The Fossil Record
Outcrop area
Not all differences in regions due to collection bias, as not all layers of all ages are exposed in all areas
Single sites: preservation potential
Not all species in an ecosystem are preserved (ex. soft tissue is not preserved as well as hard, so soft tissue only species may have millions of years between appearances)
Open and deep ocean
Open and deep ocean formations are likely to be new, or can be subducted or remain buried
Taxonomic practices bias
Some groups are split into more species than others, traits used to name species in modern may not be apparent in fossils, so more diversity in a time period may be due to a greater splitting in species or opposite.
Correcting Taxonomic Bias
Studies tend to use higher levels, such as genera and families, as these are more stable over long periods and are more identifiable in the record
Lagerstatten effect
The existence of these sites drive up diversity, but many species only occur or are only identifiable at the single site
The Fossil Record is biased and incomplete due to..
fossilization is inconsistent so some part will always remain unknown
Correcting for Patchiness: Lazarus Taxa and Ghost Lineages
We can assume that species do not evolve more than once
Depositional Hiatus
A gap in rock record due to lack of sedimentation or previous erosion
Single sites: Lagerstatten
A site with exceptional preservation (ex. Burgess Shale site)
The fossil record is _____ than looking at living alone
Better; using living diversity alone would miss diversities due to changes in envrionment, etc
Single sites: death assemblages
Fossils tend to be found in specific locations of limited areas, but species may not have existed together in life
Correcting for Collection Bias: Collection Curves
Can check if diversity has been stable, or if a lot more species are left to be found
Modeling
Can compare fossil record to expectations under various scenarios
Correcting Preservation potential and collection bias
Can make assumptions from like-dead studies about what is likely to be missing
Origination and Extinction Rates
Can track changes in origination and extinction against other metrics
Collection Bias
Certain types of species have more active workers and are more likely to be names (Dinos vs. seastars), certain time periods have more workers, certain regions are more likely to be explored for fossils or have been more extensively sampled in the past (Victorian England)
Sea level
Changes in sea level shift areas of deposition; fall can stop sedimentation and destroy previous layers through erosion
Live-Dead Studies
Compare living assemblages to recently dead at different layers, can determine rate of fossilization and loss, tells us what is lost randomly and what is due to poor preservation in older layers in different environments
Rock volumes
Depositional changes affect the amount of fossil bearing rock, and diversity tends to correspond with available rock
Konzentrat-Lagerstatten
Sites with extreme abundance of hard tissue, high time averaging
Biodiversity through time
Increases and decreases due to changes in environment, extinction and origination, and fossilization and sampling biases
The Fossil Record
Is patchy, as fossils are not deposited evenly through time
Phylogeny and Divergence Dates
It is unlikely that the first appearance is the actual time of origination
Macrofossil vs. Microfossil Record
Macrofossils less likely to be preserved or identified, while microfossils are abundant in record but may not be matched to a species
Common Cause Hypothesis
Models suggested that the relationship between diversity and rock volumes was caused by common environmental factors affecting both sedimentation and biodiversity
Sedimentation Rate
Rate is dependent on erosion, sea level, volcanism, plankton abundance, etc, so it is not even at all times
Habitat bias
Sedimentation rate higher on shelf than other areas, so shelf diversity tends to look higher than open ocean or terrestrial diversities
Geologic Timescale
Shows biases of fossil record (Precambrian and Phanerozoic are the two supereons, but Precambrian is from 4.5 Ba to about 541 Ma while Phanerozoic is 541 Ma to present)
Potential sources of bias in fossil record
Single sites, taxonomic practices, collection biases, habitat biases, sedimentation rate
Konservat-Lagerstatten
Sites which preserve soft tissues and animals which are not normally fossilized
Single sites: time averaging
low sedimentation rates can compress thousands or millions of years into one layer, hiding changes
