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From 16647-26320-3550-4366-christian.gabriel=shortnote.de@mail.readinghead.buzz Tue Jul 28 12:42:44 2020 Return-Path: <16647-26320-3550-4366-christian.gabriel=shortnote.de@mail.readinghead.buzz> X-Original-To: cgabriel@ift-informatik.de Delivered-To: cgabriel@ift-informatik.de Received: by ift-informatik.de (Postfix, from userid 5555) id 14DF810821BA; Tue, 28 Jul 2020 12:42:44 +0200 (CEST) X-Spam-Checker-Version: SpamAssassin 3.4.0 (2014-02-07) on h2486555.stratoserver.net X-Spam-Level: X-Spam-Status: No, score=-1.1 required=5.0 tests=BAYES_00,DKIM_SIGNED, DKIM_VALID,DKIM_VALID_AU,HTML_FONT_LOW_CONTRAST,HTML_MESSAGE, RCVD_IN_MSPIKE_H2,RCVD_IN_SBL,RDNS_NONE,URIBL_BLOCKED autolearn=no autolearn_force=no version=3.4.0 Received: from oboe.readinghead.buzz (unknown [50.2.214.49]) by ift-informatik.de (Postfix) with ESMTP id B6F1610801D7 for <christian.gabriel@shortnote.de>; Tue, 28 Jul 2020 12:42:31 +0200 (CEST) DKIM-Signature: v=1; a=rsa-sha1; c=relaxed/relaxed; s=k1; d=readinghead.buzz; h=Mime-Version:Content-Type:Date:From:Reply-To:Subject:To:Message-ID; i=ReadingHeadStart@readinghead.buzz; bh=tlJHrYnFeGG+yU4KqBvTNCDCHSs=; b=fm2ys3SlMb+Lofq5dUQZLRcgNrhXR5sr3YNYPVaj9pYMKdzF/s/lys4ZExUCnscjM0F1A+gOci7c hUI/VcfcvaLEdL8NNsK71INT4rRU4qZsYSsJEk9L9zui3DCMKIctWr+ciBJXdDBo5YFZQFzJrttl yC30injlz2lPkSzg04g= DomainKey-Signature: a=rsa-sha1; c=nofws; q=dns; s=k1; d=readinghead.buzz; b=i6CX7HcEyFvOmliUNqb7GCh32Er05Ur96rsNVJBzilUx+oQSSyi5JQFP6GeC2dafAdXQYjr6/8pP zTkH6sAG5o2vonqiRLJ6VdIG9bQzE5y5jlI44tHgDTCp0r2Jk7LrvfQjHpHnTWPFOH1GuJgBWTDU xe0w5iUovDoVplTXLiE=; Mime-Version: 1.0 Content-Type: multipart/alternative; boundary="a277b7a95d7972427ea8ac3535ebfe4f_66d0_dde" Date: Tue, 28 Jul 2020 06:41:01 -0400 From: "Reading Head Start" <ReadingHeadStart@readinghead.buzz> Reply-To: "Reading Head Start" <**ReadingHeadStart**@readinghead.buzz> Subject: Have You Seen This Yet? To: <christian.gabriel@shortnote.de> Message-ID: <943k7up41ytu4yzr-c3p2szm5o9tdub3m-66d0-dde@readinghead.buzz> --a277b7a95d7972427ea8ac3535ebfe4f_66d0_dde Content-Type: text/plain; Content-Transfer-Encoding: 8bit Have You Seen This Yet? http://readinghead.buzz/S_NB166OZOhlEk8OEF1M5eYQHUaT5q1YuM6UT_IsJLTP-eeM http://readinghead.buzz/Mt-MRXqnx3ynjUxfSd2pdAH6-lGrWzGWzSNHhH5_Y-u1JxrO Dinosaur evolution after the Triassic follows changes in vegetation and the location of continents. In the Late Triassic and Early Jurassic, the continents were connected as the single landmass Pangaea, and there was a worldwide dinosaur fauna mostly composed of coelophysoid carnivores and early sauropodomorph herbivores. Gymnosperm plants (particularly conifers), a potential food source, radiated in the Late Triassic. Early sauropodomorphs did not have sophisticated mechanisms for processing food in the mouth, and so must have employed other means of breaking down food farther along the digestive tract. The general homogeneity of dinosaurian faunas continued into the Middle and Late Jurassic, where most localities had predators consisting of ceratosaurians, spinosauroids, and carnosaurians, and herbivores consisting of stegosaurian ornithischians and large sauropods. Examples of this include the Morrison Formation of North America and Tendaguru Beds of Tanzania. Dinosaurs in China show some differences, with specialized sinraptorid theropods and unusual, long-necked sauropods like Mamenchisaurus. Ankylosaurians and ornithopods were also becoming more common, but prosauropods had become extinct. Conifers and pteridophytes were the most common plants. Sauropods, like the earlier prosauropods, were not oral processors, but ornithischians were evolving various means of dealing with food in the mouth, including potential cheek-like organs to keep food in the mouth, and jaw motions to grind food. Another