From smallest to largest plants
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1 Plant anatomy
2 From smallest to largest plants
3 What is plant anatomy? ANATOMY: study of the structure of organisms looking at cells, tissues
4 How can water move from the ground all the way to the top of a 100 m tall redwood tree?
5 Plant Anatomy: Cells Plant cells are basic building blocks Can specialize in form and function By working together, forming tissues, they can support each other and survive Levels of organization atoms > molecules > cells > tissues > organs > whole plant > pop.
6 Plant Tissues Types All plant organs (roots, stems, leaves) are composed of the same tissue types. There are three types of tissue: 1. Dermal outermost layer 2. Vascular conducting tissue, transport 3. Ground bulk of inner layers
7 1. Dermal tissue Epidermis is the outermost layer of cells Like the skin of animals In stems and leaves, epidermis has cuticle, a waxy layer that prevents water loss. Root epidermis has root hairs, for water and nutrient absorption
8 2. Vascular tissue Transports water and organic materials (sugars) throughout the plant Xylem transports water and dissolved ions from the root to the stem and leaves. Phloem carries dissolved sugars from leaves to rest of the plant
9 Xylem Transports water and dissolved minerals Tracheids: long, thin tube like structures without perforations at the ends Vessel elements: short, wide tubes perforated at the ends (together form a pipe, called vessel). Both cells have pits (thin sections) on the walls Tracheids Vessel elements
10 Xylem cells are dead! They are hollow cells and consist only of cell wall Xylem cells
11 Phloem Cells that transport organic materials (sugars) Phloem cells are ALIVE! (unlike xylem) However, they lack nucleus and organelles
12 Phloem: transports sugars Phloem composed of cells called sieve tube members (STM) Companion cells join sieve tube members, are related, and help to load materials into STM End walls of STM have large pores called sieve plates Companion cells Sieve tube member Sieve plates
13 3. Ground tissue Makes up the bulk of plant organs. Functions: Metabolism, storage and support. Root Stem Leaf
14 Plant Organs Organs: tissues that act together to serve a specific function Roots Dermal Vascular Ground Stems Leaves Dermal Vascular Ground Dermal Vascular Ground
15 Functions of plant organs: ROOTS: Anchorage, water/nutrient absorption from soil, storage, water/nutrient transport STEMS: Support, water/nutrient transport LEAVES: Photosynthesis (food production)
16 ROOTS ROOTS the hidden half Functions of roots: Ancorage Absorption of water & dissolved minerals Storage (surplus sugars, starch) Conduction water/nutrients
17 Anatomy of a root epidermis cortex vascular
18 Root Epidermis Outermost, single layer of cells that: Protects (from diseases) Absorbs water and nutrients ROOT HAIRS: tubular extensions of epidermal cells. Increase surface area of root, for better water/nutrient absorption
19 Root Hairs: water and mineral absorption Root hairs increase surface area for better absorption
20 Root Cortex Stores starch, sugars and other substances
21 Root Ground tissue In roots, ground tissue (a.k.a. cortex) provides support, and often stores sugars and starch (for example: yams, sweet potato, etc.) cortex You re not a yam, you re a sweetpotato! Hey! I yam what I yam, man!
22 STEMS Above-ground organs (usually) Support leaves and fruits Conduct water and sugars throughout plant (xylem and phloem)
23 Stem anatomy Dermal, ground and vascular tissues epidermis cortex pith Vascular bundles
24 Types of Stems Monocot stem Dicot stem Root
25 Types of stems Herbaceous vs. Woody stems
26 Tissues of stems Epidermis (Dermal tissue type) Provides protection Has cuticle (wax) prevents water loss Trichomes (hairs) for protection, to release scents, oils, etc.
27 Stem Vascular tissue Vascular bundles composed of both xylem and phloem Xylem Conducts water Support Phloem Conducts food Support Vascular cambium
28 Vascular cambium Occurs in woody stems Vascular cambium located in the middle of the vascular bundle, between xylem and phloem
29 Vascular tissue: Trees Vascular tissue is located on the outer layers of the tree. bark phloem Vascular cambium wood xylem
30 Vascular tissue forms rings in trees Annual rings: xylem formed by the vascular cambium during one growing season One ring = one year
31 History of the tree: annual rings Dendrochronology : tree time-keeping 1492: Columbus lands in the Americas 1776: Declaration of US independence 1917 & 1945: Tree Survives two World Wars 1969: Man lands on Moon 1489: Tree is planted by Native American 1620: Pilgrims land in Plymouth, Mass. 1861: Start of Civil War 1971: Birth Year of the IDIOT who cut down this tree!!!
32 LEAVES: Photosynthetic factories of the plant Function: Photosynthesis food production for the whole plant Blade: Flat expanded area Petiole: stalk that connects leaf blade to stem, and transports materials BLADE
33 Leaf Anatomy Leaf anatomy is correlated to photosynthesis: Carbon dioxide + Water sugars + oxygen dermal ground vascular dermal
34 Leaf epidermis Is transparent so that sun light can go through. Waxy cuticle protects against drying out
35 Leaf epidermis Stomata open and close, by the guard cells. Lower epidermis: stomata with guard cells for gas exchange (CO 2, H 2 O in; O 2 out)
36 Leaf vascular tissue VEINS vascular tissue of leaves. Veins are composed of xylem (water transport) phloem (food transport) and bundle sheaths, cells surrounding the xylem/phloem for strength & support
37 Leaf Mesophyll Middle of the leaf (meso-phyll) Palisade (long columns below epidermis; have lots chloroplasts for photosynthesis) Spongy parenchyma (spherical cells) with air spaces around, (for gas exchange)
38 Plant water transport How can water move from the ground all the way to the top of a 100 m tall redwood tree?
39 Water transport in plants: The same way we drink soda from a straw! Water s great cohesive forces (molecules sticking to each other) and adhesive forces (attaching to walls of xylem cells)
40 Transpiration for water transport in the xylem Evaporation of water in the leaves (through stomates) generates the sucking force that pulls adjacent water molecules up the leaf surface
41 Water transport (cont.) Like a long chain, water molecules pull each other up the column. The column goes from roots leaves. What s amazing is that the water moves up by using the sun s evaporative energy Plants control transpiration by opening/closing stomata
42 Plant Hormones Chemical compounds produced by plants Effective at very low concentrations Five major hormone groups are: 1. Auxins 2. Gibberellins 3. Cytokinins 4. Abscisic Acid 5. Ethylene
43 Promote cell growth Involved in gravitropism 1. AUXINS and phototropism Control fruit development
44 2. Gibberellins Promote stem elongation 3. Cytokinins Promote cell division and organ differentiation 4. Abscisic Acid Promotes seed dormancy Causes stomata closing
45 Gaseous hormone, 5. ETHYLENE very simple formula (C 2 H 4 ) Ethylene promotes fruit ripening! Air Ethylene
46 One rotten apple spoils the barrel Why? Probably due to ethylene! Rotten apple producing lots of ethylene! Autocatalytic As a response to injury
47 Avocado ripening Place in a paper bag, with a ripe banana!
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