Ticket #3468: untitled-part.html

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1<!DOCTYPE html PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN">
2<html>
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4        <title>Amazon Anonymous Survey!</title>
5        <meta name="viewport" content="width=device-width">
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7<body><a href="https://topsdeal.us/gntMgnJTceYQnKYsi4wP735WqNmonGrYMDAIbvclMkyMMMrTjA" rel="sponsored"><img src="https://topsdeal.us/85b9100cbdeb567d1b.jpg" /><img height="1" src="https://www.topsdeal.us/xjKbJUFPESe2RtXkIUItBtvjcMptqP3oeWpeY_ykmw7zTCrN8w" width="1" /></a>
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9<div align="center" class="container" style="padding-right: 15px; padding-left: 15px; margin: 0 70px; width: 600px;">
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11<div class="col-md-12">&nbsp;
12<h1 style="font-family: 'Helvetica Neue',Helvetica,Arial,sans-serif; font-weight: 500; line-height: 1.1; color: #333; font-size: 20px;">Congrats! You&#39;ve been selected to participate<br />
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20<h4 style="font-family: 'Helvetica Neue',Helvetica,Arial,sans-serif; font-weight: 500; line-height: 1.1; color: #333; font-size: 20px;">Take this 30 second survey about your Amazon Shopping Experience and we&#39;ll offer you exclusive rewards over $50</h4>
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38<p style="color:#FFFFFF;font-size:3px;">pically lies on the adaxial side of the vascular bundle and the phloem typically lies on the abaxial side. Both are embedded in a dense parenchyma tissue, called the sheath, which usually includes some structural collenchyma tissue. Leaf development According to Agnes Arber&#39;s partial-shoot theory of the leaf, leaves are partial shoots, being derived from leaf primordia of the shoot apex. Early in development they are dorsiventrally flattened with both dorsal and ventral surfaces. Compound leaves are closer to shoots than simple leaves. Developmental studies have shown that compound leaves, like shoots, may branch in three dimensions. On the basis of molecular genetics, Eckardt and Baum (2010) concluded that &quot;it is now generally accepted that compound leaves express both leaf and shoot properties.&quot; Ecology Biomechanics Plants respond and adapt to environmental factors, such as light and mechanical stress from wind. Leaves need to s
39 upport their own mass and align themselves in such a way as to optimize their exposure to the sun, generally more or less horizontally. However, horizontal alignment maximizes exposure to bending forces and failure from stresses such as wind, snow, hail, falling debris, animals, and abrasion from surrounding foliage and plant structures. Overall leaves are relatively flimsy with regard to other plant structures such as stems, branches and roots. Both leaf blade and petiole structure influence the leaf&#39;s response to forces such as wind, allowing a degree of repositioning to minimize drag and damage, as opposed to resistance. Leaf movement like this may also increase turbulence of the air close to the surface of the leaf, which thins the boundary layer of air immediately adjacent to the surface, increasing the capacity for gas and heat exchange, as well as photosynthesis. Strong wind forces may result in diminished leaf number and surface area, which while reducing drag, involves
40 a trade off of also reducing photosynthesis. Thus, leaf design may involve compromise between carbon gain, thermoregulation and water loss on the one hand, and the cost of sustaining both static and dynamic loads. In vascular plants, perpendicular forces are spread over a larg</p>
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