NOTES: CH 36 - Transport in Plants
|
|
- Gervase Barber
- 6 years ago
- Views:
Transcription
1 NOTES: CH 36 - Transport in Plants
2 Recall that transport across the cell membrane of plant cells occurs by: -diffusion -facilitated diffusion -osmosis (diffusion of water) -active transport (done by transport proteins)
3
4 PROTON PUMPS: pump out H + ions, producing a proton gradient (more H + outside cell) and a membrane potential (inside is negative relative to outside)
5 this stored energy is used to transport other molecules across the membrane: -K + ions pulled into cell -sugar molecules are loaded into companion cells via COTRANSPORT **These are all examples of CHEMIOSMOSIS
6
7
8 WATER POTENTIAL ( ): predicts the direction water will flow combines solute concentration (osmotic potential, s ) with differences in pressure (pressure potential, p )
9 WATER POTENTIAL ( ) as solute conc. increases, s decreases as pressure (hydrostatic) increases, p increases = s + p water flows from HIGH water potential to LOW water potential!
10
11 PLASMOLYSIS: when a plant cell loses water by osmosis; protoplast pulls away from cell wall TURGOR PRESSURE: develops when a plant cell gains water by osmosis
12 Recall the 3 major parts of a plant cell: 1) cell wall 2) cytosol / cytoplasm 3) vacuole (surrounded by TONOPLAST)
13 SYMPLAST: continuum of cytoplasmic compartments of neighboring cells; connected by PLASMODESMATA APOPLAST: continuum of adjacent cell walls and intercellular spaces
14
15 Lateral / short-distance transport can occur: 1) across cell membranes (trans-membrane route) 2) via the SYMPLASTIC ROUTE (molecules travel through the plasmodesmata) 3) via the APOPLASTIC ROUTE (molecules don t enter cells)
16
17 Vertical / long-distance transport occurs by: 1) BULK FLOW: movement due to pressure differences (substances move from regions of higher to lower pressure) 2) TRANSPIRATION: creates tension which pulls sap up through the xylem from the roots 3) HYDROSTATIC PRESSURE: builds up at one end of phloem vessels; forces sap to the other end of the tube
18
19 Absorption of Water & Minerals by Roots: Transport pathway: *soil epidermis root cortex xylem -minerals moving through symplastic route move directly into vascular tissues
20
21 -minerals & water moving through apoplastic route are blocked at the endodermis by the CASPARIAN STRIP (a ring of waxy substance, SUBERIN) and must enter an endodermal cell **this ensures that all minerals entering the STELE pass through at least one selectively permeable membrane.
22 Transport of Xylem Sap xylem sap flows upward at 15 m per hour is it pushed from below or pulled from above? root pressure builds up when transpiration is slow (i.e. at night); this causes GUTTATION this only accounts for small amt. of xylem transport
23
24 Transport of Xylem Sap most xylem sap moves via the mechanism of: TRANSPIRATION- COHESION-TENSION
25 TRANSPIRATION-COHESION-TENSION: TRANSPIRATION: (loss of water from leaf cells through stomata) creates negative pressure
26 TRANSPIRATION-COHESION-TENSION: neg. pressure pulls water from the xylem transpiration pull on xylem sap is transmitted from one water molecule to another through COHESION (due to H- bonds between water molecules)
27
28
29
30 THE CONTROL OF TRANSPIRATION stomata provide openings in leaf tissue for the transpiration of water (out of leaf) and the diffusion of CO 2 into the leaf for photosynthesis GUARD CELLS surrounding the stomata regulate the requirements for photosynthesis with the need to conserve water
31
32 Adaptations to reduce water loss: more stomata on bottom of leaves waxy leaf cuticle on rest of leaf surface
33 Benefits of transpiration: assists in mineral transfer from roots shoots evaporative cooling
34 Stomatal Opening / Closing: GUARD CELLS: cells that flank the stomata and control stomatal diameter by changing shape: -when TURGID, guard cells buckle and stomata open -when FLACCID, guard cells sag and stomata close
35
36 a change in turgor pressure in guard cells results from the reversible uptake of K + *when K + leaves cell, s increases H 2 O is lost stomata close *when K + enters cell, s decreases H 2 O is taken up stomata open
