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Evidence for a Young World
by Russell Humphreys, Ph.D.

Here are fourteen natural phenomena which conflict with the evolutionary idea that the universe is billions of years old. The numbers listed below in bold print (usually in the millions of years) are often maximum possible ages set by each process, not the actual ages. The numbers in italics are the ages required by evolutionary theory for each item. The point is that the maximum possible ages are always much less than the required evolutionary ages, while the Biblical age (6,000 years) always fits comfortably within the maximum possible ages. Thus, the following items are evidence against the evolutionary time scale and for the Biblical time scale. Much more young-world evidence exists, but I have chosen these items for brevity and simplicity. Some of the items on this list can be reconciled with the old-age view only by making a series of improbable and unproven assumptions; others can fit in only with a recent creation.

1. Galaxies wind themselves up too fast.
The stars of our own galaxy, the Milky Way, rotate about the galactic center with different speeds, the inner ones rotating faster than the outer ones. The observed rotation speeds are so fast that if our galaxy were more than a few hundred million years old, it would be a featureless disc of stars instead of its present spiral shape.1 Yet our galaxy is supposed to be at least 10 billion years old. Evolutionists call this "the winding-up dilemma," which they have known about for fifty years. They have devised many theories to try to explain it, each one failing after a brief period of popularity. The same "winding-up" dilemma also applies to other galaxies. For the last few decades the favored attempt to resolve the puzzle has been a complex theory called "density waves."1 The theory has conceptual problems, has to be arbitrarily and very finely tuned, and has been called into serious question by the Hubble Space Telescope's discovery of very detailed spiral structure in the central hub of the "Whirlpool" galaxy, M51.2

2. Too few supernova remnants.
According to astronomical observations, galaxies like our own experience about one supernova (a violently-exploding star) every 25 years. The gas and dust remnants from such explosions (like the Crab Nebula) expand outward rapidly and should remain visible for over a million years. Yet the nearby parts of our galaxy in which we could observe such gas and dust shells contain only about 200 supernova remnants. That number is consistent with only about 7,000 years worth of supernovas.3

3. Comets disintegrate too quickly.
According to evolutionary theory, comets are supposed to be the same age as the solar system, about five billion years. Yet each time a comet orbits close to the sun, it loses so much of its material that it could not survive much longer than about 100,000 years. Many comets have typical ages of less than 10,000 years.4 Evolutionists explain this discrepancy by assuming that (a) comets come from an unobserved spherical "Oort cloud" well beyond the orbit of Pluto, (b) improbable gravitational interactions with infrequently passing stars often knock comets into the solar system, and (c) other improbable interactions with planets slow down the incoming comets often enough to account for the hundreds of comets observed.5

4. Not enough mud on the sea floor.
Each year, water and winds erode about 20 billion tons of dirt and rock from the continents and deposit it in the ocean..6 This material accumulates as loose sediment on the hard basaltic (lava-formed) rock of the ocean floor. The average depth of all the sediment in the whole ocean is less than 400 meters.77 As far as anyone knows, the other 19 billion tons per year simply accumulate. At that rate, erosion would deposit the present mass of sediment in less than 12 million years . Yet according to evolutionary theory, erosion and plate subduction have been going on as long as the oceans have existed, an alleged three billion years

5. Not enough sodium in the sea.
Every year, riverss8 and other sources9 dump over 450 million tons of sodium into the ocean. Only 27% of this sodium manages to get back out of the sea each year.9,10 As far as anyone knows, the remainder simply accumulates in the ocean. If the sea had no sodium to start with, it would have accumulated its present amount in less than 42 million years at today's input and output rates.10 This is much less than the evolutionary age of the ocean, three billion years. The usual reply to this discrepancy is that past sodium inputs must have been less and outputs greater. However, calculations that are as generous as possible to evolutionary scenarios still give a maximum age of only 62 million years. 10 Calculations11

6. The earth's magnetic field is decaying too fast.
The total energy stored in the earth's magnetic field ("dipole" and "non-dipole") is decreasing with a half-life of 1,465 (± 165) years..12 Evolutionary theories explaining this rapid decrease, as well as how the earth could have maintained its magnetic field for billions of years are very complex and inadequate. A much better creationist theory exists. It is straightforward, based on sound physics, and explains many features of the field: its creation, rapid reversals during the Genesis flood, surface intensity decreases and increases until the time of Christ, and a steady decay since then.13144 The main result is that the field's total energy (not surface intensity) has always decayed at least as fast as now. At that rate the field could not be more than 20,000 years old.

