Photo AI

1. Name the part of the body which releases antidiuretic hormone (ADH) into the blood - AQA - A-Level Biology - Question 9 - 2022 - Paper 1

Question icon

Question 9

1.-Name-the-part-of-the-body-which-releases-antidiuretic-hormone-(ADH)-into-the-blood-AQA-A-Level Biology-Question 9-2022-Paper 1.png

1. Name the part of the body which releases antidiuretic hormone (ADH) into the blood. 2. Alcohol decreases the release of ADH into the blood. Suggest two signs or ... show full transcript

Worked Solution & Example Answer:1. Name the part of the body which releases antidiuretic hormone (ADH) into the blood - AQA - A-Level Biology - Question 9 - 2022 - Paper 1

Step 1

Name the part of the body which releases antidiuretic hormone (ADH) into the blood.

96%

114 rated

Answer

The part of the body that releases antidiuretic hormone (ADH) into the blood is the posterior pituitary.

Step 2

Suggest two signs or symptoms which may result from a decrease in ADH.

99%

104 rated

Answer

  1. Dehydration/thirst due to increased water loss from the body.

  2. Frequent urination or increased volume of urine, leading to less concentrated urine.

Step 3

Describe the effect of ADH on the collecting ducts in kidneys.

96%

101 rated

Answer

ADH stimulates the addition of channel proteins into the membrane of the collecting ducts, which increases their permeability to water. This allows more water to be reabsorbed back into the bloodstream, resulting in the production of more concentrated urine. The process also occurs via osmosis, drawing water out of the collecting ducts into the surrounding tissue.

Join the A-Level students using SimpleStudy...

97% of Students

Report Improved Results

98% of Students

Recommend to friends

100,000+

Students Supported

1 Million+

Questions answered

Other A-Level Biology topics to explore

Biological Molecules: Carbohydrates

Biology - AQA

Biological Molecules: Proteins

Biology - AQA

Proteins: Enzymes

Biology - AQA

Nucleic Acids: Structure & DNA Replication

Biology - AQA

ATP, Water & Inorganic Ions

Biology - AQA

Cell Structure

Biology - AQA

The Microscope in Cell Studies

Biology - AQA

Cell Division in Eukaryotic & Prokaryotic Cells

Biology - AQA

Cell Membranes & Transport

Biology - AQA

Cell Recognition & the Immune System

Biology - AQA

Vaccines, Disease & Monoclonal Antibodies

Biology - AQA

Adaptations for Gas Exchange

Biology - AQA

Human Gas Exchange

Biology - AQA

Mass Transport in Animals

Biology - AQA

The Circulatory System in Animals

Biology - AQA

Mass Transport in Plants

Biology - AQA

DNA, Genes & Chromosomes

Biology - AQA

DNA & Protein Synthesis

Biology - AQA

Genetic Diversity: Mutations & Meiosis

Biology - AQA

Genetic Diversity & Adaptation

Biology - AQA

Species & Taxonomy

Biology - AQA

Biodiversity

Biology - AQA

Photosynthesis

Biology - AQA

Respiration

Biology - AQA

Energy & Ecosystems

Biology - AQA

Nutrient Cycles

Biology - AQA

Response to Stimuli

Biology - AQA

Nervous Coordination

Biology - AQA

Skeletal Muscles

Biology - AQA

Homeostasis

Biology - AQA

Inheritance

Biology - AQA

Populations

Biology - AQA

Evolution

Biology - AQA

Populations in Ecosystems

Biology - AQA

Genetic Mutations

Biology - AQA

Regulation of Gene Expression

Biology - AQA

Gene Technologies

Biology - AQA

1.1 Carbohydrates

Biology - AQA

1.2 Lipids

Biology - AQA

1.3 Proteins

Biology - AQA

1.4 Proteins: Enzymes

Biology - AQA

1.5 Nucleic Acids: Structure & DNA Replication

Biology - AQA

1.6 ATP, Water & Inorganic Ions

Biology - AQA

2.1 Cell Structure

Biology - AQA

2.3 Cell Division in Eukaryotic & Prokaryotic Cells

Biology - AQA

2.4 Cell Membranes & Transport

Biology - AQA

2.5 Cell Recognition & the Immune System

Biology - AQA

2.6 Vaccines, Disease & Monoclonal Antibodies

Biology - AQA

3.1 Adaptations for Gas Exchange

Biology - AQA

3.2 Human Gas Exchange

Biology - AQA

3.3 Digestion & Absorption

Biology - AQA

3.4 Mass Transport in Animals

Biology - AQA

3.5 The Circulatory System in Animals

Biology - AQA

3.6 Mass Transport in Plants

Biology - AQA

4.1 DNA, Genes & Chromosomes

Biology - AQA

4.2 DNA & Protein Synthesis

Biology - AQA

4.3 Genetic Diversity: Mutations & Meiosis

Biology - AQA

4.4 Genetic Diversity & Adaptation

Biology - AQA

4.5 Species & Taxonomy

Biology - AQA

4.6 Biodiversity

Biology - AQA

5.1 Photosynthesis (A Level only)

Biology - AQA

5.2 Respiration (A Level only)

Biology - AQA

5.3 Energy & Ecosystems (A Level only)

Biology - AQA

5.4 Nutrient Cycles (A Level only)

Biology - AQA

6.1 Response to Stimuli (A Level only)

Biology - AQA

6.2 Nervous Coordination (A Level only)

Biology - AQA

6.3 Skeletal Muscles (A Level only)

Biology - AQA

6.4 Homeostasis (A Level only)

Biology - AQA

7.1 Inheritance (A Level only)

Biology - AQA

7.2 Populations (A Level only)

Biology - AQA

7.3 Evolution (A Level only)

Biology - AQA

7.4 Populations in Ecosystems (A Level only)

Biology - AQA

8.1 Genetic Mutations (A Level only)

Biology - AQA

8.2 Regulation of Gene Expression (A Level only)

Biology - AQA

8.3 Using Genome Projects (A Level only)

Biology - AQA

8.4 Gene Technologies (A Level only)

Biology - AQA

Risk Assessment Masterlist

Biology - AQA

Investigating Cell Membrane Permeability

Biology - AQA

Dissection

Biology - AQA

Aseptic Techniques

Biology - AQA

Chromatography of Photosynthetic Pigments

Biology - AQA

Dehydrogenase Activity in Chloroplasts

Biology - AQA

Respiration in Single-Celled Organisms

Biology - AQA

Measuring Concentration of Glucose using a Calibration Curve

Biology - AQA

Effect of Different Variables on Species Distribution

Biology - AQA

;