37 Studies show that K + fluxes across guard cell membrane are likely coupled to membrane potentials created by PROTON PUMPS
38
39 Stomata open at dawn in response to: 1) Light: induces K + uptake; activates a blue-light receptor which drives photosynthesis ATP 2) Decrease of CO 2 in air spaces due to photosynthesis 3) internal clock in guard cells (CIRCADIAN RHYTHM = 24 hour cycle)
40 Guard cells may close during daytime if: 1) there is a water deficiency flaccid guard cells 2) production of abscisic acid (hormone); in response to water deficiency; signals guard cells to close 3) high temperature increases CO 2 in air spaces due to increased respiration
41
42
43 Xerophytes have special adaptations: small, thick leaves thick cuticle stomata are in depressions on underside of leaves some shed leaves during driest time of year cacti store water in stems during wet season
44 Translocation of Phloem Sap TRANSLOCATION = transport of products of photosynthesis by phloem to rest of plant PHLOEM SAP = sucrose, minerals, amino acids, hormones
45 phloem sap moves through sieve tubes from a SUGAR SOURCE (production area) to a SUGAR SINK (use or storage area) Sugars move into sieve tubes via symplastic and/or apoplastic routes Sucrose is loaded into cells at the source end by active transport (COTRANSPORT) Sucrose is unloaded at the sink end of sieve tubes
46
47 Pressure Flow / Bulk Flow of Phloem Sap pressure builds up at source end (phloem loading s decreases water enters tubes hydrostatic pressure) pressure is released at sink end (phloem is unloaded s outside tube decreases water leaves release of hydrostatic pressure)
48
AP Biology Chapter 36
Chapter 36 Chapter 36 Transport in Plants 2006-2007 Transport in plants - Overview H2O & minerals transport in xylem transpiration evaporation, adhesion & cohesion negative pressure Sugars transport in
More informationTransport in Plants Notes AP Biology Mrs. Laux 3 levels of transport occur in plants: 1. Uptake of water and solutes by individual cells -for
3 levels of transport occur in plants: 1. Uptake of water and solutes by individual cells -for photosynthesis and respiration -ex: absorption of H 2 O /minerals by root hairs 2. Short distance cell-to-cell
More informationChapter 36~ Transport in Plants
Chapter 36~ Transport in Plants Structural Features Used for Resource Acquistion Roots and stems to do transport of resources Diffusion, active transport, and bulk flow Work in vascular plants to transport
More informationChapter 36: Transport in Vascular Plants - Pathways for Survival
Chapter 36: Transport in Vascular Plants - Pathways for Survival For vascular plants, the evolutionary journey onto land involved differentiation into roots and shoots Vascular tissue transports nutrients
More informationCHAPTER 32 TRANSPORT IN PLANTS OUTLINE OBJECTIVES
CHAPTER 32 TRANSPORT IN PLANTS OUTLINE I. The traffic of water and solutes occurs on cellular, organ, and whole-plant levels: an overview of transport in plants A. Transport at the Cellular Level B. Short
More informationAP Biology. Transport in plants. Chapter 36. Transport in Plants. Transport in plants. Transport in plants. Transport in plants. Transport in plants
Chapter 36. Transport in Plants evaporation, adhesion & cohesion negative pressure evaporation, adhesion & cohesion negative pressure transport in phloem bulk flow Calvin cycle in leaves loads sucrose
More informationCHAPTER TRANSPORT
CHAPTER 2 2.4 TRANSPORT Uptake of CO2 FOCUS: Uptake and transport of water and mineral salts Transport of organic substances Physical forces drive the transport of materials in plants over a range of distances
More informationTransport in Plants (Ch. 23.5)
Transport in Plants (Ch. 23.5) Transport in plants H 2 O & minerals transport in xylem Transpiration Adhesion, cohesion & Evaporation Sugars transport in phloem bulk flow Gas exchange photosynthesis CO
More informationCh. 36 Transport in Vascular Plants
Ch. 36 Transport in Vascular Plants Feb 4 1:32 PM 1 Essential Question: How does a tall tree get the water from its roots to the top of the tree? Feb 4 1:38 PM 2 Shoot architecture and Light Capture: Phyllotaxy
More informationChapter 36. Transport in Vascular Plants
Chapter 36 Transport in Vascular Plants Overview: Pathways for Survival For vascular plants The evolutionary journey onto land involved the differentiation of the plant body into roots and shoots Vascular
More informationCompartments and Transport. Three Major Pathways of Transport. Absorp+on of Water and Minerals by Root Cells. Bulk flow
Plasmodesmata Channels connec+ng neighboring cells Cell membrane and cytosol are con+nuous from cell to cell Symplast Cytoplasmic con+nuum Apoplast Compartments and Transport Through plasmodesmata con+nuum
More informationTransport in Plants AP Biology
Transport in Plants 2006-2007 Water & mineral absorption Water absorption from soil osmosis aquaporins Mineral absorption active transport proton pumps active transport of H + aquaporin root hair proton
More informationResource Acquisition and Transport in Vascular Plants
Chapter 36 Resource Acquisition and Transport in Vascular Plants PowerPoint Lecture Presentations for Biology Eighth Edition Neil Campbell and Jane Reece Lectures by Chris Romero, updated by Erin Barley
More informationOCR (A) Biology A-level
OCR (A) Biology A-level Topic 3.3: Transport in plants Notes Plants require a transport system to ensure that all the cells of a plant receive a sufficient amount of nutrients. This is achieved through
More informationResource Acquisition and Transport in Vascular Plants
Chapter 36 Resource Acquisition and Transport in Vascular Plants PowerPoint Lecture Presentations for Biology Eighth Edition Neil Campbell and Jane Reece Lectures by Chris Romero, updated by Erin Barley
More informationPlease sit next to a partner. you are an A or a B
Please sit next to a partner you are an A or a B Plants Transport in Vascular Plants Transport Overview Vascular tissue transports nutrients throughout a plant Such transport may occur over long distances
More informationOrgans and leaf structure
Organs and leaf structure Different types of tissues are arranged together to form organs. Structure: 2 parts (Petiole and Leaf Blade) Thin flat blade, large surface area Leaves contain all 3 types of
More informationTransport in Vascular Plants
Chapter 36 Transport in Vascular Plants PowerPoint Lectures for Biology, Seventh Edition Neil Campbell and Jane Reece Lectures by Chris Romero Vascular tissue Transports nutrients throughout a plant; such
More informationTransport of substances in plants
Transport of substances in plants We have already looked at why many organisms need transport systems with special reference to surface area and volume. The larger the volume : surface area ratio, the
More informationBio Factsheet. Transport in Plants. Number 342
Number 342 Transport in Plants This Factsheet: Explains why plants need a transport system Describes what plants transport Describes the tissues which carry out transport Outlines the position of the xylem
More informationQuestion 1: What are the factors affecting the rate of diffusion? Diffusion is the passive movement of substances from a region of higher concentration to a region of lower concentration. Diffusion of
More informationin angiosperms 10/29/08 Roots take up water via roots Large surface area is needed Roots branch and have root hairs Cortex structure also helps uptake
in angiosperms A. Root System Roots take up water via roots Large surface area is needed Roots branch and have root hairs Cortex structure also helps uptake 1 B. Minerals Nitrogen (NO 3-,NH 4+ ) Potassium
More information35 Transport in Plants
Transport in Plants 35 Transport in Plants 35.1 How Do Plants Take Up Water and Solutes? 35.2 How Are Water and Minerals Transported in the Xylem? 35.3 How Do Stomata Control the Loss of Water and the
More informationChapter 36 Transport in Vascular Plants Lecture Outline
Overview: Pathways for Survival Chapter 36 Transport in Vascular Plants Lecture Outline The algal ancestors of plants obtained water, minerals and CO2 from the water in which they were completely immersed.
