Exchanging Materials in Plants

Similar documents
23 4 Leaves Slide 1 of 32

2018 Version. Photosynthesis Junior Science

Biology. Slide 1 of 32. End Show. Copyright Pearson Prentice Hall

Transport, Storage and Gas Exchange in Flowering Plants

Transportation in Plants

Unit B: Cells and Systems

Photosynthesis. Water is one of the raw materials needed for photosynthesis When water is in short supply the rate of photosynthesis is limited

The three principal organs of seed plants are roots, stems, and leaves.

Topic 10: Transpiration, transport and support in plants

23 1 Specialized Tissues in Plants Slide 1 of 34

Organization of Plant Tissue. Wednesday, March 2, 16

Transport of substances in plants

Chapter C3: Multicellular Organisms Plants

Transport in Plant (IGCSE Biology Syllabus )

OCR (A) Biology A-level

Transport in Vascular Plants

Introduction to Plant Transport

CHAPTER TRANSPORT

Cells, Tissues, and Systems

Organs and leaf structure

Chapter 23 Notes Roots Stems Leaves

What are plants used for?

2 sentences. Why your first answer was wrong Why your new answer is correct

Biology 2 Chapter 21 Review

Plant Structure and Function. Roots, Stems, and Leaves

Bio Factsheet. Transport in Plants. Number 342

The Flowering Plant and Photosynthesis

Tissues and organs PART 2

(A) Buds (B) Lateral meristem (C) Apical meristem (D) Stem (E) Trichomes

PLANT SCIENCE. 9.2 Transport in Angiospermophytes

Introduction to Plant Transport

Plants and Photosynthesis

AP Biology Transpiration and Stomata

Earth Has a Rich Diversity of Plants. Plant Structure, Nutrition, and Transport. Angiosperms: Monocots and Dicots. Angiosperms: Dicots

of water unless it is moving via the symplast Water moves into the xylem for transport up the plant Water that does not cross the

[transport] in plants

Simple Leaf Compound Leaf

Chapter 35 Regulation and Transport in Plants

Jeddah Knowledge International School

Recap. Waxy layer which protects the plant & conserves water. Contains chloroplasts: Specialized for light absorption.

Roots anchor plants and absorb mineral nutrients from soil.

IGCSE Double Award Extended Coordinated Science

Roots, Shoots & Leaves

Plants Notes. Plant Behavior Phototropism - growing towards light

Non Permanent Tissues - Meristematic Tissue

PLANT TISSUES 12 MARCH 2014

Chapter 36~ Transport in Plants

Introduction to Plants

PLANT STRUCTURE AND FUNCTION Read pages Re-read and then complete the questions below.

Plant Anatomy: roots, stems and leaves

Photosynthesis. 1. What raw materials are used by producers for photosynthesis?

DAY 1 Leaf Structure

in 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

Root cross-section (Ranunculus)

Chapter 8: Plant Organs: Leaves

Chapter 21: Plant Structure & Function

Describe plant meristems. Where are they located? perpetually embryonic cells found at tips of roots and shoots (apical vs.

Discuss: March 15, Plants part 2.notebook NITROGEN CYCLE. Animated Nitrogen Cycle. Jan 3 5:33 PM. Jan 3 8:20 PM. Carbon Cycle BrainPOP

LEAF STRUCTURE & FUNCTION

B2 Quick Revision Questions. B2 for AQA GCSE examination 2018 onwards

Two major categories. BIOLOGY 189 Fundamentals of Life Sciences. Spring 2004 Plant Structure and Function. Plant Structure and Function

NOTES: CH 36 - Transport in Plants

Tree Physiology. Sara Rose

Preview from Notesale.co.uk Page 20 of 34

BRAINSTORM ACTIVITY What do we depend on plants for?

LEARNING OUTCOMES CCEA GCSE BIOLOGY: UNIT 2.1: Osmosis and Plant transport

fr>uafcji *> \E % jw r"'''f^,""'i;- ~^H^^

BioWash as an Adjuvant, Translocation Promoter, and Cationic Exchange Stimulator Overview of Processes within the Plant

Save My Exams! The Home of Revision For more awesome GCSE and A level resources, visit us at Transport in plants

Homework for Monday: Correct potometer questions Complete transport in plants worksheet

AP Biology Chapter 36

-Each asexual organs. -Anchors the plant -Absorbs water and minerals -Stores sugars and starches

Forms strands that conduct water, minerals, and organic compounds. Much of the inside of nonwoody parts of plants. Includes roots, stems, and leaves

Plant Structure and Growth

CROSS SECTION OF A LEAF INTRODUCTION

Stems and Transport in Vascular Plants. Herbaceous Stems. Herbaceous Dicot Stem 3/12/2012. Chapter 34. Basic Tissues in Herbaceous Stems.

Investigating Stomata

Introduction. Most land animals, including humans, depend on plants directly or indirectly for sustenance.

Haveouts Guided Notes Pen/pencil CAV Card DFAD

23 2 Roots Slide 2 of 36

BI 103: Leaves. Learning Objectives

Germinating sunflowers, turgor and nutation. From:

CELERY LAB - Structure and Function of a Plant

Plant Structure and Function (Ch. 23)

Plant Kingdom Introduction

Biology Slide 1 of 36

Plants absorb mineral ions from the soil through their... by a process called...

