Do not write on the test. Multiple choice worth 2 points. All of the

... 25. The primary function of root hairs is a. to guide roots as they grow downward b. to transport food up the stem c. absorption of water and minerals d. water storage 26. The stomata is responsible for a. exchanging gases b. leaf growth c. regulating the sunlight a plant takes in d. the transport o ...

Dwarf hemlock

... the old Latin name for grape; palmata refers to the usually palmate-lobed leaves. Is a woody vine with bright red flowers. Its leaves are about 4 to 6 inches long and about twice as wide. It produces purple or black fruits. ...

Structure of Flowering Plants Notes

... 4. Zone of differentiation – elongated cells develop into different types of tissues. ...

Wanganui High School

... evaporation). Water travels in xylem. Water is lost through stomata (mostly on lower surface of leaf). In hot and windy conditions stomata close to reduce water loss but photosynthesis then reduced. Each guard cell has a thick and quite inelastic wall bordering the pore, and a thin elastic outer wal ...

LEAVES

... and the need for CO2 assimilation – This determines much of the structure of land plants – 1: extensive root system – to get water from soil – 2: low resistance path way to get water to leaves – xylem – 3: leaf cuticle – reduces evaporation – 4: stomata – controls water loss and CO2 uptake ...

Horticulture I- Unit B 3.00 Plant Physiology

... • Sepals-Green parts that cover and protect flower bud before it opens • Petals-are really leaves that are modified to attract insects for flower pollination, the pretty part that we call flowers • Stamen-male part of the flower • Pistil-female part of the flower ...

Seed Plants A. 1.

... a. Root systems help plants stay upright and absorb and other substances from soil. ...

Plant Structure, Growth, and Development

...  Near the shoot tips are apical buds which inhibit axillary bud growth via apical dominance  Concentration of resources so plant can grow taller  If apical bud is gone then axillary buds can develop into lateral ...

Plant Anatomy

... Plant Structure ...

Stephanotis floribunda (Madagascar jasmine) Size/Shape

... Stephanotis floribunda (Madagascar jasmine) Stephanotis floribunda is a plant native to Madagascar and has fragrant white tubular flowers that smell like jasmine. It is a tropical twining woody climber. It has big leathery, glossy leaves. It produces large fruits similar to the avocado. The plant is ...

Basically Botany - This area is password protected

... the upper epidermis. These cells contain most of the leaf's chlorophyll, converting sunlight into usable chemical energy for the plant. Spongy mesophyll - the layer below the palisade mesophyll; it has irregularly-shaped cells with many air spaces between the cells, this allows gases to circulate. T ...

Foliar Indicators of Age in Dwarf Palmetto

...  States partially within its range are NC, SC, GA, FL, AL, MS, & TX ...

Root, Stem, and Leaf Lecture

... • Cap = hard tip that pushes through soil. ...

Kingdom Plantae

... – Male reproductive structures - Stamen – Female reproductive structures - Carpal ...

7 - WordPress.com

... The most common type of parallel veining is found in plants of the grass family, whose veins run from the leaf's base to its apex. Another type of parallel venation is found in plants such as banana, calla, and pickerelweed, whose veins run laterally from the midrib. RETICULASTED-VEINED-LEAVES: In r ...

Week 13

... Cyclamen • Houseplant • Grow in a cool, humid environment • Sensitive to over and under watering • Need to keep stems and leaves dry while watering. Will rot ...

Photosynthesis

... •  Use the energy created in the Light ReacPons •  Convert carbon dioxide to glucose •  Although, no direct sunlight is used, it only occurs when light is available (not at night) ...

Plant Kingdom Slides

... Plant Characteristics • Roots – absorb water and nutrients • Leaves – take in sunlight and carbon dioxide • Vascular Tissue – Transport material between the roots and shoots, and leaves. – Two types of vascular tissue: • Xylem – a system of cells that transports water and nutrients UP from the root ...

Slide 1

... combination thereof ...

PowerPoint Presentation - Lecture 4: Ecology of Evolution cont`d

... • Shade plants grow better in the sun than in the shade, • but sun plants grow faster than shade plants in direct sun ...

plant parts - Horace Mann Webmail

... Sepals - protective covering of flower bud Stamen - male reproductive part; produces pollen; consists of: a.) filament (stalk) ...

Ch 22 Introduction to Plants

... dispersed by animals- the seeds of an angiosperm or a gymnosperm- explain Explain How do the three methods of categorization differ from scientific methods Form an Opinion Is it useful or misleading to categorize angiosperms in ways that do not reflect evolutionary relationships- defend your opinion ...

The Grass Between My Toes: Wait! Is That Fescue?

... plants and their use in the identification of major turfgrass species with 80% accuracy  Identify and describe the major parts of the turfgrass plant  Describe the difference between tillering, stoloniferus, and rhizomatous species  Recognize the different leaf tips, leaf surfaces, auricles, coll ...

Plants-General information

... *1st land plants had to be able to survive harsh conditions-thus they developed a ____________________ -waxy,waterproof layer that coats the parts of plant exposed to air--helps keep it from drying out ...

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Leaf

A leaf is an organ of a vascular plant and is the principal lateral appendage of the stem. The leaves and stem together form the shoot. Foliage is a mass noun that refers to leaves collectively.Typically a leaf is a thin, dorsiventrally flattened organ, borne above ground and specialized for photosynthesis. Most leaves have distinctive upper (adaxial) and lower (abaxial) surfaces that differ in colour, hairiness, the number of stomata (pores that intake and output gases) and other features. In most plant species, leaves are broad and flat. Such species are referred to as broad-leaved plants. Many gymnosperm species have thin needle-like leaves that can be advantageous in cold climates frequented by snow and frost. Leaves can also have other shapes and forms such as the scales in certain species of conifers. Some leaves are not above ground (such as bulb scales). Succulent plants often have thick juicy leaves, but some leaves are without major photosynthetic function and may be dead at maturity, as in some cataphylls, and spines). Furthermore, several kinds of leaf-like structures found in vascular plants are not totally homologous with them. Examples include flattened plant stems (called phylloclades and cladodes), and phyllodes (flattened leaf stems), both of which differ from leaves in their structure and origin. Many structures of non-vascular plants, and even of some lichens, which are not plants at all (in the sense of being members of the kingdom Plantae), look and function much like leaves. The primary site of photosynthesis in most leaves (palisade mesophyll) almost always occurs on the upper side of the blade or lamina of the leaf but in some species, including the mature foliage of Eucalyptus palisade occurs on both sides and the leaves are said to be isobilateral.

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Leaf