More informationPlant Transport and Nutrition
Plant Transport and Nutrition Chapter 36: Transport in Plants H 2 O & Minerals o Transport in xylem o Transpiration Evaporation, adhesion & cohesion Negative pressure. Sugars o Transport in phloem. o Bulk
More informationChapter 35 Regulation and Transport in Plants
Chapter 35 Regulation and Remember what plants need Photosynthesis light reactions Calvin cycle light sun H 2 O ground CO 2 air What structures have plants evolved to supply these needs? Interdependent
More informationResource acquisition and transport in vascular plants
Resource acquisition and transport in vascular plants Overview of what a plant does Chapter 36 CO 2 O 2 O 2 and and CO 2 CO 2 O 2 Sugar Light Shoots are optimized to capture light and reduce water loss
More informationTransport in Plants. Transport in plants. Transport across Membranes. Water potential 10/9/2016
Transport in Plants Transport in plants How is a plant able to move water and nutrients from roots to the rest of the plant body? Especially tall trees? Sequoia can be over 300 feet tall! Transport across
More informationIB Bio: Plant Biology. Topic 9
IB Bio: Plant Biology Topic 9 9.1: Transport in xylem How and why does water move up a plant? How do plants conserve water? 9.2: Transport in phloem How and why and where does food move in a plant? 9.3:
More informationHomework for Monday: Correct potometer questions Complete transport in plants worksheet
Transport in plants Homework for Monday: Correct potometer questions Complete transport in plants worksheet Transpiration the loss of water from a plant through evaporation Did you know? A 15m maple tree
More informationMovement of water and solutes in plants Chapter 4 and 30
Movement of water and solutes in plants Chapter 4 and 30 Molecular Movement Diffusion Molecules or ions moving in the opposite direction = movement against a diffusion gradient. Rates of diffusion are
More informationBiology 1030 Winter 2009
Meeting Tissue Needs II Chapter 36 (738-755) Chapter 37 (756-770) Cellular Currency Plants harvest solar energy Photosynthesis Produces sugars Proteins, nucleic acids, lipids? H 2 O CO 2 Plants cells still
More informationIntroduction to Plant Transport
Introduction to Plant Transport The algal ancestors of plants were completely immersed in water and dissolved minerals. What would be the advantages to living on the land? What would be the problems? This
More information2014 Pearson Education, Inc. 1
1 CO 2 O 2 Light Sugar O 2 and minerals CO 2 2 Buds 42 29 21 34 13 26 5 18 10 31 23 8 15 28 16 2 24 Shoot apical meristem 7 3 20 1 mm 32 11 19 12 6 4 1 25 17 14 9 40 27 22 3 Cell wall Apoplastic route
More informationDNA or RNA metabolism (1%) Signal transduction (2%) Development (2%) Other cellular processes (17%)
Fig. 35-24 Other metabolism (18%) DNA or RNA metabolism (1%) Signal transduction (2%) Development (2%) Unknown (24%) Energy pathways (3%) Cell division and organization (3%) Transport (4%) Transcription
More informationIntroduction to Plant Transport
Introduction to Plant Transport The algal ancestors of plants were completely immersed in water and dissolved minerals. The adaptation to land involved the differentiation of the plant body into roots,
More information3. Describe the role played by protein pumps during active transport in plants.
CLASS XI BIOLOGY Transport in Plants 1. What are the factors affecting the rate of diffusion? Answer: Factors affecting the rate of diffusion: 1. Gradient of Concentration 2. Permeability of membrane 3.
More informationWater Acquisition and Transport - Whole Plants. 3 possible pathways for water movement across the soil-plant-atmosphere continuum
Water transport across the entire soil-plant-atmosphere continuum Water Acquisition and Transport - Whole Plants 3 possible pathways for water movement across the soil-plant-atmosphere continuum Apoplast
More informationof water unless it is moving via the symplast Water moves into the xylem for transport up the plant Water that does not cross the
Uptake of water The through Casparian Strip blocks root epidermis by passage osmosis of water unless it is moving via the symplast Water moves into the xylem for transport up the plant Water that does
More informationPLANT SCIENCE. 9.2 Transport in Angiospermophytes
PLANT SCIENCE 9.2 Transport in Angiospermophytes Support of terrestrial plants Support of terrestrial plants comes through: Thickened cellulose in cell walls Turgor pressure of cells Lignified xylem Xylem
More informationCBSE Quick Revision Notes (Class-11 Biology) CHAPTER-11 TRANSPORT IN PLANTS
CBSE Quick Revision Notes (Class-11 Biology) CHAPTER-11 TRANSPORT IN PLANTS Plant transport various substance like gases, minerals, water, hormones, photosynthetes and organic solutes to short distance
More informationBio 102 Chapter 32 Transport in Plants
Bio 102 Chapter 32 Transport in Plants 2006-2007 Passive Water & Mineral Absorption Water absorption from soil OSMOSIS = transport of WATER across cell membrane WATER POTENTIAL determines direction of
More informationIntroduction to Plant Transport
Introduction to Plant Transport The algal ancestors of plants were completely immersed in water and dissolved minerals. The adaptation to land involved the differentiation of the plant body into roots,
More informationPlant Structure and Function
Plant Structure and Function A Meridian Biology AP Study Guide by John Ho and Tim Qi Plant Terms Growth: Growth Types Type Location Description Primary Primary Vertical growth (up-down), dominant direction
More informationStems and Transport in Vascular Plants. Herbaceous Stems. Herbaceous Dicot Stem 3/12/2012. Chapter 34. Basic Tissues in Herbaceous Stems.
