Crinoid Pigment:
240 Million Years and No Evolution?
"Pigments from crinoids fossilized in early Mesozoic strata are identical to modern 
The pigments studied are “secondary metabolites” made by cellular machines in the organism. Secondary metabolites “usually are not preserved”. These complex organic molecules with 9 or 10 carbon rings sometimes have bromine atoms attached in living examples; the bromines are not found in the fossil examples, probably due to diagenesis (chemical changes between deposition and fossilization) and the fact that chemical bonds of bromine to carbon are not as stable as carbon-carbon bonds.
Here are some other surprising aspects of the story:
- Multiple proofs: “However, most interesting are chemical proofs of these pigments in Jurassic representatives of two orders that still exist today … allowing direct comparison of ancient and modern crinoid pigments within the same clade.
- Oxygen surprise: “It is striking that fossil crinoids with preserved hypericinoid pigments generally are found associated with hardgrounds, oolitic limestones, or reefal carbonates (Table 1), which were deposited in well-oxygenated environments where exceptional preservation of organic substances usually would be least expected.
- Sandstone surprise: “In the case of the Tendaguru locality, which is mainly known for the discovery of dinosaur remains, the pigments are preserved even in fossils from a sandstone-dominated coastal lithofacies. The embedding sediments are predominantly light colored and show low contents of organic matter.” However, pigments were not found in bituminous sediments, like shale, even though one famous lower-Jurassic site in southern Germany, the Posidonia Shale, contains “well-preserved isocrinids and fossils with organic tissue material.”
- Rapid burial: “It is also striking that the pigments generally are preserved in articulated crinoid remains, suggesting rapid burial of the animals, and in more massive structures such as the roots of millericrinids.” Crinoids are delicate and usually fall apart (disarticulate) easily after death.
- Global distribution, longevity and diversity: “…the spatial distribution of hypericinoid pigments among fossil crinoids is almost worldwide, the stratigraphic distribution ranges at least back to the Middle Triassic, and the taxonomic distribution comprises representatives from at least four (Encrinida, Isocrinida, Comatulida, and Millericrinida) of the eight post-Paleozoic crinoid orders.” The qualifier “at least” implies more might be found.
- Remarkable stasis: “Almost the same pigments were found in all samples independent of occurrence, stratigraphy, or taxon of the crinoids (Table 1). Despite minor diagenetic changes … the pigments preserved in the fossil crinoids show astonishing similarities to those of their extant relatives.” CEH
What’s wrong with this picture? It’s the millions of years! All the puzzles evaporate if you look at the evidence objectively, and conclude the fossils are young–thousands of years old, not hundreds of millions. Does this not fit the Biblical flood like a hand in glove?
Rapid burial,
global distribution,
exceptional preservation,
remarkable stasis:
those are things you would expect from a global catastrophe that overwhelmed ecosystems before they could respond.
Professing themselves to be wise, they became fools,
Romans 1:22
