vb.net qr code generator The Plants: Kings and Queens of the World of Green in .NET framework

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CHAPTER
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The Plants: Kings and Queens of the World of Green
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7 considered the protists, including the algae primitive, plant-like protists And 8 took a look at the lichens as mixtures of fungi with either algae or bluish-green bacteria Both algae alone, and in combination with fungi as lichens, have in common the presence of chlorophyll This pigment, of course, is the main molecule responsible for photosynthesis, and for producing the greenish color of these organisms
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The Human Sole Plant Connection
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Recall ( 3) that the word plant literally means a sprout It comes from the Ancient Latin term planta, which also translates to mean sole of
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PART 3 Five Kingdoms of Life, plus Viruses
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the foot ! Quite fascinating is the connection to another term plantigrade (PLAN-tuh-grade) walking (-grade) on the sole of the foot (planti) Human beings, bears, and raccoons are all mammals that share the common trait of being plantigrade Speci cally, these mammals all walk with the entire sole of each foot rmly planted upon the ground! It seems likely that the early Greek botanists (BAHT-uh-nists), or those who specialize in (-ists) plants (botan), were the ones who made this connection Thus, we have humans who walk in a plantigrade manner, sole of the feet placed at upon the ground And from this same ground, up sprout the green plants! This close anatomic and naming connection between the sole of the human foot and the plants springing up from the ground has also been extended to the names of some individual plants Consider, for instance, the plant genus called plantain (PLAN-tun) As Figure 91 shows, the common or broadleaved plantain is a low-lying weed with large, light-green leaves growing from its base Often invading lawns, the common plantain gets its name from the shape of its leaves, which are at and broad like the sole of a human foot! One can say, then, that the at leaves of the plantain have a very plantar (PLAN-ter) or sole of the foot-like appearance These leaves can be crushed underfoot by a walking human, as well as eaten by them (blanched and sauteed in butter and garlic)
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Sole of foot (plantar)
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Plantain leaf
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Plantigrade walking
Fig 91 Feet, soles, and plantains: A human plant connection
Here Come the Land Plants!
Most botanists believe that modern land plants are the ancestors of primitive green algae that lived along the edges of lakes or oceans Gradually
CHAPTER 9 Plants: Kings and Queens
(about 450 million years ago), the land plants emerged completely from the water, and spread across the Continents As they evolved, they became more and more di erent from their primitive algae ancestors Technically speaking, a plant is a multicellular organism that carries out photosynthesis, contains chlorophyll, and develops from an embryo (EM-bree-oh) An embryo is literally a sweller In general, then, an embryo represents the earliest stages of development of any organism A plant embryo is a partial, undeveloped plant contained within a seed, that eventually swells into a full plant There are more than 300,000 di erent species of plants in the world, and the vast majority are land plants (rather than algae) A few land-based species have apparently returned to the aquatic environment, including the slender sea grasses But there are so many more species of land plants compared to algae that we have entitled this chapter The Plants: Kings and Queens of the World of Green
1, Order
THE TWO MAJOR GROUPS OF LAND PLANTS: CONTAINING VESSELS, OR NOT
Land plants have a huge amount of diversity (duh-VER-suh-tee) or turning aside (divers) from common traits Nevertheless, a broad classi cation into two main groups of plants is possible The great majority of species make up the vascular (VAS-kyoo-lar) plants, while a relatively few species comprise the nonvascular (NAHN-vas-kyoo-lar) plants Vascular literally pertains to (-ar) little vessels (vascul) The vascular plants are also called the tracheophytes (TRAY-kee-oh- ghts) plants (-phytes) containing rough arteries or windpipes (trache) The vascular plants (tracheophytes) are the plants whose bodies contain many small hollow tubes that resemble blood vessels or windpipes (Figure 92, A) The hollow tubes create a vascular (vessel-rich) tissue, which runs up and down throughout the plant The vascular tissue also branches outward to create dense patterns of leaf veins along the sides of the plant In direct contrast to the vascular plants or tracheophytes are the nonvascular plants Their alternate name is the bryophytes (BRY-uh- ghts), or tree moss (bry-) plants (-phytes) The nonvascular plants (bryophytes) have no internal vessels or leaf veins (Figure 92, B) They also lack true leaves, stems, or roots This nonvascular type is called bryophytes (from Latin) because the mosses and other moss-like plants are the main examples
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