Bud scale Terminal bud Stems and Transport in Plants One year's growth Terminal bud scale scars Axillary bud Leaf scar Node Internode Node Chapter 34 Lenticels Terminal bud scale scars Bundle scars A Woody
More informationTRANSPORT OF MATERIALS IN PLANTS
TRANSPORT OF MATERIALS IN PLANTS Plants require adequate supply of CO2, O2, mineral salts and water for normal growth. Lower plants like algae move materials in and out of their bodies by diffusion and
More information2014 Pearson Education, Inc. 1. Light. Sugar O 2 H 2 O. and minerals CO Pearson Education, Inc.
1 CO 2 O 2 Light ugar O 2 and minerals CO 2 2 Buds 34 42 29 26 31 18 21 13 5 10 23 8 15 28 16 24 hoot apical meristem 2 7 3 20 32 11 19 12 6 4 1 25 17 14 9 40 27 22 1 mm 3 Cell wall Apoplastic route Cytosol
More informationRecap. Waxy layer which protects the plant & conserves water. Contains chloroplasts: Specialized for light absorption.
Recap Contains chloroplasts: Specialized for light absorption Waxy layer which protects the plant & conserves water mesophyll Layer contains air spaces: Specialized for gas exchange Vascular Tissue Exchange
More informationTransport, Storage and Gas Exchange in Flowering Plants
Sixth Year Biology Transport, Storage and Gas Exchange in Flowering Plants Miss Rochford In this topic: Uptake and transport of: Water and minerals Carbon dioxide Gas exchange Transport of photosynthesis
More informationWater and Food Transportation
Water and Food Transportation Sugars in a Plant Sugar Form Location in Plant Organ Function of Sugar form Glucose Leaf Energy (made in photosynthesis summer, used in cellular respiration for growth-spring)
More informationPreview from Notesale.co.uk Page 20 of 34
Page 20 of 34 (i) The role of haemoglobin in transporting oxygen and carbon dioxide To include the reversible binding of oxygen molecules, carbonic anhydrase, haemoglobinic acid, HCO3- and the chloride
More informationCASE STUDY WATER ABSORPTION AND TRANSPORT IN PLANTS
CASE STUDY WATER ABSORPTION AND TRANSPORT IN PLANTS Presentation of the problem: We need a pump to uplift water to a tank. The requirement of a pump is to pull water against the gravity. Look at the human
More informationNutrition and Transport in Plants Chapter 26. Outline
Nutrition and Transport in Plants Chapter 26 Outline Essential Inorganic Nutrients Soil Formation Soil Profiles Soil Erosion Mineral Uptake Transport Mechanisms Water Organic Nutrients 1 2 Plant Nutrition
More informationTranslocation 11/30/2010. Translocation is the transport of products of photosynthesis, mainly sugars, from mature leaves to areas of growth and
Translocation Translocation is the transport of products of photosynthesis, mainly sugars, from mature leaves to areas of growth and storage. Phloem is the tissue through which translocation occurs. Sieve
More informationThe three principal organs of seed plants are roots, stems, and leaves.
23 1 Specialized Tissues in Plants Seed Plant Structure The three principal organs of seed plants are roots, stems, and leaves. 1 of 34 23 1 Specialized Tissues in Plants Seed Plant Structure Roots: absorb
More informationTransport in Plant (IGCSE Biology Syllabus )
Transport in Plant (IGCSE Biology Syllabus 2016-2018) Plants have transport systems to move food, water and minerals around. These systems use continuous tubes called xylem and phloem: - Xylem vessels
More informationChapter C3: Multicellular Organisms Plants
Chapter C3: Multicellular Organisms Plants Multicellular Organisms Multicellular organisms have specialized cells of many different types that allow them to grow to a larger size than single-celled organisms.
