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Test: Transport in Plants - Grade 11 MCQ


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25 Questions MCQ Test - Test: Transport in Plants

Test: Transport in Plants for Grade 11 2024 is part of Grade 11 preparation. The Test: Transport in Plants questions and answers have been prepared according to the Grade 11 exam syllabus.The Test: Transport in Plants MCQs are made for Grade 11 2024 Exam. Find important definitions, questions, notes, meanings, examples, exercises, MCQs and online tests for Test: Transport in Plants below.
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Test: Transport in Plants - Question 1

A concept fundamental to understanding water movement is called

Detailed Solution for Test: Transport in Plants - Question 1

Plant-water relations, an understanding of certainstandard terms is necessary. Water potential (Ψw)(Ψw) is a concept fundamental to understand water movement. Solute potential(Ψs)(Ψs) and pressure potential (Ψp)(Ψp) are the two main components that determine water potential.

Test: Transport in Plants - Question 2

Transport over longer distances proceeds through the vascular system

Detailed Solution for Test: Transport in Plants - Question 2

Transport over longer distances proceeds through the vascular system(the xylem and the phloem) and is called translocation.

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Test: Transport in Plants - Question 3

Which part of the plant under goes transpiration?

Detailed Solution for Test: Transport in Plants - Question 3

Terrestrial plants take up huge amount water daily but most of it is lost to the air through evaporation from the leaves, i.e., transpiration.

Test: Transport in Plants - Question 4

Organic and mineral nutrients transported by

Detailed Solution for Test: Transport in Plants - Question 4

An important aspect that needs to be considered is the direction of transport organic and mineral nutrients however, undergo multidirectional transport.

Test: Transport in Plants - Question 5

In plant cell, the cytoplasm of the adjacent cells are connected through bridges called

Detailed Solution for Test: Transport in Plants - Question 5

The cytoplasm of two adjacent cells are connected through a bridge plasmodesmata. Movement of substance in plants takes place through thisplasmodesmata.

Test: Transport in Plants - Question 6

Proteins that form huge pores in the membrane of the certain organelles and bacteria are called as

Detailed Solution for Test: Transport in Plants - Question 6

The porinsare proteins that form huge pores in the outer membranes of the plastids, mitochondria and some bacteria allowing molecules up to the size of small proteins to pass through.

Test: Transport in Plants - Question 7

Which of the following has highest water potential?

Detailed Solution for Test: Transport in Plants - Question 7

Distilled water do not contain any kind of salt in it so its water potential is 0. Addition of solute results into further decrease in water potential in negative term.

Test: Transport in Plants - Question 8

A cell dipped in 0.5 M sucrose has no effect. It is dipped in 0.5 M NaCl, the cell will

Detailed Solution for Test: Transport in Plants - Question 8

A cell dipped in 0.5 M sucrose has no effect due to osmosis as concentration of sucrose is more of equal to cytoplasm but 0.5 M NaCl cause exosmosis that leads to plasmolysis.

Test: Transport in Plants - Question 9

Mutual attraction between water molecules

Detailed Solution for Test: Transport in Plants - Question 9

The transpiration driven ascent of xylem sap depends mainly on the physical properties of water. Cohesion– mutual attraction between water molecules.

Test: Transport in Plants - Question 10

Solute potential of a solution is always

Detailed Solution for Test: Transport in Plants - Question 10

Solute potential of a solution is always less than 0 as solute potential of distilled water is 0 and addition of solute decrease the solute potential.

Test: Transport in Plants - Question 11

A cell immersed in a solution increase in volume. The solution is

Detailed Solution for Test: Transport in Plants - Question 11

The behaviour of the plant cells (or tissues) withregard to water movement depends on thesurrounding solution. If the external solution is more dilute than the cytoplasm, it is hypotonic Cells swell in hypotonic solutions.

Test: Transport in Plants - Question 12

The component that is essential to perform all physiological activities of the plant is

Detailed Solution for Test: Transport in Plants - Question 12

Water is essential for all physiological activities of the plant and plays avery important role in all living organisms. It provides the mediuminwhich most substances are dissolved.

Test: Transport in Plants - Question 13

A cell is plasmolysed after being kept in hypertonic solution. What will be present between cell wall  and plasmalemma ?

