Animal Adaptations For Their Environment (AQA A Level Biology)

Revision Note

Lára Marie McIvor

Written by: Lára Marie McIvor

Reviewed by: Lucy Kirkham

Animal Adaptations For Their Environment

Different types of haemoglobin

  • Haemoglobin is a quaternary protein made up of four globin polypeptides and four haem groups

  • The structure of haem is identical in all types of haemoglobin but the globin chains can differ substantially between species

    • The globin polypeptides determine the precise properties of haemoglobin

  • Haemoglobin types vary in their oxygen-binding properties, meaning that they bind to and release oxygen in different conditions

  • Environmental factors can have a major impact on the evolution of haemoglobin within a species

Effects of altitude

  • The partial pressure of oxygen in the air is lower at higher altitudes

  • Species living at high altitudes have haemoglobin that is adapted to these conditions, e.g.

    • Llamas have haemoglobin that binds much more readily to oxygen

    • This is beneficial as it allows them to obtain a sufficient level of oxygen saturation in their blood when the partial pressure of oxygen (pO2) in the air is low

new-oxygen-dissociation-at-low-high

Species that live at high altitudes have evolved haemoglobin with a higher affinity for oxygen; this means that at any given partial pressure of oxygen the high altitude haemoglobin has a higher percentage saturation than lower altitude haemoglobin

Foetal haemoglobin

  • The haemoglobin of a developing foetus has a higher affinity for oxygen than adult haemoglobin

  • This is vital as it allows a foetus to obtain oxygen from its mother's blood at the placenta

    • Fetal haemoglobin can bind to oxygen at low pO2

    • At this low pO2 the mother's haemoglobin is dissociating with oxygen

  • On a dissociation curve graph, the curve for foetal heamoglobin shifts to the left of that for adult haemoglobin

    • This means that at any given partial pressure of oxygen, foetal haemoglobin has a higher percentage saturation than adult haemoglobin

  • After birth, a baby begins to produce adult haemoglobin which gradually replaces foetal haemoglobin

    • This is important for the easy release of oxygen in the respiring tissues of a more metabolically active individual

Foetal and adult haemoglobin, downloadable AS & A Level Biology revision notes

Foetal haemoglobin has a higher affinity for oxygen than adult haemoglobin. This means that at any given pO2, foetal haemoglobin will have a higher percentage saturation than adult haemoglobin.

Examiner Tips and Tricks

You may be shown the oxygen dissociation curves of different types of haemoglobin and asked to explain how they are adapted to the environment the animal is living in. Remember that the curve furthest to the left represents the haemoglobin with the highest affinity for oxygen.

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Lára Marie McIvor

Author: Lára Marie McIvor

Expertise: Biology Lead

Lára graduated from Oxford University in Biological Sciences and has now been a science tutor working in the UK for several years. Lára has a particular interest in the area of infectious disease and epidemiology, and enjoys creating original educational materials that develop confidence and facilitate learning.

Lucy Kirkham

Author: Lucy Kirkham

Expertise: Head of STEM

Lucy has been a passionate Maths teacher for over 12 years, teaching maths across the UK and abroad helping to engage, interest and develop confidence in the subject at all levels.Working as a Head of Department and then Director of Maths, Lucy has advised schools and academy trusts in both Scotland and the East Midlands, where her role was to support and coach teachers to improve Maths teaching for all.