Log in
HomeClass Notes1,200,000AU40,000

BIOL1002 Lecture Notes - Lecture 2: Water Potential, Root Pressure, Xylem

56 views3 pages
magentasnake323
6 Nov 2018
School
University of Newcastle
Department
Biological Sciences
Course
BIOL1002
Professor
Liz Burne

For unlimited access to Class Notes, a Class+ subscription is required.

Document Summary

Pla(cid:374)t (cid:454)(cid:455)le(cid:373) stru(cid:272)ture is opti(cid:373)ised to (cid:272)at(cid:272)h a (cid:862)free ride(cid:863) o(cid:374) the (cid:449)ater (cid:272)(cid:455)(cid:272)le. A(cid:374)(cid:455) theor(cid:455) of water transport must account for forces required to raise water to the tops of the tallest trees (100 m). That is, 1. 0 mpa gravity plus 1. 0 mpa frictional drag. Water could be propelled through the plant by either: a push from below (generated in the roots) or a pull from above (generated in the leaves). Os(cid:373)oti(cid:272) a(cid:272)(cid:272)u(cid:373)ulatio(cid:374) of (cid:449)ater i(cid:374) the (cid:454)(cid:455)le(cid:373) of roots can generates positive hydrostatic pressures of up to 0. 2 to 0. 4 mpa. Thus a push from below is not adequate to meet the pressure requirements. Transpiration is water loss via evaporation from the aerial parts of a plant. Transpiration occurs when: stomata are open, the air surrounding leaves is drier than the air inside leaves. Transpiration is the primary driving force of water movement through xylem tissue.

Get access

Grade+20% off
$8 USD/m$10 USD/m
Billed $96 USD annually
Grade+
Homework Help
Study Guides
Textbook Solutions
Class Notes
Textbook Notes
Booster Class
40 Verified Answers
Class+
$8 USD/m
Billed $96 USD annually
Class+
Homework Help
Study Guides
Textbook Solutions
Class Notes
Textbook Notes
Booster Class
30 Verified Answers

Related Documents

BIOL 1010 Lecture Notes - Lecture 68: Root Pressure, Transpiration, Stoma
erinchimpanzee657
BIOL 1030 Lecture Notes - Lecture 32: Root Pressure, Tracheid, Water Potential
grayrabbit360
BIO203H5 Chapter Notes - Chapter 3: Water Potential, Potential Gradient, Concentration Cell
skykoala223

Related Questions

11. As energy flows through the food web in an ecosystem, the amount of energy that is transferred from one trophic level to the next trophic level increases. stays the same. decreases. may increase or decrease, depending upon the system.

12. Autotrophs are organisms that obtain energy by breaking down tissues of organisms that have died. harness external energy sources to produce complex chemical compounds. depend directly on primary producers for their energy and nutrients. eat other autotrophs to obtain energy.

13. Which of the following gives the correct order for energy flow through an ecosystem? primary producers → secondary producers → tertiary producers primary consumers → primary producers → secondary producers secondary consumers → primary consumers → primary producers primary producers → primary consumers → secondary consumers

14. Which one of the following aspects of plant biology is not directly involved in maintaining an adequate supply of water for the entire plant? phloem roots xylem transpiration pull

15. Which structure(s) do most plants use to acquire the energy that they need for cellular processes? the roots the leaves the stem