The cohesion-tension theory explains water movement.

Slides:

Advertisements

Similar presentations

Xylem: Evapo-transpiration

Advertisements

Transportation of Water

Transport in Vascular Plants

Transpiration in Plants

Transport in Plants.

Transport in Plants Three levels: at cellular level

Water and dissolved minerals move through xylem.

Transport in Plants. Review of Diffusion Diffusion: natural tendency for particles to move from areas of high concentration to low concentration (concentration.

Transport in Plants Section 3.4 Unit C.

Copyright Pearson Prentice Hall

21.1 Plant Cells and Tissues TEKS 5B, 10B, 10C The student is expected to: 4B investigate and explain cellular processes, including homeostasis, energy.

Plant Tissues and The Vascular System Interest Grabber Let the Water Flow Recall that vascular tissue transports water and nutrients throughout a plant.

What gets transported throughout the plant?  Water  Minerals  Sugar.

Plant Transport Systems Honors Biology Chapter 7 p Honors Biology Chapter 7 p

KEY CONCEPT Plants have specialized cells and tissue systems.

9.2 Plant Transport Learning Targets: Explain the process of mineral ion absorption from the soil into roots. Explain how water is carried by the transpiration.

Transport in Vascular Plants Chapter 36. Review: Cell Transport Passive transport: – Diffusion across membrane with concentration gradient, no energy.

B5: Transportation Transport in Plants.

Plant Structure Growth & Transport

Water Transport in Plants. Getting water to the leaves The leaves need the water to perform photosynthesis without water no photosynthesis. Without photosynthesis.

Sugar and Water Movement in Plants

Cohesion and Adhesion Root pressure  Transpiration: evaporation from the leaves creates a pull that draws water up through the stem.

Chapter 36 Notes Transport in Plants. Concept 36.1.

SECTION 13.4: TRANSPORT IN PLANTS

9.2 - Transport in Angiospermophytes

Review What two forces are responsible for 90% of the upward flow of water through a plant Review What is the hypothesis that explains the movement of.

21.1 Plant Cells and Tissues TEKS 5B, 10B, 10C KEY CONCEPT Plants have specialized cells and tissue systems.

Plant Structure Transport

The Four Basic Parts of Plants

Stems The plants highway of life!. The Function of Stems Provide support to plant –Withstand the forces of gravity Transport water from roots to shoots.

Transport in Vascular Plants. Transport in Plants Overview  movement of materials from one part of a plant to another  involves 2 specialized tissues:

Lesson Overview 23.5 Transport in Plants.

21.2 The Vascular System TEKS 4B, 5B, 10B, 10C The student is expected to: 4B investigate and explain cellular processes, including homeostasis, energy.

Plant Structure Roots Stems Leaves. Plant Organs Roots Stems Leaves.

Plant Transport Chapter 36. What you need to know! The function of xylem and phloem tissue The specific functions of tracheids, vessels, sieve-tube elements,

9.2 Transport in angiosperms. STARTER: What’s happenning here?

KEY CONCEPT Plants have specialized cells and tissue systems.

KEY CONCEPT Plants have specialized cells and tissue systems.

The Vascular System.

Root hair cells Water is absorbed from soil into root hair cells Have high surface area for absorption of ions and osmosis High concentration of dissolved.

What two types of tissues make up the vascular system in plants?

Water and dissolved minerals move through xylem.

Chapter 36 Notes Transport in Plants.

Plant Organs Stems: Structure & Function Transport in Plants

cross-section of a fern stem

Plant Transport Chapter 12.5.

Transport in Vascular Plants

Chap 23: Plants Part 5: Water Transport.

Transport in Plants.

Bellwork: If a plant’s stomata close on a hot dry day, how could this affect the rate of photosynthesis?

Chapter 9 Water in Plants I. Molecular Movement A. Diffusion

Transport in Plants Chapter 14.

Water and dissolved minerals move through xylem.

Water and dissolved minerals move through xylem.

HOW IN THE WORLD??? Is there Transport in Plants

Water and dissolved minerals move through xylem.

Water and dissolved minerals move through xylem.

Transport in Plants.

Copyright Pearson Prentice Hall

Lesson Overview 23.5 Transport in Plants.

Water and dissolved minerals move through xylem.

Chapter 25 Images for Students Title

23-5 Transport in Plants p685.

Water and dissolved minerals move through xylem.

Transport in Vascular Tissue

Transport in Vascular Plants

Water and dissolved minerals move through xylem.

Transportation in Plants

Water and dissolved minerals move through xylem.

Water and dissolved minerals move through xylem.

Presentation transcript:

KEY CONCEPT The vascular system allows for the transport of water, minerals, and sugars.

The cohesion-tension theory explains water movement. Plants passively transport water through the xylem. Cohesion is the tendency of water molecules to bond with each other. Adhesion is the tendency of water molecules to bond with other substances.

Water travels from roots to the top of trees. absorption occurs at roots cohesion and adhesion in xylem transpiration at leaves

Transpiration is the loss of water vapor through leaves. water vapor exits leaf stomata helps pull water to the top branches

The Pressure-flow model explains sugar movement. plants actively transport sugar from the source sugar flows to the sink due to pressure differences sugars phloem xylem water Water moves from the xylem into the phloem by osmosis, due to the higher concentration of the sugars in the phloem. The water flow helps move sugars through the phloem. 2 Sugars move from their source, such as photosynthesizing leaves, into the phloem. 1 The sugars move into the sink, such as root or fruit, where the are stored. 3

Source: any part of the plant that has a high concentration of sugar. Pressure Flow Model Source: any part of the plant that has a high concentration of sugar. Sink: Part of the plant using or storing sugar Growing shoots and stems Fruit Storage roots