"Settled Science" and the Cambrian Explosion -- Geologists Weigh In
Similar problems were found in Mongolia as in the first paper: previous studies were flawed, and geochemical evidence did not correlate with fossil evidence. Once again, it's the local conditions that matter; "we suggest that this pattern is controlled largely by regional sedimentation and taphonomy [fossilization processes] rather than the rate of taxonomic origination," they say. ("Taxonomic origination" is a euphemism for "abrupt appearance of complex animals.")
One of their findings puts the squeeze on the evolutionary biologists. Their recalibration of the sequence puts the first appearance of small shelly fossils "hundreds of meters higher in the stratigraphy" than previously recorded, because earlier studies mistook an outcrop of phosphatic shale at one location with another fossil-bearing layer due to incorrect mapping. This compresses the time available for their evolution.
Reading these papers in detail, one gets the clear impression that geology is as much art as science. You can't just walk up to a wall of strata and read it like a book, much less use it like a Rosetta Stone to correlate with similar outcrops in other parts of the world. A great deal of interpretation is involved, even with empirical data like carbon and oxygen ratios. The authors use the word "interpret" frequently, even alleging that previous geologists misinterpreted things.
For example, one of the second paper's charts shows the small shelly fossils appearing in three pulses whose dates vary between Mongolia, Siberia, and China. Is this real, or an artifact of preservation?
If it "may" be the case on the smaller scale, it is clearly not the case on the large scale. Every Cambrian expert agrees that the fossil record is complete enough to consider the Cambrian explosion a major unsolved problem in biology.
Other complications appear in the paper:
- Some of the strata are interpreted to be autochthonous (in their original position), and others are interpreted to be allochthonous (transported into place). There are flooding surfaces, intrusions, thrusts, bypass channels, subduction zones and unconformities. Much of the region is in a large basin that was infilled by sediments.
- Some formations are "highly variable both in terms of thickness and lithology," with facies changes occurring over very short distances.
- The authors infer periods of "depositional hiatus" in certain areas, one of them possibly up to 6-10 million years in length (this is to keep their correlations in sync).
- They cannot account for the large "excursions" of carbon-isotope ratios (positive and negative) at certain levels. After considering various explanations, they say, "None of the hypotheses described above provides direct explanations for a mechanistic link between eustatic sea-level change and the isotopic variations." The measurements cannot, therefore, serve as unambiguous proxies for changes occurring in the global carbon cycle at different times. (This undercuts Maloof's 2010 hypothesis about three pulses of evolution tied to the carbon cycle and, instead, attributes the pulses to accidents of deposition.)
- The dates of the carbon-isotope ratio excursions do not always match between different parts of the world, even though they are assumed to represent correlation "tie points." Mongolia has extra excursions, for instance, that do not appear in China or Siberia. "suggesting that the carbon cycle was oscillating even more rapidly than previously thought during the earliest Cambrian."
- The first appearance of a trace fossil named Treptichnus pedum is considered diagnostic of the Ediacaran-Cambrian boundary around the world, but it appears at different dates in different locations. Because its appearance is strongly "lithofacies controlled" (dependent on the type of rock in the outcrop), "using T. pedum as a global chronostratigraphic marker has been problematic on most Cambrian paleocontinents, notably in Siberia, China, Mongolia, and Kazakhstan."
- Some of the upper strata contain ultramafic minerals, representative of very high temperature volcanics that are atypical of the cooler mafic lavas observed today.
- Some of the strata are stratified; others are not. Some contain conglomerates are even large boulders, representative of transport. Some of the conglomerates contain pebbles that are rounded and well sorted; others are angular and unsorted.
- The strata contain chert, limestone, sandstone, siltstone, dolomite, ooids, and other minerals and structures that call for interpretation.
- The Harvard team ties their carbon-isotope ratios to absolute ages from Morocco (a third of the way around the globe), but Morocco lacks the earliest Cambrian fossils. "Because there is no one section globally in which it is possible to integrate the ichnofossil record, body fossil record, carbon isotope chemostratigraphy, and absolute ages, the calibration of this evolutionarily important transition remains piecemeal, resulting in much uncertainty in determining rates of origination and geochemical change."
These complications make it likely that some future geologist will find flaws in this paper. If the science were settled, the Harvard team would not end with a call for "testable hypotheses that can be used to better constrain the relationships between biological and environmental change during this major transition in life." In other words, we geologists just see "first appearances" of complex creatures in a confusing bundle of rocks. Ask the biologists where they came from.