7. Many strata are too tightly bent.
In many mountainous areas, strata thousands of feet thick are bent and folded into hairpin shapes. The conventional geologic time scale says these formations were deeply buried and solidified for hundreds of millions of years less than thousands of years after deposition.

8. Biological material decays too fast.
Natural radioactivity, mutations, and decay degrade DNA and other biological material rapidly. Measurements of the mutation rate of mitochondrial DNA recently forced researchers to revise the age of "mitochondrial Eve" from a theorized 200,000 years down to possibly as low as 6,000 years.17 DNA experts insist that DNA cannot exist in natural environments longer than 10,000 years188 Bacteria allegedly 250 million years old apparently have been revived with no DNA damage.19 Soft tissue and blood cells from a dinosaur have astonished experts.

9. Fossil radioactivity shortens geologic "ages" to a few years.
Radiohalos are rings of color formed around microscopic bits of radioactive minerals in rock crystals. They are fossil evidence of radioactive decay.21 "Squashed" Polonium-210 radiohalos indicate that Jurassic, Triassic, and Eocene formations in the Colorado plateau were deposited within months of one another, not hundreds of millions of years apart as required by the conventional time scale.22 "Orphan" Polonium-218 radiohalos, having no evidence of their mother elements, imply accelerated nuclear decayy and very rapid formation of associated minerals.

10. Too much helium in minerals.
Uranium and thorium generate helium atoms as they decay to lead. A study published in the Journal of Geophysical Research255 Though the rocks contain 1.5 billion years worth of nuclear decay products, newly-measured rates of helium loss from zircon show that the helium has been leaking for only 6,000 (± 2000) years.26

11. Too much carbon 14 in deep geologic strata.
With their short 5,700-year half-life, no carbon 14 atoms should exist in any carbon older than 250,000 years. Yet it has proven impossible to find any natural source of carbon below Pleistocene (Ice Age) strata that does not contain significant amounts of carbon 14, even though such strata are supposed to be millions or billions of years old. Conventional carbon 14 laboratories have been aware of this anomaly since the early 1980s, have striven to eliminate it, and are unable to account for it. Lately the world's best such laboratory which has learned during two decades of low-C14 measurements how not to contaminate specimens externally, under contract to creationists, confirmed such observations for coal samples and even for a dozen diamonds, which cannot be contaminated in site with recent carbon.27 These constitute very strong evidence that the earth is only thousands

12. Not enough Stone Age skeletons.
Evolutionary anthropologists now say that Homo sapiens existed for at least 185,000 years before agriculture began,28 during which time the world population of humans was roughly constant, between one and ten million. All that time they were burying their dead, often with artifacts. By that scenario, they would have buried at least eight billion bodies.29 If the evolutionary time scale is correct, buried bones should be able to last for much longer than 200,000 years, so many of the supposed eight billion stone age skeletons should still be around (and certainly the buried artifacts). Yet only a few thousand have been found. This implies that the Stone Age was much shorter than evolutionists think, perhaps only a few hundred years

13. Agriculture is too recent.
The usual evolutionary picture has men existing as hunters and gatherers for 185,000 years during the Stone Age before discovering agriculture less than 10,000 years ago.29 Yet the archaeological evidence shows that Stone Age men were as intelligent as we are. It is very improbable that none of the eight billion people mentioned in item 12 should discover that plants grow from seeds. It is more likely that men were without agriculture for a very short time after the Flood, if at all.31

14. History is too short.
According to evolutionists, Stone Age Homo sapiens existed for 190,000 years before beginning to make written records about 4,000 to 5,000 years ago. Prehistoric man built megalithic monuments, made beautiful cave paintings, and kept records of lunar phases.30 Why would he wait two thousand centuries before using the same skills to record history? The Biblical time scale is much more likely.