! Xylem - Chief conducting tissue for water and minerals absorbed by the roots.

Plants. Plant Form and Function. Tissue Systems 6/4/2012. Chapter 17. Herbaceous (nonwoody) Woody. Flowering plants can be divided into two groups:

Ch. 36 Transport in Vascular Plants

Structures of Seed Plants

Shoot System. Root System. below-ground organs (roots) Dermal Tissue. Ground Tissue. Vascular Tissue. above-ground organs (leaves, stems, flowers)

Plant Organs. Roots & Stems

Chapter 36: Transport in Vascular Plants - Pathways for Survival

Autotrophs/producers- make own energy through

Movement of water and solutes in plants Chapter 4 and 30

Page 1. Gross Anatomy of a typical plant (Angiosperm = Flowering Plant): Gross Anatomy of a typical plant (Angiosperm = Flowering Plant):

Plant Anatomy: roots, stems and leaves

thebiotutor. AS Biology OCR. Unit F211: Cells, Exchange & Transport. Module 2.3 Transport in Plants. Answers.

DAY 1 Photosynthesis. - Chemical reaction - Compared to respiration

Transcription:

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 healthy growth, including: sunlight water mineral ions oxygen carbon dioxide. Where do plants get these nutrients? Like all organisms, plants have to get materials for growth from their environment. Plants must then transport the nutrients to the part of the plant that needs them.

How are plants adapted for transport? 4 of 23 Boardworks Ltd 2012 The cell and tissue structures in different parts of the plant are adapted to allow transportation of essential materials. Leaves are entry and exit points for the gases needed by plants. Stems connect the roots to the leaves, flowers and fruits. They contain cells specially adapted for transportation of water, minerals and sugars. Roots absorb water and minerals from the soil.

5 of 23 Boardworks Ltd 2012

Roots and uptake 6 of 23 Boardworks Ltd 2012 Roots are adapted to obtain water and mineral ions. Roots are long and thin, and divide into many branches. This root network covers a large area in the soil. Near the growing tips of roots are root hair cells. These have projections that reach out between soil particles to increase the surface area for absorption. soil mineral ions and water molecules root hair cell

Which cells transport nutrients? 7 of 23 Boardworks Ltd 2012 Plants contain two types of cell adapted for transportation. Xylem cells transport water and minerals up the stem from the roots to the shoots and leaves. This transport occurs in one direction only. Phloem cells transport sugars produced in the leaves up and down the stem to growing and storage tissues. Both phloem and xylem form continuous systems connecting roots, stems and leaves. The phloem and xylem are arranged as vascular bundles.

Transporting water, mineral ions and sugar 8 of 23 Boardworks Ltd 2012

Demonstrate water movement 9 of 23 Boardworks Ltd 2012

10 of 23 Boardworks Ltd 2012

Exchange of gases in plants 11 of 23 Boardworks Ltd 2012 Plants use carbon dioxide and produce oxygen during photosynthesis. These gases move in and out of the leaves of plants by diffusion through the stomata. When the concentration of carbon dioxide inside the plant is low, it will diffuse in from the air, through pores in the leaves into the plant cells. If the concentration of oxygen is high inside the plant, it will diffuse from the plant cells through the pores and into the air.

Adaptations for gas exchange 12 of 23 Boardworks Ltd 2012 Leaves are adapted to increase the rate of diffusion of gases, and to reduce the rate of water loss by evaporation: A flat leaf shape increases the surface area for diffusion. Internal air spaces allow the gases to reach cells. A waterproof waxy cuticle reduces water loss. Thin leaves minimize the diffusion distance for gases. Guard cells control the opening and closing of the stomata to regulate how much water is lost through these holes.

How do gases enter and leave plants? 13 of 23 Boardworks Ltd 2012 Stomata are small holes, or pores, that can be found on the underside of leaves. A single hole is called a stoma. Each stoma is surrounded by two guard cells. When guard cells gain water, they curve outwards. This opens the stoma, allowing carbon dioxide in and oxygen out. Losing water causes the guard cells to come closer together, closing the stoma. This stops the movement of gases, but also prevents water loss.

Water and gas exchange in plants 14 of 23 Boardworks Ltd 2012

15 of 23 Boardworks Ltd 2012

What is transpiration? 16 of 23 Boardworks Ltd 2012 Transpiration is the loss of water from the leaves of a plant. Most of this occurs from the underside of a leaf, where the water vapour can leave through open stomata. In hot, dry and windy conditions, evaporation of water from plant leaves is more rapid. This loss of water at the leaf will cause more water to be taken up by the roots. However, if it cannot be replaced, the stomata will close to prevent wilting. Transpiration rates also vary naturally in response to environmental factors such as temperature and humidity.

Transpiration rates 17 of 23 Boardworks Ltd 2012

Why does transpiration vary? 18 of 23 Boardworks Ltd 2012

Transpiration true or false? 19 of 23 Boardworks Ltd 2012

20 of 23 Boardworks Ltd 2012

Glossary 21 of 23 Boardworks Ltd 2012

Anagrams 22 of 23 Boardworks Ltd 2012

Multiple-choice quiz 23 of 23 Boardworks Ltd 2012

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback