Testing some ancient time data points with extrapolated Pannella'sfossil time data

Testing some ancient time data points with extrapolated Pannella's
fossil time data
------------------------------------------------------------------------------------------------------------------------

(Author: H.K.J. Poropudas, Vesaisentie 9E, 90900 Kiiminki, Finland.
Date: 13.1.2009)

Below are few rough estimations of ancient time data. It should be
remembered that
these linear extrapolations are based on my uncertain assumption of
existence of
oscillation of period 429.4 Ma in Pannella's figure 3 (reference 2)
and ages
and data of fossils and stromatolites are in many cases uncertain
too.


The Elatina Formation and Reynella Siltstone
-----------------------------------------------------------------

620 Ma:
-----------
655.6 Ma, 410.28 days/year
(Drawn extrapolated figures give roughly approx. 412 days/year)
639 Ma, 31.49 days/year
(Drawn extrapolated figures give roughly approx. 31.7 days/month)

410.28/31.49 = 13.03 months/year, (primary value = 13.1 +-0.1 months/
year)

649.4 Ma, 13.16 months/year (OUM-DT2 based)
(primary value = 13.1 +-0.1 months/year)

(Drawn extrapolated figures give 412/31.7 = 13.0 months/year)

(13.0-13.2 months/year)


The Big Cottonwood Formation
--------------------------------------------

900 Ma:
-----------
890.2 Ma, 33.34 days/month
897 Ma, 33.06 days/month
904.2 Ma, 33.48 days/month
(33-33.5 days/month, average = 33.29 days/month)
(Drawn extrapolated figure gives roughly approx. 33.4 days/month)

874.4 Ma, 463.33 days/year
911 Ma, 449.61 days/year
911 Ma, 453.42 days/year
(450-463 days/year, average = 455.45 days/year)
(Drawn extrapolated figure gives roughly approx. 451 days/year)

455.45/33.29 = 13.68 months/year, (primary value 13.5 months/year)
(Drawn extrapolated figures give 451/33.4 = 13.5 months/year)

928.8 Ma, 13.71 months/year (OUM-DT2 based)
928.8 Ma, 13.82 months/year (OUM-DT2 based)
(13.7-13.8 months/year, primary value 13.5 months/year)

(13.5-13.8 months/year)


The Weeli Wolli Formation
--------------------------------------

2450 Ma:
-------------
2438.9 Ma, 39.21 days/month
(Drawn extrapolated figure gives roughly approx. 39.2 days/month)

2423.9 Ma, 587.87 days/year
2423.9 Ma, 578.11 days/year
(578-588 days/year, average = 582.99 days/year)
(Drawn extrapolated figure gives roughly approx. 585 days/year)

582.99/39.21 = 14.87 months/year, (primary value = 14.5 +-0.5 months/
year)
(Drawn extrapolated figures give 585/39.2 = 14.9 months/year)

2437 Ma, 15.76 months/year (OUM-DT2 based)
(primary value = 14.5 +-0.5 months/year)

(14.9-15.8 months/year)


Reference (1).


The Gunflint Formation
------------------

1878.3 +-1.3 Ma:
------------------------

1927.2 Ma, 36.97 days/month
(Drawn extrapolated figure gives roughly approx. 37.2 days/month)
1846.3 Ma, 549.75 days/year
(Drawn extrapolated figure gives roughly approx. 533 days/year)

549.75/36.97 = 14.87 months/year (primary value = 14 months/year)
(Drawn extrapolated figures give 533/37.2 = 14.3 months/year)

1937.6 Ma, 14.99 monnths/year (OUM-DT2 based)

(14.3-15.0 months/year)

Age of the Bulawayan stromatolite UCLA-Bul-7 ?
----------------------------------------------------------------------

Mode = 10-20-40, Highest Count = 41.

2576.6.4 Ma, 40.11 days/month
2595 Ma, 40.35 days/month
2607.8 Ma, 40.64 days/month
2614.6 Ma, 40.34 days/month
2621.8 Ma, 40.78 days/month
2634.5 Ma, 41 days/month
2650.8 Ma, 40.9 days/month
2786 Ma, 40.62 days/month
2868.3 Ma, 41.04 days/month

So age of the Bulawayan Stromatolite UCLA-Bul-7 could be:

2580 Ma - 2870 Ma.

(primary value of the age =
(2672 +- 12 Ma - 2715 +- 15 Ma), Upper Bulawayan Group or
(2831 +- 6 Ma - 2904 +- 9 Ma), Lower Bulawayan Group. These both
are not local age determinations from the Bubi Greenstone Belt near
Huntsman Quarries, Zimbabwe.)

Other Time Data for UCLA-Bul-7 stromatolite:
-----------------------------------------------------------------

(40-41 days/month, primary value)
(average = 40.5 days/month, primary value)

2576.4 Ma, 600.75 days/year
2582.8 Ma, 609.88 days/year
2592 Ma, 620.65 days/year
2628.6 Ma, 606.94 days/year
2628.6 Ma, 610.75 days/year
2705.1 Ma, 628.41 days/year
2802.6 Ma, 606.94 days/year
2853.3 Ma, 617.45 days/year
2853.3 Ma, 627.21 days/year
2912 Ma, 629.65 days/year
2916.6 Ma, 633.55 days/year
2916.6 Ma, 636.15 days/year
(average = 7428.33/12 = 619.03 = approx. 619 days/year)

(601-636 days/year)

619/40.5 = 15.3 months/year

OUM-DT2 based estimation:

2576.4 Ma, 16 months/year
2646.4 Ma, 16.15 months/year
2646.4 Ma, 16.26 months/year
2657 Ma, 16.05 months/year
2737.1 Ma, 15.22 months/year
2796.4 Ma, 16.21 months/year
2866.4 Ma, 16.37 months/year
2916.4 Ma, 16.77 months/year

(average = 129.03/8 = 16.13 = approx. 16.1 months/year)

(15.2 - 16.8 months/year)


References (2 and 3).


The Moodies Group
----------------------------

3225 Ma:
-------------

3215.4 Ma, 42.44 days/month
(Drawn extrapolated figure roughly gives approx. 42.8 days/month)
3232 Ma, 646.27 days/year
(Drawn extrapolated figure roughly gives approx. 650 days/year)

646.27/42.44 = 15.23 months/year
(Drawn extrapolated figures give 650/42.8 = 15.2 months/year)

3225.8 Ma, 16.82 months/year (OUM-DT2 based)

(15.2-16.8 months/year)


Reference (4).




REFERENCES:

1. Williams, G.E. 2000.
Reviews of Geophysics, 38, 1/February 2000, pages 37-59.

2. Pannella, G., 1972.
Astrophysics and Space Science, 16, (1972), 212-237.

3. Fralick,P., Davis,D.W., Kissin,S.A., 2002.
Can. J. Earth Sci., 39, 1085-1091.

4. Eriksson,K.A., Simpson,E.L., Mueller,W., 2006.
Sedimentary Geology 190 (2006), 13-24.

5. Poropudas Hannu, 2009.
Some Linear Extrapolations of Pannella's Fossil Time Data for Test
Purposes.

sci.bio.paleontology, sci.astro, sci.geo.geology, sci.physics,
sci.math.
Sat, 13 Dec 2008, 10 pages.

(I have drawn four extrapolated figures (0-1200 Ma, days/year, 0-4600
Ma, days/year,
0-1200 Ma days/month, 0-4600 Ma, days/month) but unfortunately they
are not possible
to give here due this text is in ASCII-format. I could send them via
email by request.
My email address:
hanporop
(at)
luukku.com )

Earth's Rotational History from Linear
Extarpolation of Pannella's Ancient Time
Data of Fossils
----------------------------------------

(Author: Hannu K.J. Poropudas, Vesaisentie 9E,
90900 Kiiminki, Finland, Date: 13.1.2009)

Assumption: Distance between the Earth
and the Sun has not changed significantly
during Earth's life time (about 4550 Ma).

Main intended area of use of these figures
which are calculated from TABLE 2 is roughly
about 0-2000 Ma.



TABLE 4

-T/10^4 Hours/Day
centuries
-----------------
0 24,03
52,2 23,63
52,2 23,39
226,2 23,63
276,9 22,98
276,9 22,41
335,6 22,27
340,2 22,05
340,2 21,91
367,8 21,88
367,8 21,67
367,8 21,26
394,5 21,88
408,2 20,97
429,4 21,69
435,8 21,21
445 20,67
481,6 21,37
481,6 21,17
558,1 20,3
655,6 21,37
706,3 20,83
706,3 20,36
765 20,24
769,6 20,06
769,6 19,95
797,2 19,92
797,2 19,75
797,2 19,41
823,9 19,92
837,6 19,16
858,8 19,77
865,2 19,37
874,4 18,92
911 19,5
911 19,33
987,5 18,61
1085 19,5
1135,7 19,05
1135,7 18,66
1194,4 18,56
1199 18,41
1199 18,31
1226,6 18,29
1226,6 18,14
1226,6 17,86
1253,3 18,29
1267 17,65
1288,2 18,16
1294,6 17,82
1303,8 17,44
1340,4 17,93
1340,4 17,79
1416,9 17,17
1514,4 17,93
1565,1 17,55
1565,1 17,21
1623,8 17,13
1628,4 17
1628,4 16,92
1656 16,9
1656 16,78
1656 16,53
1682,7 16,9
1696,4 16,35
1717,6 16,79
1724 16,5
1733,2 16,17
1769,8 16,59
1769,8 16,47
1846,3 15,95
1943,8 16,59
1994,5 16,27
1994,5 15,98
-------------
2053,2 15,91
2057,8 15,8
2057,8 15,72
2085,4 15,71
2085,4 15,6
2085,4 15,39
2112,1 15,71
2125,8 15,23
2147 15,61
2153,4 15,36
2162,6 15,08
2199,2 15,44
2199,2 15,34
2275,7 14,88
2373,2 15,44
2423,9 15,16
2423,9 14,91
2482,6 14,85
2487,2 14,75
2487,2 14,69
2514,8 14,68
2514,8 14,58
2514,8 14,4
2541,5 14,68
2555,2 14,26
2576,4 14,59
2582,8 14,37
2592 14,12
2628,6 14,44
2628,6 14,35
2705,1 13,95
2802,6 14,44
2853,3 14,2
2853,3 13,98
2912 13,92
2916,6 13,84
2916,6 13,78
2944,2 13,77
2944,2 13,69
2944,2 13,52
2970,9 13,77
2984,6 13,4
3005,8 13,69
3012,2 13,5
3021,4 13,28
3058 13,56
3058 13,48
3134,5 13,13
3232 13,56
3282,7 13,35
3282,7 13,15
3341,4 13,1
3346 13,03
3346 12,98
3373,6 12,97
3373,6 12,89
3373,6 12,75
3400,3 12,97
3414 12,64
3435,2 12,9
3441,6 12,73
3450,8 12,53
3487,4 12,79
3487,4 12,71
3563,9 12,4
3661,4 12,79
3712,1 12,59
3712,1 12,42
3770,8 12,38
3775,4 12,31
3775,4 12,26
3803 12,25
3803 12,19
3803 12,06
-------------
3829,7 12,25
3843,4 11,96
3864,6 12,2
3871 12,04
3880,2 11,87
3916,8 12,09
3916,8 12,03
3993,3 11,74
4090,8 12,09
4141,5 11,92
4141,5 11,76
4200,2 11,72
4204,8 11,66
4204,8 11,62
4232,4 11,62
4232,4 11,56
4232,4 11,44
4259,1 11,62
4272,8 11,35
4294 11,56
4300,4 11,43
4309,6 11,27
4346,2 11,47
4346,2 11,41
4422,7 11,16
4520,2 11,47
-------------
(4570,9 11,31
4570,9 11,17
4629,6 11,14
4634,2 11,08
4634,2 11,05
4661,8 11,04
4661,8 10,99
4661,8 10,88
4688,5 11,04
4702,2 10,8
4723,4 10,99
4729,8 10,87
4739 10,73
4775,6 10,91
4775,6 10,86
4852,1 10,62
4949,6 10,91)


Reference:

Poropudas, Hannu, 2009.
Some Linear Extrapolations of Pannella’s
Fossil Time Data for Test Purposes.
533c8763-511e-4ec6-a69e-8f3f1e5d1591
(at)
z6g2000pre.googlegroups.com
Sat, 13 Dec 2008 01:46:49 -0800 (PST).
10 pages.

