Comment #1: “It seems to me you are trying to cloud the issue of tree-ring dating by claiming trees grow more than one ring per year. But everyone knows that trees grow only one ring per year and that is how they are dated” Carol O.
Response: According to dendrochronologists, sometimes dark-wood is produced which does not have a distinct outer boundary, but a fuzzy one, like the inner boundary. Under the microscope it can be seen that the cells of dark-wood do not end abruptly but gradually start getting bigger again. This is usually interpreted as the tree, for some reason, slowing down its growth during the growing season, but then picking up its growth again before beginning the final slow down that occurs at the end of a season. The entire growth band for that year would then include a ‘false’ band of dark-wood (such dark bands are designated as ‘false’ because they did not occur at the end of the growing season as ‘true’ dark bands should). If not detected, false bands would lead one to believe that two rings were present, representing two years, rather than one year’s worth of growth with a ‘false’ dark band in the midst of that year’s light-wood. So it was assumed that ‘false’ rings (and thereby multiplicity) could be easily detected because the outer edge of the dark-wood would be less distinct than the outer edge of normal annual rings.
Later, however, W. S. Glock et al. (Smithsonian Collections, 1960), demonstrated that in dry climates, not only are ‘false’ rings common in many species, but the bands of ‘false’ dark-wood can have outer boundaries that are every bit as distinct as the outer boundaries of a true annual ring. Therefore, ‘false rings’ can be indistinguishable from ‘true’ annual rings; ‘ … the growth layers resulting from intra-annual flushes (of growth) may, and commonly do, possess outer borders indistinguishable from the borders terminating the annual increment.”
LaMarche and Harlan see four lines of evidence as supporting the annularity of rings in Bristlecone Pines (Journal of Geophysical Research 78(36), 1973, pp8849–8858). The first is that the dark-wood bands in Bristlecone Pines do not have diffuse outer boundaries, implying that none of the rings are ‘false rings.’ Glock also showed that at least some species can have ‘false rings’ that are indistinguishable from the annual rings. It may well be that White Mountain Bristlecone Pines have false rings which are indistinguishable from annual rings. It is also often the case that extremely thin rings have inner and outer boundaries, which are virtually identical.
By the way, there are only three false rings in the two images above: two in the top and one in the bottom, for a combined 13 real annual rings, not the 16 (or 18) that appear. How did you do?
Additionally, Glock found that some of these rings were only one cell thick. Others have interpreted this as being multiple rings in a single season. As an example:
Comment #2: “How do you come up with the date of 2344 B.C. for Noah’s Flood? It is my understanding that Irish Archbishop James Ussher (1581-1656) did serious work in Genesis chapters 5 and 11 to compile genealogical chronologies that were widely accepted in his day. Scientists such as Isaac Newton believed in Ussher's work, which was even published for years in the margins of the King James Version of the Bible, starting in 1701. Ussher placed the date of Noah's flood at 2350 B.C. and creation at 4004 B.C. Other Biblical scholars have researched dates for the flood ranging from 3398 B.C. to 2348 B.C. and creation between 3760 B.C. and 5555 B.C.” Brett B.
Response: For clarification, the numbers we use for simplicity of the Bible dates is 4000 B.C. when Adam left the Garden of Eden (his mortal life began), and from that, using Moses dating of the Patriarchs, arriving at 2344 B.C. when the Flood began and 2343 when the Flood ended. The 4000 B.C. date is much like the 600 B.C. date we use when Lehi left Jerusalem when, in reality, he left during the commencement of the first year of Zedekiah’s reign (1 Nephi 1:4), which began in 597 B.C. according to Jewish dating of their events, which shows that the Babylonians in 597 B.C. under King Nebuchadrezzar besieged and captured Jerusalem, deported Jehoiachin to Babylon and made Mattaniah regent under the name Zedekiah.
Comment #3: “ In your series about the dating of tree rings, how certain are you that trees grow more than one ring a year? I was taught even in grade school, that all trees grow just one ring a year. Does this mean the Bible ages are correct now?” Claire P.
Response: As we’ve pointed out in that series and in other writings, many years ago, in the infancy of dendrochronology, certain assumptions were made from the type of research that such disciplines were capable of achieving. However, today with the powerful microscopes available, and greater knowledge achievable, there is no question that we are finding more and more examples of multiple rings per year—as much as five in a single year in some cases.
The number of growth rings produced by Bristlecone Pines seems to be more a function of the soil water status of the area in which the they grow: the drier the environment, the more rings are produced. Multiplicity of growth rings and the strip growth habit are possibly physiological mechanisms for conserving water in dry conditions. Past studies that have sought to prove annularity in Bristlecone Pines have not used a correct methodology or time frame, and more suitable experimental methods have been proposed. In investigating direct evidence for multiplicity, the effect of environmental conditions needs to be accounted for—once again, uniformitarian assumptions about the constancy of rates in the past are shown to be too simplistic. The Bristlecone Pine research may well verify biblical dates, since the far shorter time frames of the trees, such as those indicated in the Bible can accommodate this new and more correct data.
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