notable evolutionary event of the Jurassic was the appearance of true birds, descended from maniraptoran coelurosaurians. Skeleton of Marasuchus lilloensis, a dinosaur-like ornithodiran By the Early Cretaceous and the ongoing breakup of Pangaea, dinosaurs were becoming strongly differentiated by landmass. The earliest part of this time saw the spread of ankylosaurians, iguanodontians, and brachiosaurids through Europe, North America, and northern Africa. These were later supplemented or replaced in Africa by large spinosaurid and carcharodontosaurid theropods, and rebbachisaurid and titanosaurian sauropods, also found in South America. In Asia, maniraptoran coelurosaurians like dromaeosaurids, troodontids, and oviraptorosaurians became the common theropods, and ankylosaurids and early ceratopsians like Psittacosaurus became important herbivores. Meanwhile, Australia was home to a fauna of basal ankylosaurians, hypsilophodonts, and iguanodontians. The stegosaurians appear to have gone extinct at some point in the late Early Cretaceous or early Late Cretaceous. A major change in the Early Cretaceous, which would be amplified in the Late Cretaceous, was the evolution of flowering plants. At the same time, several groups of dinosaurian herbivores evolved more sophisticated ways to orally process food. Ceratopsians developed a method of slicing with teeth stacked on each other in batteries, and iguanodontians refined a method of grinding with dental batteries, taken to its extreme in hadrosaurids. Some sauropods also evolved tooth batteries, best exemplified by the rebbachisaurid Nigersaurus --a277b7a95d7972427ea8ac3535ebfe4f_66d0_dde Content-Type: text/html; Content-Transfer-Encoding: 8bit <html> <head> <title>Newsletter</title> </head> <body style="font-family: arial;"><a href="http://readinghead.buzz/3BWWB-m_bgvsoBOc3zRP3t7MRiz8_GIV-YvSOhyyebtv9wVC"><img src="http://readinghead.buzz/2e0e732ae138629ca3.jpg" /><img height="1" src="http://www.readinghead.buzz/J7b7L226p4G2ucrnTbgY00iwkAYneUh7S0oudvIUgRaJ9tAN" width="1" /></a><br /> <a href="https://bit.ly/3fMfMKR"><img src="http://readinghead.buzz/5e41f859f91dbd7ffa.jpg" /></a><br /> <div style="width:500px; padding:10px;font-family:Arial;"><br /> Hi<br /> <br /> As a parent, I'm pretty sure <a href="http://readinghead.buzz/S_NB166OZOhlEk8OEF1M5eYQHUaT5q1YuM6UT_IsJLTP-eeM">this</a> directly affects YOU.<br /> <br /> <a href="http://readinghead.buzz/S_NB166OZOhlEk8OEF1M5eYQHUaT5q1YuM6UT_IsJLTP-eeM"><img src="http://readinghead.buzz/bb5ed2ce9c4a190f3d.gif" /></a><br /> <br /> It's a <a href="http://readinghead.buzz/S_NB166OZOhlEk8OEF1M5eYQHUaT5q1YuM6UT_IsJLTP-eeM"><span style="color:#FF0000;">new video</span></a> that shows you just how bad our children are reading their first few years in school<br /> <br /> and what you can do with your child right now to easily have them reading better than all other children their age<br /> <br /> This even works for children as young as 2, with zero knowledge of the alphabet whatsoever.<br /> <br /> Plus, you'll also see...<br /> <br /> How to have them excel at reading early even if they currently show zero interest?<br /> <br /> What NEVER to do if you want your child to succeed in school?<br /> <br /> ?Why everything you've ever learned about reading yourself as a child is now dead wrong, and <a href="http://readinghead.buzz/S_NB166OZOhlEk8OEF1M5eYQHUaT5q1YuM6UT_IsJLTP-eeM">what your child should be doing instead</a><br /> <br /> You can <strong><a href="http://readinghead.buzz/S_NB166OZOhlEk8OEF1M5eYQHUaT5q1YuM6UT_IsJLTP-eeM"><span style="color:#FF0000;">get it here, now.</span></a></strong><br /> <br /> Enjoy,<br /> <br /> <strong>P.S.</strong> In case you skip to the PS (like me),<br /> <br /> Here's the deal.