Biology 1B Evolution Lecture 11 Insights from the Fossil Record timing of events and extinction Fossil Record speciation Microevolution Macroevolution The fossil record is our primary source of information on the past including the timing of various extinction and evolutionary events and the phenotypes of ancestral forms Sedimentary rocks created by erosion often in a marine environment form strata with different layers corresponding to different time periods Consider the Grand Canyon formed by the Colorado River over 20 million years the exposed strata from the top of nearby Bryce Canyon to the bottom of the Grand Canyon itself cover the last billion years These layers can be dated by analyzing proportions of different isotopes present in each of the strata Fossils provided both key evidence and frustration to Darwin when writing the Origin of the Species Fossils showed there were many creatures which no longer existed but these animals existed at some point and must have been adapted to the environment in which they lived This further reinforced the idea that the present and past are ruled by the same physical processes However it was frustrating in that many complex creatures seemed to suddenly appear in the fossil record without preceding transitional forms Darwin predicted that these gaps would be filled and many of the gaps he predicted have now been filled Some major transitions in earth history Earth and Solar System formation Earliest prokaryote fossils Increase in oxygen implies photosynthesis Single celled fossil eukaryotes Complex metazoan multi celled animals Hominids apes and humans Billions of Years Ago 4 5 3 5 2 7 2 1 1 2 0 5 0 005 The Cambrian Explosion is a time period from 550 million years ago appearance of complex metazoans when many species and new body forms appear in the fossil record The fossils preceding that 550 million years ago mark are very scarce then suddenly there is a large diversity of fossils and body forms What caused this diversity There are several possibilities Firstly perhaps before the Cambrian period all organisms were soft bodied and thus did mineralize and leave behind fossils Supporting this hypothesis is that scientists have discovered fossil impressions of organisms older than the Cambrian period Another possibility is that the rapid appearance of new species was due to an evolutionary innovation allowing the rapid diversification of body forms that did not exist before Consider hox genes and how they allow for entirely different body plans The evolution of this innovation could allow for rapid diversification of body plans The Burgess Shale is a site in Canada excavated by Charles Walcott that has given us many excellent Cambrian fossils Now consider fossils in tandem with extinction Extinction is normal enough 97 of all species ever extant on Earth are now extinct We can determine extinction rates by following species that fossilize well through the various rock strata Eventually having gone extinct they stop appearing in the fossil record The background rate of extinction for marine invertebrates is less than 0 1 extinction per million species per year or in the following graph about 3 4 families per MY However there are some large peaks in the extinction rates which we call mass extinctions defined as having 75 species extinct within a million years Two major extinctions we will explore further are the PermianTriassic extinction 250mya and the Createous Paleogene k t extinction 65mya which pushed the terrestrial dinosaurs into extinction and lead to adaptive radiation of mammals and birds surviving lineage of theropod dinosaurs Figure 4 Graph of extinction rates over time showing mass extinction events Copyright 2008 Pearson Education Inc publishing as Pearson Benjamin Cummings Extinction Important points on extinction rates Background rate of extinctions per million species per year About 0 1 extinction per million species of marine invertebrate per year so if there are roughly 10 million species on the planet that would imply that about 1 species extinct per year Environmental pressures such as changing temperatures or volcanism commonly cause extinction of species but extinction also occurs in a constant environment Broadly a typical species lasts 2 10 million years Figure 25 14 page 521 8th edition Huge extinction the result of a comet impact more below Cretaceous Paleogene Tertiary Extinction K T Boundary Most importantly this marked the demise of the terrestrial dinosaurs save for modern dinosaurs which are birds With the end of the dinosaurs came the adaptive radiation of the mammals Luis and Walter Alvarez of UC Berkeley worked to find what caused the K T boundary extinction of the dinosaurs Walter a paleonotologist noticed a layer of dark silt between fossils of organisms between the Cretaceous large bodied animals and Paleogene smaller bodied animals He asked his father a physicist what might be studied in the isotopes in the dark silt layer They found a huge spike in the amount of iridium which suggested a comet impact Iridium spike indicating comet impact Despite the scrutiny and disbelief of the scientific community the crater the comet would have left in the Yucatan was eventually found The massive impact of the comet ejected sediments into the air halting photosynthesis and changing the carbon cycle of the planet It took about 10 000 years to restore the Earth s normal ecological processes and millions to restore diversity Are we causing a sixth mass extinction Very difficult to know for sure as we don t even know how many species there are on the planet we ve only described 1 6 million of perhaps 10 15 million total species Estimates of the rate of extinction are vary according to time interval over which extinction is measured estimates spanning 1M years of the fossil record tend to be lower about 1 extinction per million species per year for terrestrial mammals and more precise than rated measured over a small time span e g the last 100 years Amphibians are closely tied to environmental conditions and 30 of known species are now endangered Better evidence of a mass extinction might come from the loss of megafauna smilodons mastodons that might be the result of humans hunting climate change or both North American and Australian megafauna went extinct roughly after humans arrived in North America Africa still has many megafauna suggesting that they evolved with the humans and human ancestors there We also see
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