Graham has found the answer to Darwin´s “abominable mystery”
2020-02-19
A new model reveals that living organisms capture a great percentage of all the diversity there has ever been.
A large trilobite from the Cambrian (500 million years old) - one of the few big groups of organisms that didn’t survive until the present day.
Researchers at Uppsala University and the University of Leeds presents a new mathematical model of patterns of diversity in the fossil record, which offers a solution to Darwin’s “abominable mystery” and strengthens our understanding of how modern groups originate. The research is published in the journal Science Advances.
Graham Budd, Professor in Palaeobiology presents a model that explains many puzzling features about the fossil record.
How come Darwin called the flowering plants “an abominable mystery”?
- Darwin though the origin of the flowering plants in the fossil record an “abominable mystery” because he thought that according to his theory of natural selection, major groups like the flowering plants should evolve slowly. But in fact, the flowering plants appear extremely rapidly in the fossil record, which he found very difficult to explain. Our model shows however that such a pattern is the one that one should expect.
You say, rather surprisingly, that “living organisms capture a great percentage of all the diversity there has ever been”. Can you elaborate?
- So we know that many species have gone extinct, indeed the great majority. But our results show that most of these species came from the major groups living today. This means that even if you went a long way back in time, the diversity of life would be surprisingly like it is today. There are long periods of time where the diversity has been stable and then we have had abrupt changes brought about by the mass extinctions, which killed off groups like the dinosaurs and the trilobites.
How will your findings be used?
We can compare our results (which are from a theoretical model) to what the fossil record actually looks like - and this allows us to see how well the fossil record matches it, and thus how reliable it is. A secondary issue is that it allows us to see what effect really big mass extinctions have on biodiversity - and that allows us to reflect on what might be happening today.
Link to the article "The dynamics of stem and crown groups" in the journal Science Advances.
A brief of the article published in the journal Science Advances:
New mathematical model reveals how major groups arise in evolution
The origins of many major groups of organisms in the fossil record seem to lie shrouded in obscurity. Indeed, one of the most famous examples, the flowering plants, was called “an abominable mystery” by Darwin. Many modern groups appear abruptly, and their predecessors – if there are any – tend to be few in number and vanish quickly from the fossil record shortly afterwards. Conversely, once groups are established, they tend to be dominant for long periods of time until interrupted by the so-called “mass extinctions” such as the one at the end of the Cretaceous period some 66 million years ago.
Such patterns appear surprising, and often seem to be contradicted by the results from “molecular clocks” – using calibrated rates of change of molecules found in living organisms to estimate when they started to diverge from each other. How can this conflict be resolved, and what can we learn from it?
In a paper, Graham Budd, Uppsala University, and Richard Mann, University of Leeds, present a novel mathematical model for how the origin of modern groups based on a so-called “birth-death” process of speciation and extinction. Birth-death models show how random extinction and speciation events give rise to large-scale patterns of diversity through time. Budd and Mann show that the ancestral forms of modern groups are typically rather few in number, and once they give rise to the modern group, they can be expected to quickly go extinct. The modern group, conversely, tends to diversify very quickly and thus swamp out the ancestral forms. Thus, rather surprisingly, living organisms capture a great percentage of all the diversity there has ever been.
The only exceptions to these patterns are caused by the “mass extinctions”, of which there have been at least five throughout history, which can massively delay the origin of the modern group, and thus extend the longevity and the diversity of the ancestral forms, called “stem groups”. A good example of this is the enormous diversity of the dinosaurs, which properly considered are stem-group birds. The meteorite impact at the end of the Cretaceous some 66 million years ago killed off nearly all of them, apart from a tiny group that survived and flourished to give rise to the more than 10 000 species of living birds.
The new model explains many puzzling features about the fossil record and suggests that it often records a relatively accurate picture of the origin of major groups. This in turn suggests that increased scrutiny should be paid to molecular clock models when they significantly disagree with what the fossil record might be telling us.
For more information, please contact:
Graham Budd, professor at the Department of Earth Sciences, Palaeobiology, Uppsala University, tel: +4618-471 2762, email: Graham.Budd@pal.uu.se
Article reference:
G. E. Budd, R. P. Mann, The dynamics of stem and crown groups. Sci. Adv. 6, eaaz1626 (2020). DOI: 10.1126/sciadv.aaz1626
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