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3.7 Fitness

3 min readnovember 18, 2024

Jed Quiaoit

Jed Quiaoit

Caroline Koffke

Caroline Koffke

Jed Quiaoit

Jed Quiaoit

Caroline Koffke

Caroline Koffke

Skills you’ll gain in this topic:

  • Explain how ATP efficiency impacts an organism's fitness in its environment.
  • Describe adaptations that enhance ATP production under various conditions.
  • Analyze environmental factors’ impact on cellular energy production.
  • Relate energy production to survival and reproductive success.
  • Predict how energy efficiency affects overall organismal fitness.

ATP Production and Organismal Fitness

Fitness refers to the fact that organisms have varying abilities to survive and reproduce. Individuals with beneficial traits, called adaptations, are more capable of survival and reproduction in their environment. 💪

These variations occur at the microscopic level of DNA and proteins. Differences in DNA allow organisms to produce different proteins. These proteins can then respond differently to stimuli in their environment.

In the context of this unit, some organisms are better than others at harnessing energy. Perhaps an organism has a better ability to hunt and consume energy. Maybe one organism is capable of going through aerobic respiration, while another is stuck in anaerobic respiration. Any of these differences will create selective pressure that allows some organisms to survive and reproduce more than others.

Image courtesy of Pixabay.

Big Idea: Variation = Yay!

Variation at the molecular level is a fundamental aspect of life that allows organisms to respond to a wide range of environmental stimuli. This variation can take many forms, including differences in the number and types of molecules within cells, as well as variations in the sequence of amino acids that make up proteins. 

Example 1: Phospholipids

One example of how variation at the molecular level allows organisms to survive and reproduce in different environments is the presence of different types of phospholipids in cell membranes. 

Phospholipids are a major component of cell membranes and play a crucial role in maintaining the integrity and function of the membrane. Different types of phospholipids have different melting points, which means that cells with a higher proportion of certain phospholipids will be able to maintain their membrane integrity at lower temperatures. This allows organisms living in cold environments to adapt to the lower temperatures. 🌡

Example 2: Hemoglobin

Another example is the different types of hemoglobin found in organisms. Hemoglobin is a protein that binds oxygen in the blood, and different types of hemoglobin have different oxygen-binding properties. This allows organisms to maximize oxygen absorption in different developmental stages, such as the fetus, newborn or adult. 👶

Example 4: Chlorophyll

Similarly, different types of chlorophyll in plants allow them to exploit and absorb different wavelengths of light for photosynthesis. Chlorophyll is a pigment found in plants that absorbs light energy and converts it into chemical energy. Different types of chlorophyll have different absorption spectra, which means that they absorb different wavelengths of light. This allows plants to exploit and absorb different parts of the light spectrum, giving them greater flexibility to survive and reproduce in different environments. 🌈

Overall, if an organism is more capable of survival and reproduction, then they are passing their DNA down more frequently than those with less desirable traits. This makes the next generation resemble the adaptations of the organism that is more capable of survival and reproduction. In these situations, environmental pressures can truly change the genetic makeup of a population over time.