Question

Match the concepts of plant nutrition and transport. $$ \text {stomata} \quad \quad\quad\quad\quad \text {a. evaporation from plant parts} $$ $$ \text {nutrient} \quad \quad\quad\quad\quad \text {b. harvesting soil nutrients} $$ $$ \text {\(\operatorname{sink}\)} \quad \quad\quad\quad\quad \text {c. balance water loss with carbon dioxide requirements} $$ $$ \text {root system} \quad \quad\quad\quad\quad \text {d. cohesion in water transport} $$ $$ \text {hydrogen bonds} \quad \quad\quad\quad\quad \text {e. sugars unloaded from sieve tubes} $$ $$ \text {transpiration } \quad \quad\quad\quad\quad \text {f. organic compounds distributed through the plant body} $$ $$ \text { translocation} \quad \quad\quad\quad\quad \text {g. element with roles in metabolism that no other element can fulfill} $$

Short answer

Stomata-c, Nutrient-g, Sink-e, Root system-b, Hydrogen bonds-d, Transpiration-a, Translocation-f.

Step-by-step solution

Match 'stomata'

The stomata are small openings on the leaves and stems of plants. They play a crucial role in allowing gas exchange and balancing water loss with carbon dioxide requirements. Hence, 'stomata' match with option **c**.

Match 'nutrient'

A nutrient in this context refers to elements or compounds required by the plant for growth. These are typically harvested from the soil. Therefore, 'nutrient' matches with option **g**.

Match 'sink'

In plants, a 'sink' is a part where sugars and other organic compounds are unloaded from the phloem, primarily for storage or metabolism. Thus, 'sink' matches with option **e**.

Match 'root system'

The root system is primarily responsible for absorbing water and nutrients from the soil, which can be referred to as harvesting soil nutrients. Therefore, 'root system' matches with option **b**.

Match 'hydrogen bonds'

Hydrogen bonds occur between water molecules and are integral to the cohesion and adhesion involved in water transport through the plant. Hence, 'hydrogen bonds' match with option **d**.

Match 'transpiration'

Transpiration is the process involving the evaporation of water from plant parts, which is crucial for nutrient transport and cooling the plant. Thus, 'transpiration' matches with option **a**.

Match 'translocation'

Translocation refers to the movement of organic compounds like sugars through the plant's phloem system. Consequently, 'translocation' matches with option **f**.

Key concepts

stomata

Stomata are tiny openings found on the surface of leaves and stems. They play an essential role in regulating a plant's ability to exchange gases with the outside environment. Through these openings, plants take in carbon dioxide which is needed for photosynthesis and release oxygen. At the same time, water vapor escapes through stomata during a process called transpiration. This balancing act is crucial since excessive water loss can lead to dehydration, while inadequate carbon dioxide intake impacts photosynthesis.

• Help maintain internal moisture levels.
• Control gas exchange essential for photosynthesis.
• Can close to prevent water loss in dry conditions.

transpiration

Transpiration is the process of water movement through a plant and its evaporation from aerial parts such as leaves. This process begins when roots absorb water from the soil and transport it upwards to leaves and other plant parts. Once water reaches the leaves, it is lost to the atmosphere as vapor through stomata.

Transpiration serves several purposes:

• Helps in nutrient distribution from roots to leaves.
• Cools plants by releasing heat with evaporating water.
• Maintains plant turgidity which supports the plant structure.

translocation

Translocation in plants refers to the movement of nutrients, particularly the distribution of organic nutrients like sugars within the plant body. This process primarily occurs in the phloem, one of the vascular tissues in plants. Unlike transpiration, which only moves substances in one direction (upwards), translocation can shift organic compounds both upwards and downwards, depending on the plant's needs.

Phloem transports sugars from the leaves, where they are produced, to various parts of the plant. These sugars provide energy for growth and development or are stored for later use. Important aspects include:

• Moves sugars produced by photosynthesis.
• Provides energy to growing parts like fruits and seeds.
• Can transport hormones and signaling molecules.

root system

The root system of a plant is its anchor in the soil and is fundamental for water and nutrient uptake. Roots have specialized cells capable of absorbing minerals and water, drawing them from the surrounding earth. This harvested solution moves upwards to support various physiological processes in other parts of the plant.

The root system also stores energy reserves and anchors plants, providing stability and support as they grow. Key functions of the root system include:

• Nutrient absorption from soil.
• Storage of nutrients and carbohydrates.
• Supports plant in soil, preventing erosion.

hydrogen bonds

Hydrogen bonds are weak attractions that form between the slightly positive and slightly negative charges of polar molecules, such as water. In plants, they play a pivotal role in the cohesion and adhesion of water molecules. This is crucial for the process of water transport from roots to leaves.

Because of hydrogen bonds, water molecules stick together (cohesion) and to the walls of plant vessels (adhesion), aiding in the upward movement of water through the plant's vascular system. Key features of hydrogen bonds include:

• Provide strength and stability in water columns.
• Enable efficient water transport via xylem.
• Support nutrient mobility within the plant.

sinks

In the context of plants, a "sink" is a tissue or organ where sugars, primarily in the form of sucrose, are consumed or stored. Typically, sinks are areas of active growth or storage, like roots, fruits, or young leaves.

The concept of sinks is integral to understanding how plants allocate their energy and resources. Sinks can vary throughout a plant's life cycle, depending on developmental stages and environmental conditions. Important aspects of sinks include:

• Storage of surplus sugars for later use.
• Supplying energy to growing cells and tissues.
• Can change from source to sink roles based on plant needs.

nutrients

Nutrients are the essential elements and compounds that plants need to grow, reproduce, and complete their life cycles. Plants acquire these nutrients mainly from the soil, through water absorbed by the root system. Key nutrients include nitrogen, phosphorus, potassium, and trace elements like magnesium and iron.

Every nutrient fulfills a specific role in plant metabolism and structure, and deficiencies can adversely affect plant health and productivity. Key roles of nutrients include:

• Nitrogen for chlorophyll production and growth.
• Phosphorus for energy transfer and storage.
• Potassium for enzyme activation and osmoregulation.