(sci.bio.paleontology,sci.astro,sci.geo.geology,
sci.physics,sci.math)

(mathematician haporopu
(at)
luukku.com)




On Jan 14, 7:52*am, mathematician wrote:
Testing some ancient time data points with extrapolated Pannella's
fossil time data
---------------------------------------------------------------------------*---------------------------------------------

(Author: H.K.J. Poropudas, Vesaisentie 9E, 90900 Kiiminki, Finland.
Date: 13.1.2009)

Below are few rough estimations of ancient time data. It should be
remembered that
these linear extrapolations are based on my uncertain assumption of
existence of
oscillation of period 429.4 Ma in Pannella's figure 3 (reference 2)
and ages
and data of fossils and stromatolites are in many cases uncertain
too.

The Elatina Formation and Reynella Siltstone
-----------------------------------------------------------------

620 Ma:
-----------
655.6 Ma, 410.28 days/year
(Drawn extrapolated figures give roughly approx. 412 days/year)
639 Ma, 31.49 days/year
(Drawn extrapolated figures give roughly approx. 31.7 days/month)

410.28/31.49 = 13.03 months/year, (primary value = 13.1 +-0.1 months/
year)

649.4 Ma, 13.16 months/year (OUM-DT2 based)
(primary value = 13.1 +-0.1 months/year)

(Drawn extrapolated figures give 412/31.7 = 13.0 months/year)

(13.0-13.2 months/year)

The Big Cottonwood Formation
--------------------------------------------

900 Ma:
-----------
890.2 Ma, 33.34 days/month
897 Ma, 33.06 days/month
904.2 Ma, 33.48 days/month
(33-33.5 days/month, average = 33.29 days/month)
(Drawn extrapolated figure gives roughly approx. 33.4 days/month)

874.4 Ma, 463.33 days/year
911 Ma, 449.61 days/year
911 Ma, 453.42 days/year
(450-463 days/year, average = 455.45 days/year)
(Drawn extrapolated figure gives roughly approx. 451 days/year)

455.45/33.29 = 13.68 months/year, (primary value 13.5 months/year)
(Drawn extrapolated figures give 451/33.4 = 13.5 months/year)

928.8 Ma, 13.71 months/year (OUM-DT2 based)
928.8 Ma, 13.82 months/year (OUM-DT2 based)
(13.7-13.8 months/year, primary value 13.5 months/year)

(13.5-13.8 months/year)

The Weeli Wolli Formation
--------------------------------------

2450 Ma:
-------------
2438.9 Ma, 39.21 days/month
(Drawn extrapolated figure gives roughly approx. 39.2 days/month)

2423.9 Ma, 587.87 days/year
2423.9 Ma, 578.11 days/year
(578-588 days/year, average = 582.99 days/year)
(Drawn extrapolated figure gives roughly approx. 585 days/year)

582.99/39.21 = 14.87 months/year, (primary value = 14.5 +-0.5 months/
year)
(Drawn extrapolated figures give 585/39.2 = 14.9 months/year)

2437 Ma, 15.76 months/year (OUM-DT2 based)
(primary value = 14.5 +-0.5 months/year)

(14.9-15.8 months/year)

Reference (1).

The Gunflint Formation
------------------

1878.3 +-1.3 Ma:
------------------------

1927.2 Ma, 36.97 days/month
(Drawn extrapolated figure gives roughly approx. 37.2 days/month)
1846.3 Ma, 549.75 days/year
(Drawn extrapolated figure gives roughly approx. 533 days/year)

549.75/36.97 = 14.87 months/year (primary value = 14 months/year)
(Drawn extrapolated figures give 533/37.2 = 14.3 months/year)

1937.6 Ma, 14.99 monnths/year (OUM-DT2 based)

(14.3-15.0 months/year)

Age of the Bulawayan stromatolite UCLA-Bul-7 ?
----------------------------------------------------------------------

Mode = 10-20-40, Highest Count = 41.

