Dichotomous Key


by Krish Beachoo on Aug 9, 2021

Image: https://unsplash.com/@anetakpawlik
Edu Level: NCSE


A dichotomous key is a tool utilized in biology to identify and classify various organisms based on their observable traits. It is a widely used form of classification key due to its simplicity in determining unknown organisms. This method involves presenting a series of questions or statements that have two possible choices, typically contrasting features. By answering these questions correctly, users can ultimately determine the name of the organism.

There are two main types of dichotomous keys: the spider key and the number key. Both types consider qualitative factors, such as physical attributes like appearance and color, as well as quantitative factors like the number of legs, weight, or height.

Dichotomous keys can be created in two formats: as branching flowcharts (spider key) or as a written series of paired statements organized sequentially (number key).

To create a dichotomous key, you can follow these steps:

  1. Begin by observing the specimen you want to identify and make a list of the characteristics you notice.
  2. Start with the most general characteristics and progressively move to more specific ones. Take note of both obvious and less apparent contrasting characteristics among the specimens before constructing your dichotomous key.
  3. Use statements that present two choices, such as "has feathers" or "no feathers," to divide the specimen into two groups. The first differentiation should be based on the most general characteristics.
  4. Further divide the specimen by identifying additional contrasting characteristics. Keep dividing until you reach a specific identification for each specimen.
  5. Create a diagram of your dichotomous key using either graphical or text form to visually represent the branching choices and categories.
  6. Test your dichotomous key by applying it to known specimens. Follow the key step by step to verify if it consistently leads to the correct identification. This testing phase helps ensure the accuracy and reliability of your dichotomous key.

By following these steps, you can create a dichotomous key that simplifies the process of identifying unknown organisms based on their observable traits.

Arun Singh (pc)

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