More informationthebiotutor. AS Biology OCR. Unit F211: Cells, Exchange & Transport. Module 2.3 Transport in Plants. Answers.
thebiotutor AS Biology OCR Unit F211: Cells, Exchange & Transport Module 2.3 Transport in Plants Answers Andy Todd 2013 1 1. (i) transports water (up plant); ACCEPT alternative wording for transport e.g.
More informationTransportation in Plants
Transportation in Plants Bell Ringer - 5 Min Why do you need transportation in living organisms? Explain your answer with a suitable example. Water movement through plants How does water move through a
More informationChapter 23 Notes Roots Stems Leaves
Chapter 23 Notes Roots Stems Leaves I. Specialized tissue in plants - effective way to ensure the plant s survival A. Seed plant structure 1. Roots - a. Absorbs water and dissolves nutrients b. anchors
More informationChapter 21: Plant Structure & Function
Chapter 21: Plant Structure & Function Chapter 21: Plant Structure & Function All organisms must: Take in certain materials, e.g. O 2, food, drink Eliminate other materials, e.g. CO 2, waste products Chapter
More informationDescribe plant meristems. Where are they located? perpetually embryonic cells found at tips of roots and shoots (apical vs.
Which conditions have the higher rate of transpiration? Light or dark: Humid or dry: Breezy or still air: Hot or warm: light (need CO 2 for photosyn.) dry (lower H 2 O potential out) breezy (greater evaporation)
More information[transport] in plants
[transport] in plants learningobjectives Identify the main parts of the transport system in plants xylem and phloem. Explain the structural adaptation of the xylem (ie lumen, lignin and dead cells) Explain
More informationC MPETENC EN I C ES LECT EC UR U E R
LECTURE 7: SUGAR TRANSPORT COMPETENCIES Students, after mastering the materials of Plant Physiology course, should be able to: 1. To explain the pathway of sugar transport in plants 2. To explain the mechanism
More informationChapter 29 Active Reading Guide Resource Acquisition, Nutrition, and Transport in Vascular Plants
Name: AP Biology Mr. Croft Chapter 29 Active Reading Guide Resource Acquisition, Nutrition, and Transport in Vascular Plants Section 1 1. Competition for light, water, and nutrients is intense among the
More informationChapter 12 & 13 Transport, Soil and Mineral Nutrition
Chapter 12 & 13 Transport, Soil and Mineral Nutrition Topics Methods of transport Xylem transport Phloem transport Soils properties and nutrient absorption Macro and micro essential nutrient elements Too
More informationUnit B: Cells and Systems
Unit B: Cells and Systems Topic 4: Fluid Movement in Cells The Cell Membrane A cell membrane allows some to enter or leave the cell, while stopping other substances. It is a selectively membrane. (A permeable
More informationABSORPTION OF WATER MODE OF WATER ABSORPTION ACTIVE AND PASSIVE ABSORPTION AND FACTORS AFFECTING ABSORPTION.
ABSORPTION OF WATER MODE OF WATER ABSORPTION ACTIVE AND PASSIVE ABSORPTION AND FACTORS AFFECTING ABSORPTION. PRELUDE OF WATER POTENTIAL Most organisms are comprised of at least 70% or more water. Some
More informationPlants. Plant Form and Function. Tissue Systems 6/4/2012. Chapter 17. Herbaceous (nonwoody) Woody. Flowering plants can be divided into two groups:
Monocots Dicots 6/4/2012 Plants Plant Form and Function Chapter 17 Herbaceous (nonwoody) In temperate climates, aerial parts die back Woody In temperate climates, aerial parts persist The Plant Body Functions
More informationRuBP has 5 carbons and is regenerated in the Calvin cycle. In the Calvin cycle, carbon is conserved, ATP is used and NADPH is used.
