Question

In $\mathop C\nolimits_4$ plants, the bundle sheath cells
A. Thin wall for gaseous exchange
B. Rich PEP carboxylase
C. High density of chloroplasts
D. Large intercellular spaces

Answer 1

The $\mathop C\nolimits_4$ pathway requires the presence of two types of cells namely mesophyll cells and bundle sheath cells. The particularly large cells around the vascular bundles of $\mathop C\nolimits_4$ plants are called bundle sheath cells. These cells may form several layers around the vascular bundles. This special anatomy of $\mathop C\nolimits_4$ leaves is called Kranz anatomy. ‘Kranz’ means wreath and is a reflection of the arrangement of cells.

Complete answer:

Thin walls for gaseous exchange: These cells have walls that are impervious for gaseous exchange but the walls are thick. If the walls are thin the gaseous exchange will occur but these cells do not involve gaseous exchange. So the option is not correct.
Rich PEP carboxylase: These cells are rich in Rubisco, the enzyme which has affinity for both carbon dioxide and oxygen but lacks PEP( phosphoenolpyruvate) carboxylase. Hence this option is not correct
High density of chloroplast: These cells are specialised for photosynthesis the plant performs its own food due to this pathway so they have more chlorophyll which means more chloroplast. Hence this option is not correct.
Large intercellular spaces: These cells have no intercellular spaces between them . These cells are present so closely that bundle sheath cells and mesophyll cells have no space between them. So this option is also incorrect.

Our required answer is C high density of chloroplast.

Note:
Bundle sheath cells have a large number of chloroplasts. They do not possess grana. They have thick walls that are impervious to gaseous exchange and have no intercellular spaces. So $\mathop C\nolimits_4$ plants can tolerate high temperatures. They show a response to high light intensities due to presence of these cells.