9.1 Transport in the xylem of plants

The apparatus in the diagram was used to assess the effects of factors on transpiration rates.

[Source: Republished with permission of Springer-Verlag from Experimentelle Pflanzenphysiologie: Band 2, Peter Schopfer, 1st edition, 1st Jan 1989; permission conveyed through Copyright Clearance Center, Inc.]

Which factor would be a controlled variable in an experiment designed to assess the effects of temperature on transpiration rate?

A. The opening and closing of stomata

B. The intensity of light striking the plant

C. The height of the water in the reservoir

D. The evaporation of water from the leaves

The apparatus in the diagram was used to assess the effects of factors on transpiration rates.

[Source: Republished with permission of Springer-Verlag from Experimentelle Pflanzenphysiologie: Band 2, Peter Schopfer, 1st edition, 1st Jan 1989; permission conveyed through Copyright Clearance Center, Inc.]

Which factor would be a controlled variable in an experiment designed to assess the effects of temperature on transpiration rate?

A. The opening and closing of stomata

B. The intensity of light striking the plant

C. The height of the water in the reservoir

D. The evaporation of water from the leaves

Describe how changes in weather conditions affect the transport and loss of water in plants.

Describe how changes in weather conditions affect the transport and loss of water in plants.

Describe how changes in weather conditions affect the transport and loss of water in plants.

The image is a cross section through an Ammophila leaf, which grows on coastal sand dunes.

[Source: Charles Good: The Ohio State University at Lima]

What feature suggests that Ammophila is a xerophyte?

A. The leaf surface area is increased.

B. The rolled leaf reduces the upper epidermis area.

C. The rolled leaf protects the lower epidermis from the wind.

D. The lower epidermis can transpire more easily.

The image is a cross section through an Ammophila leaf, which grows on coastal sand dunes.

[Source: Charles Good: The Ohio State University at Lima]

What feature suggests that Ammophila is a xerophyte?

A. The leaf surface area is increased.

B. The rolled leaf reduces the upper epidermis area.

C. The rolled leaf protects the lower epidermis from the wind.

D. The lower epidermis can transpire more easily.

Label with a C the tissue where organic compounds are transported.

Label with a C the tissue where organic compounds are transported.

Label with a C the tissue where organic compounds are transported.

Label with an R the tissue where the red dye would appear.

Label with an R the tissue where the red dye would appear.

Label with an R the tissue where the red dye would appear.

In the micrograph of a plant stem, which letter indicates the xylem?

[Source: adapted from Kelvinsong/https://creativecommons.org/licenses/by/3.0/deed.en]

In the micrograph of a plant stem, which letter indicates the xylem?

[Source: adapted from Kelvinsong/https://creativecommons.org/licenses/by/3.0/deed.en]

The apparatus is set up to measure the rate of transpiration. As transpiration occurs from the leafy shoot, water is drawn through the apparatus and is measured by timing the movement of the air bubble along the capillary tube.

Which variable(s) must be controlled if transpiration rates are compared in different plant species?

I.   Total leaf surface area

II.  Volume of water in the reservoir

III. Room temperature

A.  I only

B.  III only

C.  I and III only

D.  I, II and III

The apparatus is set up to measure the rate of transpiration. As transpiration occurs from the leafy shoot, water is drawn through the apparatus and is measured by timing the movement of the air bubble along the capillary tube.

Which variable(s) must be controlled if transpiration rates are compared in different plant species?

I.   Total leaf surface area

II.  Volume of water in the reservoir

III. Room temperature

A.  I only

B.  III only

C.  I and III only

D.  I, II and III

Evaluate the limitations of using a potometer in the investigation you suggested in (a).

Evaluate the limitations of using a potometer in the investigation you suggested in (a).

Evaluate the limitations of using a potometer in the investigation you suggested in (a).

The mean stomatal density for the lower epidermis of P. decandrum was around 600 per mm². Predict how the stomatal density for the upper epidermis would compare.

The mean stomatal density for the lower epidermis of P. decandrum was around 600 per mm². Predict how the stomatal density for the upper epidermis would compare.

The mean stomatal density for the lower epidermis of P. decandrum was around 600 per mm². Predict how the stomatal density for the upper epidermis would compare.

Describe the processes that cause water to move from the roots of plants to their leaves.

Describe the processes that cause water to move from the roots of plants to their leaves.

Describe the processes that cause water to move from the roots of plants to their leaves.

Distinguish between the xylem and phloem of plants.

Distinguish between the xylem and phloem of plants.

Distinguish between the xylem and phloem of plants.

The stem of a young plant is cut through and the cut end is immersed in water containing a red dye. The plant continues to transpire as normal. In what region of the stem would the red colour be visible soon after immersion?

_{[Source: Berkshire Community College Bioscience Image Library, 2014. Herbaceous Dicot Stem: Vascular Bundles Young
Helianthus. [image online] Available at: https://www.flickr.com/photos/146824358@N03/36834307513 [Accessed
4 October 2021]. Public domain.]}

The stem of a young plant is cut through and the cut end is immersed in water containing a red dye. The plant continues to transpire as normal. In what region of the stem would the red colour be visible soon after immersion?

_{[Source: Berkshire Community College Bioscience Image Library, 2014. Herbaceous Dicot Stem: Vascular Bundles Young
Helianthus. [image online] Available at: https://www.flickr.com/photos/146824358@N03/36834307513 [Accessed
4 October 2021]. Public domain.]}