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Eukaryote Biodiversity Series
01: Looking at Life

(Just pretend I posted this on Thursday, ok? Thanks! <_<)

Protista is a vast kingdom surrounding the three miniscule enclaves of Fungi, Animalia and Plantae. Together, they form the domain Eukarya, a humble accident on the shores of vastly prokaryotic life. In the Eukarya, Protista is the most diverse and fascinating place: a realm seldom touched by human exploration; a realm with many secrets beckoning our attention; a realm of strange mystery and eerie familiarity.

To celebrate Darwin Year, evolution and biodiversity, join me on a journey along this land -- so we can wander lost together!


(Hopefully) Resolving some confusion
I've touched on this before, but since this is an introductory post: There is some confusion with respect to what Protista includes, and doesn't include. This confusion permeates the majority of reputable government and educational publications by non-specialists. For example, the government of Nova Scotia thinks: (emphasis mine)
The kingdom Protista is used to group most single-celled organisms, except bacteria and blue-green algae. Protista is a large and variable group containing both plant and animal characteristics. This group includes about 50,000 species of protozoans (first animals) and between 8,000 and 12,000 species of algae (simple plants).

Protists are mostly microscopic and have no organs or tissues. They are single-celled but may occur in colonies. They may be free-living on land or in water, or live in association with other plants and animals. Locomotion is achieved by waving tiny hair-like threads.
1. Blue-green algae are bacteria. Also, Protista does not include myxosporidia (animals) and yeasts (fungi).

2. Most protozoans have absolutely nothing to do with animals. They are fundamentally different lineage. Same with the algae. More importantly, no modern organism (alive today) is a first anything. Fish are not our ancestors. Our ancestors likely looked fish-like at some stage. Modern fish are a distinct lineage with their own long and ardurous evolutionary journey. It makes as much sense to say modern fish are early man as it is to say modern man is early fish...

3. Kelps can grow up to 60m. They have distinct tissue types -- a holdfast (root), stipe (stem), and blades (leaves). Red and green algae are multicellular as well, with distinct tissue types. Multicellularity is more common that one would think, and has occurred at least 8 times independently even if you take a conservative approach.

4. Amoebae, Toxoplasma, diatoms and Saccinobaculus disagree.


But don't take this as an attack on whoever painstakingly put that page together. As you see, Protista is a rather diverse and poorly-unified kingdom. Part of the reason is the 'racist' arrogance of the residents of one of the isolated enclaves -- Animalia. Fungi, Animals, Nucleariids, Ichthyosporeans and Choanoflagellates could coexist peacefully in Kingdom Opisthokonta, unified by proudly wearing a tail on their asses, instead of waving it before them like all normal Eukaryotes. Unfortunately, some clans of the Animal tribe can barely accept sharing an association with fellow Animals, let alone little moldy unicellular things that give us beer. Instead, we prefer to spend our lives entangled in a taxonomical nightmare.


Brief History of Protistology
The main reason for the taxonomical mess is historical. Before the 1600's, there was no way to see microscopic organisms, so no one had a reason to suspect their existence. Life was sorted into plants (green, static) and animals (motile). This may even be an innate categorisation! Fungi were categorised as plants, for they didn't seem to move. Signs of microbial presence were just seen as rot, which was a manifestation of 'foulness', etc.

Then came the 17th century with Robert Hooke and Antonie van Leeuwenhoek, who created the first microscope and discovered the first unicellular organism, respectively. Hooke looked at a section through cork and discovered cells, apparently named for their resemblence of the monastic ones, or so says Wikipedia:


(Hooke 1665 Micrographia)

Leeuwenhoek was a Dutch cloth merchant who had never gone to university, thereby retaining some creativity and intelligence. He invented a special technique for making microscope lenses which was later found to involve melting glass into spheres, as opposed to grinding it. In fact, we got to try out the technique in class once. Never thought a protistology lab could involve propane torches and glass melting. The scope mimics something like Leeuwenhoek's:



but simpler, of course. Amazingly enough, it actually works! It's quite astonishing that you can actually see microorganisms in pond water through that thing! Microbiology was no longer some distant world kept apart from us by rediculously expensive and complicated optical instruments. A glass sphere is enough to observe it! (we had to make one of those for a lab exam afterwards -- this guy managed to involve a propane torch in a freaking protistology lab exam, somehow...truly memorable!)

