1. 21.1 Protist Classification —The Saga Continues
Lesson Overview
21.1 Protist Classification —The Saga Continues

2. The First Eukaryotes Protists are ….
eukaryotes that are not members of the plant, animal, or fungi kingdoms

3. The First Eukaryotes
More than a billion years ago, the first eukaryotes appeared on Earth.
Single-celled eukaryotes are still with us today and are often called
“protists”—a name that means “first.”
Traditionally, protists are classified
as members of the kingdom Protista.

4. The First Eukaryotes
Although most protists are unicellular, quite a few are not.
Brown algae called kelp are the largest protists. They contain millions of cells arranged in differentiated tissues.
Kelp are considered protists because they
are related more closely to certain
unicellular protists than to members of
any other kingdom.
Otters wrap themselves in giant kelp to keep from drifting out to sea while
they sleep.

5. The “Protist” Dilemma
Biologists have discovered that “protists” display a far greater degree of
diversity than any other eukaryotic kingdom.
Euglena, brown algae, diatoms, and slime molds are examples of protists.

6. The “Protist” Dilemma
In addition to their diversity, biologists also found that many “protists” are far more closely related to members of other eukaryotic kingdoms than they are to other “protists.” This created a dilemma.
By definition, the members of a living kingdom should be more like one another than like members of other kingdoms. This is not true of protists, which means that reclassification is necessary.
In the past, scientists sorted protists into three groups: plantlike protists, animal-like protists, and funguslike protists. However, this solution began to fail as biologists learned that many protists do not fit into any of these groups.
Biologists also discovered that many of the animal-like and funguslike protists are so similar that they belong in a single group, not two.

7. Multiple Kingdoms?
The most recent studies of protists divide them into six major clades, each
of which could be considered a kingdom.
This cladogram represents an understanding of protist relationships
supported by current research.
Where does this leave the plant, animal, and fungi kingdoms?
Surprisingly, the plant, animal, and fungi kingdoms fit right into these six
clades. Animals and fungi actually emerge from the same protist
ancestors.

8. Multiple Kingdoms?
Protists were the first eukaryotes, and evolution has had far more time to
develop differences among protists than among more recently evolved
eukaryotes like plants and animals.
By finding the fundamental divisions among protists, we also identify the
most basic differences among all eukaryotes.

9. What “Protist” Means Today
Biologists assembling the Tree of Life favor the classification shown in the cladogram.

10. What “Protist” Means Today
Even though the biologist building the Tree of Life prefer a different classification, the word “protist” remains in common usage, even among scientists.
Bear in mind that “protists” are not a single kingdom but a collection of organisms that includes several distinct clades.
This is why the term is sometime surrounded by quotation marks.

11. Protists—Ancestors and Descendants
Protists were the first eukaryotes. So…
How are protists related to other eukaryotes?
It would be a scientific mistake to look among living protists to find the ancestors to the first plants or the earlies fungi.
The reason is that protists living today have been through a process of evolution just as extensive as the one that produced every other living organism.

12. Protists—Ancestors and Descendants
Microscopic fossils of eukaryotic cells, like Tappania plana shown,
have been found in rocks as old as 1.5 billion years.
Genetic and fossil evidence indicates that
eukaryotes evolved from prokaryotes and are
more closely related to present-day Archaea
than to Bacteria.
The split between Archaea and Eukarya may
have come as early as 2.5 billion years ago.
Since that time, protists have diversified into as
many as 300,000 species.

13. Protists—Ancestors and Descendants
Most of the major protist groups have remained unicellular, but two have produced multicellular organisms. Plants, animals, and fungi arose from the ancestors of these multicellular groups.

14. Protists—Ancestors and Descendants
Today’s protists include groups whose ancestors were among the very last to spit from the organisms that gave rise to plants, animals, and fungi.
The roots of all eukaryotic diversity, from plants to animals, are found among the ancestors of protists.