Detailed Solution for Test: Transport in Plants - Question 13

The cell wall is nonliving and cannot regulate the entry and exit of solute or solvent molecules. When a cell is kept in hypertonic solution, it readily crosses the cell wall and fills the space between the cell wall and cell membrane. This hypertonic solution in direct contact with the cell membrane causes plasmolysis and extracts water from the cytoplasm of the cell.
So, the correct answer is option B.

Test: Transport in Plants - Question 14

Rupture and fractionalization of water column present in treachery elements does not occur during ascent of sap due to

Detailed Solution for Test: Transport in Plants - Question 14

Transpirational or gravitational pull exert strain so they are factors that can cause rupture of the column. 

Lignified walls are only present for structural support.

Cohesion ( attraction of water molecules towards each other) and adhesion (attraction of water molecules and the walls of the tube ) is the reason why  the column doesn't break as these attractive forces overcome the strain developed by Transpiration pull. 

So the correct answer is 'Cohesion and adhesion'.

Test: Transport in Plants - Question 15

The instrument used for measuring rate of transpiration is

Detailed Solution for Test: Transport in Plants - Question 15

Potometer is used for measuring rate of transpiration in plant. Loss of water in form of water vapour is called transpiration.

Test: Transport in Plants - Question 16

The expulsion of pure water from a solution through a semi permeable membrane under the influence of pressure higher than the osmotic pressure is known as

Detailed Solution for Test: Transport in Plants - Question 16

Reverseosmosis is the movement of pure water form a solution through a semi permeable membrane under the influence of pressure higher than the osmotic pressure. This process is used to obtain drinking water from salty water.

Test: Transport in Plants - Question 17

ψp denotes to

Detailed Solution for Test: Transport in Plants - Question 17

Pressure potential is usually positive, though in plants negative potential or tension inthe water column in the xylem plays a major role in water transport up a stem. Pressure potential is denoted as ψp

Test: Transport in Plants - Question 18

Select the correct equation from the following

Detailed Solution for Test: Transport in Plants - Question 18

Diffusion pressure deficit is equal to osmotic pressure minus water potential. Higher the DPD more faster osmosis will occur.(DPD = OP – WP).

Test: Transport in Plants - Question 19

Select the correct equation from the following

Detailed Solution for Test: Transport in Plants - Question 19

Water potential of a cell is affected by both solute and pressure potential. The relationship between them is as follows: ψw=Ψs+Ψp

Test: Transport in Plants - Question 20

The system of adjacent cell walls that is continuousthroughout the plant is called as

Detailed Solution for Test: Transport in Plants - Question 20

The apoplastis the system of adjacent cell walls that iscontinuousthroughout the plant, except at the casparianstrips of the endodermis in the roots. The apoplastic movement of water occurs exclusively through the intercellular spaces and the walls of the cells.

Test: Transport in Plants - Question 21

Rate of transpiration is highest when

Detailed Solution for Test: Transport in Plants - Question 21

Rate of transpiration is influenced by wind speed, availability of water and temperature. Rate of transpiration is highest when soil is wet and air is dry.

Test: Transport in Plants - Question 22

A sudden increase in CO2 concentration around a leaf will cause

Detailed Solution for Test: Transport in Plants - Question 22

A sudden increase in carbon dioxide gas concentration around a leaf will cause decrease in transpiration due to closure of stomata.

Test: Transport in Plants - Question 23

Pinus seeds cannot germinate without

Detailed Solution for Test: Transport in Plants - Question 23

The fungus provides minerals and water to the roots, inturn the roots provide sugars and N-containing compounds to themycorrhizae. Some plants have an obligate association with themycorrhizae

Test: Transport in Plants - Question 24

A and B are contiguous cells. A has OP = 10 atm and TP = 7atm, B has OP = 8atm, TP = 3 atm, DPD = 5 atm. The result would be

Detailed Solution for Test: Transport in Plants - Question 24

Two cells close to each other are called contiguous cells. Movement of water from one cell to other depends upon Diffusiion pressure deficit (DPD). DPD depends upon osmotic pressure and water pressure. So, movement of water from A to B will take place.

Test: Transport in Plants - Question 25

Which one is not show by plasmolysis

Detailed Solution for Test: Transport in Plants - Question 25

Plasmolysis is the shrinking of cell membrane due to exosmosis. Plasmolysis shows that cell membrane is semipermeable and elastic but do not show that cell wall is semipermeable.

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