So using such a simple tool, Leeuwenhoek discovered the first unicellular organism, likely some sort of ciliate. Apparently there aren't any drawings of it out there; if anyone knows whether Leeuwenhoek ever made a drawing, could you let me know where to find one? I'm utterly curious! He does have some bacteria though:



Afterwards, there was an explosion of people playing with scopes and painstakingly recording their findings. Some examples from Haeckel here and more scans here.

Now life no longer made much sense. Of course there were still things that looked like plants (sessile algae, eg. spirulina) and things that looked like animals (eg. ciliates) -- those were called protozoa, since they were considered to be ancestors of animals (most aren't, as we shall see later). There were some hyphal non-green forms, but those were fungi... which were considered to be plants for a long time. Mycology is still often considered part of botany, and is done in botany departments to this very day.

Over time, people got more and more confused as discoveries piled up. You had motile algae, which didn't quite fit the 'plant' category very well. Fungi also resisted the plant kingdom as more and more was learned of them. Eventually, fungi gained independence. Protists were classified into 'algae' (Plantae), 'protozoa' (Animalia), 'sporozoa' (Fungi). Since those organisms shared a lot in common, at first glance, they were granted their own kingdom in 1866 by Haeckel -- he named the them Protista.

A more recent rendition of this idea:


(source)

This thing honestly makes my eyes hurt. There's just so much WRONG with that tree I barely know where to start. I mean, back in 1969 when this was made, molecular biology was barely starting so they didn't know any better. The tree was constructed mostly on morphological data, which can be extremely elusive due to evolutionary convergence. I'll discuss that in more detail later: there are some wonderful examples of this. The entire non-photosynthetic heterokont group had to be assembled from bit and pieces all over the tree once molecular data came out!

Another, more fundamental, issue with this tree... is this stupid notion of some forms of life being 'beyond' others, more 'complex', more 'advanced', more 'evolved'... this idea that evolution pursues progress, and we're at its apex. Evolutionary Creationism, nothing less. "Fine, if there's no loving god... then there must be loving evolution that worked 3.8 billion years to create us in the end!"

(moreover, in terms of 'evolvedness', we lag far behind the bacteria, due to our retardedly long generation spans...)

You'd laugh, but some professionals hold this kind of view, without realising it. Oh how many times I've mentioned my interest in protists, only to be subject to "Protists? Oh, the primitive eukaryotes!" I'm talking about professors here. I argue they're not actually all that 'primitive', that term is fundamentally flawed in this application. They look at me funny and avoid the topic altogether...!

Moving on, after many long arduous years of poor grad students (and undergrads! =P) slaving away at the bench, thus far we have something like this:

(

(Taken from here; originally from The Tree of Life: An Overview. S. L. Baldauf, D. Bhattacharya, J. Cockrill, P. Hugenholtz, J. Pawlowski, A. G. B. Simpson. Chapter 4 in Assembling the Tree of Life (Eds. Cracraft and Donoghue, Oxford University Press, 2004)

There is still much uncertainty about the root of eukaryotes; that's a topic for a later post.

Along the way, there was an interesting hypothesis based on some organisms appearing to lack mitochondria. It has been disproven upon further investigation, but modern textbooks still parade it around as fact... almost a whole decade out of date! More on that later...

Hopefully now we may have a clearer idea of what a protist is, as well as a bit of history of the field. Over the course of the year, I'd like to journey around the Keeling 2005 tree and also discuss some themes like multicellularity, endosymbiosis and the dangers of morphology. I hope to share some of the wonders of this alien kingdom as I just begin to explore it myself. Carl Sagan dreamed of alien life beyond -- I believe I've found his aliens. All he had to do was look closer here on the Pale Blue Dot!


Some resources:
The smallest page on the web - basic intro stuff, nice pictures
Tree of Life - put together by experts in various fields

2 comments:

  1. i think it is time to eliminate "protist" from our vocabulary

    ReplyDelete
  2. Very true... but then it becomes much harder to explain to the general public what a 'Rhizarian' is; at least they may have come across 'protist' back in highschool biology.

    Also, it serves as a collective term for things that don't really fit into the traditional Botany-Zoology-Microbiology division of biology departments.

    Lastly, it's a bit of a rebellion against the "big" groups, the relatively well-studied organisms like land plants, animals and fungi. "Hi, I'm a protistologist. Yeah, you don't even know what that is, so ha!" =P

    I use it in the same way as 'algae' - not strictly scientifically.

    ReplyDelete

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