Carbon Reactions: CO 2 is fixed by Rubisco located in the stroma. The molecule that is carboxylated is RuBP. RuBP has 5 carbons and is regenerated in the Calvin cycle. In the Calvin cycle, carbon is conserved,
More informationcytosol stroma Photorespiration: Ribulose bisphosphate carboxylase/oxygenase (Rubisco) Ribulose bisphosphate carboxylase/oxygenase (Rubisco)
Carbon Reactions: CO 2 is fixed by Rubisco located in the stroma. The molecule that is carboxylated is RuBP. RuBP has 5 carbons and is regenerated in the Calvin cycle. In the Calvin cycle, carbon is conserved,
More informationExchanging Materials in Plants
Exchanging Materials in Plants 1 of 23 Boardworks Ltd 2012 2 of 23 Boardworks Ltd 2012 3 of 23 Boardworks Ltd 2012 All living things need to exchange materials Plants need to obtain certain materials for
More informationName AP Biology - Lab 06
LAB 06 Transpiration Objectives: To understand how water moves from roots to leaves in terms of the physical/chemical properties of water and the forces provided by differences in water potential. To test
More informationPlant Organs. Roots & Stems
Plant Organs Roots & Stems I. Roots A. F(x)s = grow underground 1. Absorb water & nutrients from soil 2. Anchor plant in the soil 3. Make hormones important for growth & development I. Roots B. Structure
More informationProgetto cofinanziato dal programma LIFE+ Department of Agricultural Engineering and Agronomy - University of Naples Federico II
Water in Plants Progetto cofinanziato dal programma LIFE+ Stefania De Pascale Stefania De Pascale Department of Agricultural Engineering and Agronomy - University of Naples Federico II Why do plants need
More informationBio 10 Lecture Notes 7: Plant Diversity, Structure and Function SRJC
Physiology study of the adaptations by which organisms function in their environ. 1.) Plants, Tissues and Function Plant types and their evolution Terrestrial plants evolved from aquatic green algae There
More informationPage 1. Gross Anatomy of a typical plant (Angiosperm = Flowering Plant): Gross Anatomy of a typical plant (Angiosperm = Flowering Plant):
Chapter 43: Plant Form and Function Gross Anatomy of a typical plant (Angiosperm = Flowering Plant): Root System Anchor plant Absorb water / nutrients Store surplus sugars Transport materials from / to
More informationChapter 30: Plant Nutrition & Transport
Chapter 30: Plant Nutrition & Transport Carnivorous Plants Capture animals to supplement their nutrient intake Venus flytrap lures insects with sugary bait; closes on victim Cobra lily lures insects down
More informationBiology 2 Chapter 21 Review
Biology 2 Chapter 21 Review Multiple Choice Identify the choice that best completes the statement or answers the question. 1. Which of the following is not a tissue system of vascular plants? a. vascular
More informationB2 Quick Revision Questions. B2 for AQA GCSE examination 2018 onwards
B2 Quick Revision Questions Question 1 Which raw materials are used in photosynthesis and what are the products of the reaction? Answer 1 Carbon dioxide Water Glucose Oxygen Question 2 What type of reaction
More informationARIF ULLAH ITHS
SUMMARY Feature of xylem and phloem and their role. Distribution of xylem and phloem (vascular bundles) in stem and root of dicotyledonous plants. Transport of water from the root to the atmosphere through
More informationChapter 32 Plant Nutrition and Transport
Chapter 32 Plant Nutrition and Transport PowerPoint Lectures for Biology: Concepts & Connections, Sixth Edition Campbell, Reece, Taylor, Simon, and Dickey Copyright 2009 Pearson Education, Inc. Lecture
More information8 ABSORPTION, TRANSPORT AND WATER LOSS (TRANSPIRATION) IN PLANTS Water is the most important component of living cells. It enters the plants through roots and then moves to other parts. It is also lost
More informationResource Acquisition and Transport in Vascular Plants
36 Resource Acquisition and Transport in Vascular Plants KEY CONC EPTS 36.1 Adaptations for acquiring resources were key steps in the evolution of vascular plants 36.2 Different mechanisms transport substances
More information2018 Version. Photosynthesis Junior Science
2018 Version Photosynthesis Junior Science 1 Plants fill the role of Producers in a community Plants are special because they have leaves and are able to produce their own food by the process of photosynthesis
More informationStomata and water fluxes through plants
Stomata and water fluxes through plants Bill Davies The Lancaster Environment Centre, UK Summary Stomata and responses to the environment Conductance, a function of frequency and aperture Measuring/estimating
More informationBIOL 1030 Introduction to Biology: Organismal Biology. Fall 2009 Sections B & D. Steve Thompson:
BIOL 1030 Introduction to Biology: Organismal Biology. Fall 2009 Sections B & D Steve Thompson: stthompson@valdosta.edu http://www.bioinfo4u.net 1 How plants get the stuff they need Feed me... feed me...