References
1. Scheffler, H. and Elsasser, H., Physics of the Galaxy and Interstellar Matter, Springer-Verlag (1987) Berlin, pp. 352-353, 401-413.

2. D. Zaritsky, H-W. Rix, and M. Rieke, Inner spiral structure of the galaxy M51, Nature 364:313-315 (July 22, 1993).

3. Davies, K., Distribution of supernova remnants in the galaxy, Proceedings of the Third International Conference on Creationism, vol. II, Creation Science Fellowship (1994), Pittsburgh, PA, pp. 175-184, order from http://www.icc03.org/proceedings.htm.

4. Steidl, P. F., Planets, comets, and asteroids, Design and Origins in Astronomy, pp. 73-106, G. Mulfinger, ed., Creation Research Society Books (1983), order from http://www.creationresearch.org/.

5. Whipple, F. L., Background of modern comet theory, Nature 263:15-19 (2 September 1976). Levison, H. F. et al. See also: The mass disruption of Oort Cloud comets, Science 296:2212-2215 (21 June 2002)..

6. Milliman, John D. and James P. M. Syvitski, Geomorphic/tectonic control of sediment discharge to the ocean: the importance of small mountainous rivers, The Journal of Geology, vol. 100, pp. 525-544 (1992).

7. Hay, W. W., et al., Mass/age distribution and composition of sediments on the ocean floor and the global rate of sediment subduction, Journal of Geophysical Research, 93(B12):14,933-14,940 (10 December 1988).

8. Meybeck, M., Concentrations des eaux fluviales en elements majeurs et apports en solution aux oceans, Revue de Géologie Dynamique et de Géographie Physique 21(3):215 (1979).

9. Sayles, F. L. and P. C. Mangelsdorf, Cation-exchange characteristics of Amazon River suspended sediment and its reaction with seawater, Geochimica et Cosmochimica Acta 43:767-779 (1979).

10. Austin, S. A. and D. R. Humphreys, The sea's missing salt: a dilemma for evolutionists, Proceedings of the Second International Conference on Creationism, vol. II, Creation Science Fellowship (1991), Pittsburgh, PA, pp. 17-33, order from http://www.icc03.org/proceedings.htm.

11. Nevins, S., [Austin, S. A.], Evolution: the oceans say no!, Impact No. 8 (Nov. 1973) Institute for Creation Research.

12. Humphreys, D. R., The earth's magnetic field is still losing energy, Creation Research Society Quarterly, 39(1):3-13, June 2002. http://www.creationresearch.org/crsq/articles/39/39_1/GeoMag.htm.

13. Humphreys, D. R., Reversals of the earth's magnetic field during the Genesis flood, Proceedings of the First International Conference on Creationism, vol. II, Creation Science Fellowship (1986), Pittsburgh, PA, pp. 113-126, out of print but contact http://www.icc03.org/proceedings.htm for help in locating copies.

14. Coe, R. S., M. Prévot, and P. Camps, New evidence for extraordinarily rapid change of the geomagnetic field during a reversal, Nature 374:687-92 (20 April 1995).

15. Humphreys, D. R., Physical mechanism for reversals of the earth's magnetic field during the flood, Proceedings of the Second International Conference on Creationism, vol. II, Creation Science Fellowship (1991), Pittsburgh, PA, pp. 129-142, order from http://www.icc03.org/proceedings.htm.

16. Austin, S. A. and J. D. Morris, Tight folds and clastic dikes as evidence for rapid deposition and deformation of two very thick stratigraphic sequences, Proceedings of the First International Conference on Creationism, vol. II, Creation Science Fellowship (1986), Pittsburgh, PA, pp. 3-15, out of print, contact http://www.icc03.org/proceedings.htm for help in locating copies.

17. Gibbons A., Calibrating the mitochondrial clock, Science 279:28-29 (2 Jan-uary 1998).

18. Cherfas, J., Ancient DNA: still busy after death, Science 253:1354-1356 (20 September 1991). Cano, R. J., H. N. Poinar, N. J. Pieniazek, A. Acra, and G. O. Poinar, Jr. Amplification and sequencing of DNA from a 120-135-million-year-old weevil, Nature 363:536-8 (10 June 1993). Krings, M., A. Stone, R. W. Schmitz, H. Krainitzki, M. Stoneking, and S. Pääbo, Neandertal DNA sequences and the origin of modern humans, Cell 90:19-30 (Jul 11, 1997). Lindahl, T, Unlocking nature's ancient secrets, Nature 413:358-359 (27 September 2001).

19. Vreeland, R. H.,W. D. Rosenzweig, and D. W. Powers, Isolation of a 250 million-year-old halotolerant bacterium from a primary salt crystal, Nature 407:897-900 (19 October 2000).

20. Schweitzer, M., J. L. Wittmeyer, J. R. Horner, and J. K. Toporski, Soft-Tissue vessels and cellular preservation in Tyrannosaurus rex, Science 207:1952-1955 (25 March 2005).

21. Gentry, R. V., Radioactive halos, Annual Review of Nuclear Science 23:347-362 (1973).

22. Gentry, R. V. , W. H. Christie, D. H. Smith, J. F. Emery, S. A. Reynolds, R. Walker, S. S. Christy, and P. A. Gentry, Radiohalos in coalified wood: new evidence relating to time of uranium introduction and coalification, Science 194:315-318 (15 October 1976).

23. Gentry, R. V., Radiohalos in a radiochronological and cosmological perspective, Science 184:62-66 (5 April 1974).

24. Snelling, A. A. and M. H. Armitage, Radiohalos-a tale of three granitic plutons, Proceedings of the Fifth International Conference on Creationism, vol. II, Creation Science Fellowship (2003), Pittsburgh, PA, pp. 243-267, order from http://www.icc03.org/proceedings.htm. Also archived on the ICR website at ICCRADIOHALOS-AASandMA.pdf.

25. Gentry, R. V., G. L. Glish, and E. H. McBay, Differential helium retention in zircons: implications for nuclear waste containment, Geophysical Research Letters 9(10):1129-1130 (October 1982).

26. Humphreys, D. R, et al., Helium diffusion age of 6,000 years supports accelerated nuclear decay, Creation Research Society Quarterly 41(1):1-16 (June 2004). See archived article on following page of the CRS website: http://www.creationresearch.org/crsq/articles/41/41_1/Helium.htm.

27. Baumgardner, J. R., et al., Measurable 14C in fossilized organic materials: confirming the young earth creation-flood model, Proceedings of the Fifth International Conference on Creationism, vol. II, Creation Science Fellowship (2003), Pittsburgh, PA, pp. 127-142. Archived at http://www.icr.org/pdf/research/RATE_ICC_Baumgardner.pdf. See poster presented to American Geophysical Union, Dec. 2003, AGUC-14_Poster_Baumgardner.pdf.

28. McDougall, I., F. H. Brown, and J. G. Fleagle, Stratigraphic placement and age of modern humans from Kibish, Ethiopia, Nature 433(7027):733-736 (17 February 2005).

29. Deevey, E. S., The human population, Scientific American 203:194-204 (September 1960).

30. Marshack, A., Exploring the mind of Ice Age man, National Geographic 147:64-89 (January 1975).

31. Dritt, J. O., Man's earliest beginnings: discrepancies in evolutionary timetables, Proceedings of the Second International Conference on Creationism, vol. II, Creation Science Fellowship (1991), Pittsburgh, PA, pp. 73-78, order from http://www.icc03.org/proceedings.htm.