2576.6.4 Ma, 40.11 days/month
2595 Ma, 40.35 days/month
2607.8 Ma, 40.64 days/month
2614.6 Ma, 40.34 days/month
2621.8 Ma, 40.78 days/month
2634.5 Ma, 41 days/month
2650.8 Ma, 40.9 days/month
2786 Ma, 40.62 days/month
2868.3 Ma, 41.04 days/month

So age of the Bulawayan Stromatolite UCLA-Bul-7 could be:

2580 Ma - 2870 Ma.

(primary value of the age =
(2672 +- 12 Ma - 2715 +- 15 Ma), Upper Bulawayan Group or
(2831 +- 6 Ma - 2904 +- 9 Ma), Lower Bulawayan Group. These both
are not local age determinations from the Bubi Greenstone Belt near
Huntsman Quarries, Zimbabwe.)

Other Time Data for UCLA-Bul-7 stromatolite:
-----------------------------------------------------------------

(40-41 days/month, primary value)
(average = 40.5 days/month, primary value)

2576.4 Ma, 600.75 days/year
2582.8 Ma, 609.88 days/year
2592 Ma, 620.65 days/year
2628.6 Ma, 606.94 days/year
2628.6 Ma, 610.75 days/year
2705.1 Ma, 628.41 days/year
2802.6 Ma, 606.94 days/year
2853.3 Ma, 617.45 days/year
2853.3 Ma, 627.21 days/year
2912 Ma, 629.65 days/year
2916.6 Ma, 633.55 days/year
2916.6 Ma, 636.15 days/year
(average = 7428.33/12 = 619.03 = approx. 619 days/year)

(601-636 days/year)

619/40.5 = 15.3 months/year

OUM-DT2 based estimation:

2576.4 Ma, 16 months/year
2646.4 Ma, 16.15 months/year
2646.4 Ma, 16.26 months/year
2657 Ma, 16.05 months/year
2737.1 Ma, 15.22 months/year
2796.4 Ma, 16.21 months/year
2866.4 Ma, 16.37 months/year
2916.4 Ma, 16.77 months/year

(average = 129.03/8 = 16.13 = approx. 16.1 months/year)

(15.2 - 16.8 months/year)

References (2 and 3).

The Moodies Group
----------------------------

3225 Ma:
-------------

3215.4 Ma, 42.44 days/month
(Drawn extrapolated figure roughly gives approx. 42.8 days/month)
3232 Ma, 646.27 days/year
(Drawn extrapolated figure roughly gives approx. 650 days/year)

646.27/42.44 = 15.23 months/year
(Drawn extrapolated figures give 650/42.8 = 15.2 months/year)

3225.8 Ma, 16.82 months/year (OUM-DT2 based)

(15.2-16.8 months/year)

Reference (4).

REFERENCES:

1. Williams, G.E. 2000.
Reviews of Geophysics, 38, 1/February 2000, pages 37-59.

2. Pannella, G., 1972.
Astrophysics and Space Science, 16, (1972), 212-237.

3. Fralick,P., Davis,D.W., Kissin,S.A., 2002.
Can. J. Earth Sci., 39, 1085-1091.

4. Eriksson,K.A., Simpson,E.L., Mueller,W., 2006.
Sedimentary Geology 190 (2006), 13-24.

5. Poropudas Hannu, 2009.
Some Linear Extrapolations of Pannella's Fossil Time Data for Test
Purposes.

sci.bio.paleontology, sci.astro, sci.geo.geology, sci.physics,
sci.math.
Sat, 13 Dec 2008, 10 pages.

(I have drawn four extrapolated figures (0-1200 Ma, days/year, 0-4600
Ma, days/year,
0-1200 Ma days/month, 0-4600 Ma, days/month) but unfortunately they
are not possible
to give here due this text is in ASCII-format. I could send them via
email by request.
My email address:
hanporop
(at)
luukku.com )