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The Original Publisher of Biographies
Dear Valued Candidate,
 

This letter serves to formally identify you as a biographical candidate for inclusion in our most lauded publication.

For more than 100 years, we have chronicled the lives and accomplishments of distinguished Americans. This book, along with many of our titles, can be found on the shelves of prestigious libraries throughout the United States, including the Library of Congress. Over time, we have also compiled a robust online database of these noteworthy individuals, thereby enabling people from around the world to learn about their great contributions. Having one's name listed among our listees is quite an achievement.

Please complete your biographical data form by clicking on the link below. This is the next step toward becoming a featured listee.

Click Here To Complete Your Profile >>

Once we have received your information, we will confirm your acceptance and your biographical details will become accessible via our online database. This means that people from the United States and beyond will be able to learn about you and your praiseworthy endeavors.

You are to commended for the efforts that have brought your name to our attention. We wish you continued success.
 
 
 
Sincerely,
John Sartoris
Chief Publishing Officer, Who's Who in America

Please note: Inclusion of your biography carries neither cost nor obligation to you of any kind.











 
 



nings called stomata which open or close to regulate the rate exchange of carbon dioxide, oxygen, and water vapor into and out of the internal intercellular space system. Stomatal opening is controlled by the turgor pressure in a pair of guard cells that surround the stomatal aperture. In any square centimeter of a plant leaf, there may be from 1,000 to 100,000 stomata. Near the ground these Eucalyptus saplings have juvenile dorsiventral foliage from the previous year, but this season their newly sprouting foliage is isobilateral, like the mature foliage on the adult trees above The shape and structure of leaves vary considerably from species to species of plant, depending largely on their adaptation to climate and available light, but also to other factors such as grazing animals (such as deer), available nutrients, and ecological competition from other plants. Considerable changes in leaf type occur within species, too, for example as a pl ant matures; as a case in point Eucalyptus species commonly have isobilateral, pendent leaves when mature and dominating their neighbors; however, such trees tend to have erect or horizontal dorsiventral leaves as seedlings, when their growth is limited by the available light. Other factors include the need to balance water loss at high temperature and low humidity against the need to absorb atmospheric carbon dioxide. In most plants, leaves also are the primary organs responsible for transpiration and guttation (beads of fluid forming at leaf margins). Leaves can also store food and water, and are modified accordingly to meet these functions, for example in the leaves of succulent plants and in bulb scales. The concentration of photosynthetic structures in leaves requires that they be richer in protein, minerals, and sugars than, say, woody stem tissues. Accordingly, leaves are prominent in the diet of many animals. A leaf shed in autumn. Correspondingly, leaves represent heavy inv estment on the part of the plants bearing them, and their retention or disposition are the subject of elaborate strategies for dealing with pest pressures, seasonal conditions, and protective measures such as the growth of tho