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    <title>Physical Sciences on Notaspampeanas</title>
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      <title>Heron-like, fish-eating dinosaur from 70 million years ago discovered in Argentina</title>
      <link>https://notaspampeanas.com/posts/1767106852441-dinosaurio-argentina/</link>
      <pubDate>Mon, 01 Jun 2026 00:11:24 -0300</pubDate>
      
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  A new raptor-like dinosaur from some 70 million years ago that ate fish and behaved like modern herons has been unearthed from southern Patagonia. Palaeontologists estimate that the new species — described based on fossils unearthed at a ranch in Argentina — grew up to three metres long
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        alt=&#34;A reconstruction of Kank by the artist Gabriel Díaz Yantén. mage credit: Gabriel Díaz Yantén&#34;
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&lt;strong&gt;A reconstruction of Kank by the artist Gabriel Díaz Yantén. mage credit: Gabriel Díaz Yantén&lt;/strong&gt;&lt;/p&gt;</description>
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      <title>Sensitivity of Antarctic ice to climate change sharply increased after Ice Age shift 1 million years ago</title>
      <link>https://notaspampeanas.com/posts/1767106852440-antarctic-ice-age/</link>
      <pubDate>Sun, 31 May 2026 00:11:24 -0300</pubDate>
      
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&lt;div class=&#34;lead text-neutral-500 dark:text-neutral-400 !mb-9 text-xl&#34;&gt;
  A new study published in the journal &lt;strong&gt;Nature Geoscience&lt;/strong&gt; by researchers at the &lt;strong&gt;IBS Center for Climate Physics&lt;/strong&gt; (&lt;em&gt;ICCP&lt;/em&gt;) at &lt;strong&gt;Pusan National University&lt;/strong&gt; in &lt;strong&gt;South Korea&lt;/strong&gt; shows that the &lt;strong&gt;Antarctic ice sheet&lt;/strong&gt; &lt;em&gt;became more sensitive to climate forcing following a major shift in Earth’s ice age cycles about one million years ago, providing new insight into how ice sheets respond to long-term climate change.&lt;/em&gt;
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&lt;p&gt;
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        alt=&#34;The panel shows the model simulation of Antarctic ice sheet volume change covering the last 3 million years. Bottom right panel represents the relationship between atmospheric CO₂ concentration and Antarctic ice volume changes. Blue and orange lines show nonlinear fits for 1-0 million years ago and 3-1 million years ago, respectively, with shaded bands indicating the 95% uncertainty range. Maps on the left show representative Antarctic ice elevation changes under high-, transitional-, and low-CO₂ states. Image credit: Institute for Basic Science&#34;
      /&gt;
      
    &lt;/figure&gt;
&lt;strong&gt;The panel shows the model simulation of Antarctic ice sheet volume change covering the last 3 million years. Bottom right panel represents the relationship between atmospheric CO₂ concentration and Antarctic ice volume changes. Blue and orange lines show nonlinear fits for 1-0 million years ago and 3-1 million years ago, respectively, with shaded bands indicating the 95% uncertainty range. Maps on the left show representative Antarctic ice elevation changes under high-, transitional-, and low-CO₂ states. Image credit: Institute for Basic Science&lt;/strong&gt;&lt;/p&gt;</description>
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      <title>Turning ocean water into drinking water, without waste</title>
      <link>https://notaspampeanas.com/posts/1767106852436-ocean-drinking-water/</link>
      <pubDate>Wed, 27 May 2026 00:18:24 -0300</pubDate>
      
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&lt;div class=&#34;lead text-neutral-500 dark:text-neutral-400 !mb-9 text-xl&#34;&gt;
  A new energy-efficient system produces fresh water without chemical additives and transforms leftover salts into useful materials.
&lt;/div&gt;

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        alt=&#34;Vials of seawater, Great Salt Lake water, nickel sulfate, copper chloride wastewater, and desalinated water, along with recovered salts show how a new approach developed by URochester researchers turns natural and industrial waters into fresh water and reusable minerals. Image credit: University of Rochester photo / J. Adam Fenster&#34;
      /&gt;
      
    &lt;/figure&gt;
&lt;strong&gt;Vials of seawater, Great Salt Lake water, nickel sulfate, copper chloride wastewater, and desalinated water, along with recovered salts show how a new approach developed by URochester researchers turns natural and industrial waters into fresh water and reusable minerals. Image credit: University of Rochester photo / J. Adam Fenster&lt;/strong&gt;&lt;/p&gt;</description>
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