More informationTwo major categories. BIOLOGY 189 Fundamentals of Life Sciences. Spring 2004 Plant Structure and Function. Plant Structure and Function
BIOLOGY 189 Fundamentals of Life Sciences Spring 2004 Plant Structure and Function 18 16 14 12 10 8 6 Examination #1 Class Average: 33/60 for 55% 4 Chapters 31-32 32 2 0 6 10 15 20 25 30 35 40 45 50 55
More informationWater Relations in Viticulture BRIANNA HOGE AND JIM KAMAS
Water Relations in Viticulture BRIANNA HOGE AND JIM KAMAS Overview Introduction Important Concepts for Understanding water Movement through Vines Osmosis Water Potential Cell Expansion and the Acid Growth
More informationBRAINSTORM ACTIVITY What do we depend on plants for?
SBI3U1 BRAINSTORM ACTIVITY What do we depend on plants for? STOP! THINK! PAIR! SHARE! With your partner, brainstorm 5 significant uses of plants. Write them down. Now share your ideas with the rest of
More informationTranspiration Lab. Introduction
Transpiration Lab Name Introduction The amount of water needed daily by plants for the growth and maintenance of tissues is small in comparison to the amount that is lost through the process of transpiration
More informationBiology. Chapter 26. Plant Nutrition and Transport. Concepts and Applications 9e Starr Evers Starr. Cengage Learning 2015
Biology Concepts and Applications 9e Starr Evers Starr Chapter 26 Plant Nutrition and Transport 26.1 Where Do Plants Get the Nutrients They Require? A plant needs sixteen elements to survive and grow Macronutrients:
More informationLaboratory 9: Transpiration
Laboratory 9: Transpiration YOU MUST KNOW The role of water potential and transpiration in the movement of water from roots to leaves. The effects of various environmental conditions on the rate of transpiration.
More informationBIOL 221 Concepts of Botany Water Relations, Osmosis and Transpiration:
BIOL 221 Concepts of Botany Topic 12: Water Relations, Osmosis and Transpiration: A. Water Relations Water plays a critical role in plants. Water is the universal solvent that allows biochemical reactions
More informationBiology 102 Environmental Biology Plants/Agriculture Unit Page 1 of 5
Biology 102 Environmental Biology Plants/Agriculture Unit Page 1 of 5 Based on Mader, Sylvia S. 1996. Biology - 5th Ed. WCB and Cox, G.W. 1997. Conservation Biology - 2nd ed. WCB and Levine, J.S. and K.R.
More informationTransport of Water and Solutes in Plants
Transport of Water and Solutes in Plants Bởi: OpenStaxCollege The structure of plant roots, stems, and leaves facilitates the transport of water, nutrients, and photosynthates throughout the plant. The
More informationPlant Structure and Growth
Plant Structure and Growth A. Flowering Plant Parts: The flowering plants or are the most diverse group of plants. They are divided into 2 classes and. Examples of monocots: Examples of dicots: The morphology
More informationEarth Has a Rich Diversity of Plants. Plant Structure, Nutrition, and Transport. Angiosperms: Monocots and Dicots. Angiosperms: Dicots
Plant Structure, Nutrition, and Transport Earth Has a Rich Diversity of Plants There are over 280,000 different plant species organized into four major groups: bryophytes (mosses), seedless vascular plants,
More informationSave My Exams! The Home of Revision For more awesome GCSE and A level resources, visit us at Transport in plants
Transport in plants Question Paper 1 Level A Level Subject Biology Exam Board OCR Topic Exchange and transport Sub-Topic Transport in plants Booklet Question Paper 1 Time Allowed: 75 minutes Score: / 62
More informationPhotosynthesis. Water is one of the raw materials needed for photosynthesis When water is in short supply the rate of photosynthesis is limited
Photosynthesis Water is one of the raw materials needed for photosynthesis When water is in short supply the rate of photosynthesis is limited Support Water is needed to ensure plant cells remain turgid
More information