1 / 29

CHAPTER 35 PLANT FORM WOOOOO!!!!!!!

CHAPTER 35 PLANT FORM WOOOOO!!!!!!! . Meristems: They elaborate the plant body after germination. - act as stem cells for plants- rapidly divide into differentiated cells that make up the plant body - two types:     - apical meristems = elongate the root and stem of plant

talor
Download Presentation

CHAPTER 35 PLANT FORM WOOOOO!!!!!!!

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. CHAPTER 35 PLANT FORMWOOOOO!!!!!!!

  2. Meristems: They elaborate the plant body after germination - act as stem cells for plants- rapidly divide into differentiated cells that make up the plant body - two types:     - apical meristems= elongate the root and stem of plant     - lateral meristems= produce and increase in girth         - only present in vascular plants (shrubs and trees)

  3. Apical Meristems - located at the tips of stems and roots -  after germination, meristems produce primary tissues which becomes the primary plant body (soft shoots and roots)  - develop into three types of embryonic tissue systems     - protoderm- forms the epidermis     - procambium- produces primary vascular tissue     - ground meristem- differentiates further into ground tissue (Think of the plant as if its still an embryo, these are the developmental stages of plant life)

  4. Lateral Meristems - lateral meristems produce what is called secondary growth= most of the trunk, branches, and older roots of trees - has the most dramatic effect in woody plants which have two lateral meristems     - cork cambium- produces the cork cells of the outer bark     - vascular cambium- produces secondary vascular tissue and lies between the xylem (wood) and phleom (cells close to woods surface)  - interesting fact: removing the bark of a tree damages the phloem and may eventually kill the tree

  5. Organization of the Plant Body -- coordination of primary and secondary growth produces an adult plant - plants do not have a fixed size and vary between plants, even of the same species - number, size, structure, and location of leaves is dependent on plant environment - vascular plants have a root system ( grounds them and provides the plant with ions) and a shoot system (the stem, leaves, flowers, and fruit) - nodes and internodes on the shoot develop axillary buds that create new growth -

  6. Types of Plant Tissue: Dermal Tissue -Epidermal cells cover all the primary plant body - a number of specialized cells occur at the epidermis - guard cells flank the stomta (epidermal openings)      - contain chloroplast     - stomata only occur on the epidermal tissue of leaves     - exchange of CO2 and O2 occur at stomata - Trichomes- hair like outgrowths of the epidermis (the "fuzzy stuff" on stems and leaves)     - keep leaf surfaces cool and reduce transpiration      - some secrete sticky or toxic substances - Root hairs- occur at the tips of young roots     - keep the root in close contact with soil and increase absorption efficiency  - in vascular plants, the cork cambium produces bark which replaces the epidermis

  7. Types of Tissue: Ground Cells -Parenchyma cells: most common type of cell, less specialized, mainly store food and water in large vacuoles - Collenchyma cells: relatively flexible, provide support for plant organs so they can bend without breaking (the strings of celery) - Scelrenchyma cells: two types     - fibers= long slender cells grouped in strands     - sclereids= form in branched bundles - cell wall of scelrenchyma cells contain ligin- branched polymer that causes the cell wall to become rigid

  8. Types of Tissue: Vascular -xylem cells: principle water conducting tissue of plants - a combination of dead hollow cells that make vessels and trachieds - water and other ions travel from the roots through the xylem to the leaves and diffuses as water vapor out of the stomata - Phloem cells: principal food conduction tissue of plants - carried out by sieve cells and sieve-tube members - sieve-tube memebers form sieve tubes and each cell is pared with a parenchyma cell (called compaion cells) -connected by plasmodesmata- which supplies the plant cells with organic materialsr

  9. Root Structure -there are three types vegetative organs in plants;        - roots, stems, and leaves -there are four parts recognized in developing roots;         -root cap, zone of cell division, the zone of elongation,                        and zone of maturation    -apical initials divide the cells that divide and end up on the tip become root cap cells -the other cells divide in opposite directions and pass through the three zones then they are fully differentiated

  10. The Root Cap -the root cap consist of two types of cells; columella cells (the inner cells) and root cap cells (the outer cells) -the root cap cells are continuously replenished by the root apical meristem -there are golgi bodies in the root cap cells that secretes a slimy substance, this helps the root through the soil. It also helps with the growth of nitrogen-fixing bacteria -the root cap also functions as the perception of gravity -the inner (columella) cells are very specialized               -they have endoplasmic reticulum in the nucleus and the periphery which is located in the middle or top of the cell          -contain no large vacuoles          -contain amyloplasts which form on the sides of the cells towards the pull of gravitiy    

  11. -apical meristem is located in the center of the root tip , it is shaped like a inverted concave dome -cells divide every 12 to 36 hours at the edge of the dome -these new daughter cells go to one of the three tissues; protoderm, procambium, or ground meristem -in this section genes have been identified -the inner cell layer regulates the flow of water, the outer cell layer acts as storage -if a mistake occurs and a cell is not in the correct place the cell will develop according to the new postition The Zone of Cell Division

  12. The Zone of Elongation -the cells from the primary meristem become several times longer than they are wide, this causes the root to lengthen -the vacuoles inside these cells increasing until they occupy 90% of each cell -cells do not grow anymore in size above the zone of elongation

  13. The Zone of Maturation -the cells that elongated in the zone of elongation are differentiated into specific cell types -many epidermal cells develop roots hairs, increasing surface area to absorb nutrients and water -the ground meristem produces parenchyma cells, they are found in the interior of the epidermis         -this layer called the cortex can by many cell layers thick and it functions in storage -the endodermis has walls filled with suberin, suberin is produced in bands called Casparian strips -the stele is everything inside of the endodermis -the primary xylem conducts water

  14. Modified Roots -most plants either produce tap roots or fibrous roots, however there are plants with roots specific to the function needed for that plant -a root that comes from something other than a root is called a adventitious root

  15. Stem Structure: External Form -the shoot apical meristem produces stem tissue that creates bulges (primordia) these bulges will form into leaves, shoots, and flowers -a node is the area where the leaf is attached -the area between two nodes is called an internode -the bud that is a product of the primary shoot apical meristem is called the axillary bud -a leaf scar is from the leaves falling off the trees in the fall, a bundle scar is where the vascular connections were

  16. Internal Form -from the apical meristem  three primary meristems develop; the protoderm,the ground meristem, and the procambium  -cells of the vascular cambium divide indefinitely and create a secondary tissue

  17. Leaf External Structure - two morphological groups-  microphyll- one gapless vein, and megaphylls- several veins - leaves have evolved to have a  flattened blade and slender stalk - mutant leaves have been found to never flatten

  18. - simple leaves= undivided - compound leaves= divided into leaflets     - pinnate= lined leaflets     - palmate= radial leaflets - alternate leaves have  one bud per leaf - compound leaves have two leaves per bud Leaf Blades

  19. - entire surface covered with transparent epidermis and cuticle, lower epidermis contains stomata and guard cells - two layers of tissue ( the palisade and spongy mesophyll) rest between the upper and lower epidermis  - veins, stomata, and intercellular spaces function together for gas exchange Leaf Internal Structure

  20. THANK YOU!

More Related