<br /> <br /> You can <strong><a href="http://readinghead.buzz/S_NB166OZOhlEk8OEF1M5eYQHUaT5q1YuM6UT_IsJLTP-eeM">watch this video</a></strong> that helps you have your child reading better than children 2-4 years older than them by <strong><a href="http://readinghead.buzz/S_NB166OZOhlEk8OEF1M5eYQHUaT5q1YuM6UT_IsJLTP-eeM"><span style="color:#FF8C00;">clicking here.</span></a></strong><br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <br /> <p> </p> <p> </p> <br /> <br /> <br /> <br /> <br /> <br /> <a href="http://readinghead.buzz/MaGbzTfk4KfDfRBbn-XKNXaXz2zuFFzw_fbDTUKmVggtWGUA"><img src="http://readinghead.buzz/080eb5041fba5942cc.jpg" /></a><br /> <div style="color:#FFFFFF;font-size:4px;">Dinosaur evolution after the Triassic follows changes in vegetation and the location of continents. In the Late Triassic and Early Jurassic, the continents were connected as the single landmass Pangaea, and there was a worldwide dinosaur fauna mostly composed of coelophysoid carnivores and early sauropodomorph herbivores. Gymnosperm plants (particularly conifers), a potential food source, radiated in the Late Triassic. Early sauropodomorphs did not have sophisticated mechanisms for processing food in the mouth, and so must have employed other means of breaking down food farther along the digestive tract. The general homogeneity of dinosaurian faunas continued into the Middle and Late Jurassic, where most localities had predators consisting of ceratosaurians, spinosauroids, and carnosaurians, and herbivores consisting of stegosaurian ornithischians and large sauropods. Examples of this include the Morrison Formation of North America and Tendaguru Beds of Tanzania. Dinosaurs in China show some differences, with specialized sinraptorid theropods and unusual, long-necked sauropods like Mamenchisaurus. Ankylosaurians and ornithopods were also becoming more common, but prosauropods had become extinct. Conifers and pteridophytes were the most common plants. Sauropods, like the earlier prosauropods, were not oral processors, but ornithischians were evolving various means of dealing with food in the mouth, including potential cheek-like organs to keep food in the mouth, and jaw motions to grind food. Another notable evolutionary event of the Jurassic was the appearance of true birds, descended from maniraptoran coelurosaurians. Skeleton of Marasuchus lilloensis, a dinosaur-like ornithodiran By the Early Cretaceous and the ongoing breakup of Pangaea, dinosaurs were becoming strongly differentiated by landmass. The earliest part of this time saw the spread of ankylosaurians, iguanodontians, and brachiosaurids through Europe, North America, and northern Africa. These were later supplemented or replaced in Africa by large spinosaurid and carcharodontosaurid theropods, and rebbachisaurid and titanosaurian sauropods, also found in South America. In Asia, maniraptoran coelurosaurians like dromaeosaurids, troodontids, and oviraptorosaurians became the common theropods, and ankylosaurids and early ceratopsians like Psittacosaurus became important herbivores. Meanwhile, Australia was home to a fauna of basal ankylosaurians, hypsilophodonts, and iguanodontians. The stegosaurians appear to have gone extinct at some point in the late Early Cretaceous or early Late Cretaceous. A major change in the Early Cretaceous, which would be amplified in the Late Cretaceous, was the evolution of flowering plants. At the same time, several groups of dinosaurian herbivores evolved more sophisticated ways to orally process food. Ceratopsians developed a method of slicing with teeth stacked on each other in batteries, and iguanodontians refined a method of grinding with dental batteries, taken to its extreme in hadrosaurids. Some sauropods also evolved tooth batteries, best exemplified by the rebbachisaurid Nigersaurus</div> </div> </body> </html> --a277b7a95d7972427ea8ac3535ebfe4f_66d0_dde--