked from best to worst probably has a little rock, paper, scissors tournament hiding in there somewhere.</p><p>Incidentally, actual rock paper scissors tournaments have been gaining steam, thanks largely to the efforts of the <a href="http://www.worldrps.com/">World Rock Paper Scissors Society. </a>If you want to learn how to crush the competition (and never change a diaper again! Oh wait, that’s probably just in my household), check out their <a href="http://www.worldrps.com/index.php?option=com_content&amp;task=view&amp;id=256&amp;Itemid=37">strategy tips. </a>You can also practice against a robot <a href="http://www.nytimes.com/interactive/science/rock-paper-scissors.html">here</a>.</p><p>Finally, we inaugurate our recurring series, Ask an Ape, in which we answer science-y questions posed by listeners. Please weigh in with your own question in the comment section below, <a href="http://twitter.com/#%21/cleverapes">tweet us</a>, post to our <a href="http://www.facebook.com/pages/Clever-Apes-on-WBEZ/118246851551412">Facebook wall</a>, or call our hotline: 312-893-2935.</p></p> Tue, 22 Nov 2011 22:19:00 -0600 http://www.wbez.org/blog/clever-apes/2011-11-22/clever-apes-22-paper-covers-rock-94295 Chicago researcher: Rock, Paper, Scissors helps explain biodiversity http://www.wbez.org/story/biodiversity/chicago-researcher-rock-paper-scissors-helps-explain-biodiversity <img typeof="foaf:Image" src="http://llnw.wbez.org/story/photo/2011-March/2011-03-14/P1000144.JPG" alt="" /><p><p>A Chicago researcher says he&rsquo;s found insight into how ecosystems work from what may be the world&rsquo;s most basic game: rock, paper, scissors. <br /><br />Stefano Allesina says there&rsquo;s long been a paradox in ecology. An ecosystem can teem with thousands of competing species, but the math can&rsquo;t quite explain that. Models suggest that more strong ones should push out more weak ones, leaving fewer species overall. <br /><br />Now Allesina says he&rsquo;s worked out a new model to account for the diversity. The key was finding a setting where multiple, equally powerful contestants can all survive: rock, paper, scissors. <br /><br />&ldquo;For any two species, you have one winner, and it&rsquo;s a very clear winner,&rdquo; says Allesina, an assistant professor of ecology and evolution at the University of Chicago. &ldquo;But through a third species, they can close this cycle, and then start this mechanism.&rdquo;<br /><br />Allesina scaled up the game to not just three variables, but hundreds or thousands. He says his model could account for almost unlimited biodiversity, and it also explains why why the loss of one seemingly minor species can topple a carefully balanced ecosystem. <br /><br />His findings are out in the Proceedings of the National Academy of Sciences. <br />&nbsp;</p></p> Mon, 14 Mar 2011 19:00:00 -0500 http://www.wbez.org/story/biodiversity/chicago-researcher-rock-paper-scissors-helps-explain-biodiversity