The hypergeometric distribution - theoretical basic for the deviation between replicates in one germination test?

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1 Doubt is the beginning, not the end, of wisdom. ANONYMOUS The hypergeometric distribution - theoretical basic for the deviation between replicates in one germination test? Winfried Jackisch 7 th ISTA Seminar on Statistics 25 Win.Jackisch@t-online.de 1

2 Content 1. Introduction and material 2. Analysis of the number of identical results between the replicates and the distribution on germination results in replicates and subsamples 3. Comparison between the observed and expected variances 4. Observed ranges in comparison to the maximum tolerated ranges 5. The hypergeometric distribution - the solution of the problem 2

3 Frequency distribution of the germination results (G% 4 ) in the data pool No. of events Germination (%) Note: Survey of germination results of commercial seed lots 3

4 Analysis of the Data Pool Data pool was arranged in groups with identical germination (G 4 = ABCD) and has been divided into sub-groups [(G 1 = A, B, C, D), (G 2 = AB,..., CD), (G 3 = ABC,...)] From the arranged data sets following parameters were computed: (i) arithmetic mean (ii) variance (iii) standard deviation (iv) range between the replicates (v) number of identical results between the replicates Following statistical procedure are used : chi²-good fitness test, F-Test Test level: alpha =.5 A B C D AB AC AD BC BD CD ABC ABD ACD BCD n=4 (ABCD) 4

5 Number of identical germination results between the replicates in the laboratories Lab No. A=B A=C A=D B=C B=D C=D H J P V A S Total Uniform distribution: Chi² calc. < Chi² tab. (apart from the row with red numbers) 5

6 Number of identical results between the replicates in different germination groups (G%) G% No. A=B A=C A=D B=C B=D C=D Uniform distribution: Chi² calc. < Chi² tab. (apart from the row with red numbers) 6

7 Distribution on germination results in the replicates with 1 tested seeds from 1.45 standardised tests (G 4 = 95%) 3 25 No. of events A_obs. B_obs. C_obs. D_obs Germination (%) Chi² calc. < Chi² tab. Mean to each replicate 7

8 Comparison between the observed and expected distribution (binomial) in the replicates with 1 seeds from 1.45 tests (G 4 = 95%) 3 No. of events A_observed expected (binomial) Chi² calc. > Chi² tab Germination (%) 8

9 Comparison between the observed and expected distribution (binomial) in the sub-groups with 2 seeds from 1.45 tests (G 4 = 95%) 4 No. of events AB_observed expected (binomial) Chi² calc. > Chi² tab Germination (%) 9

10 Comparison between the observed variance in the germination groups and the expected variance by the binomial model Variance (s²) Germination [n = 4] (%) 1_observed 1_expected (binomial) 2_observed 2_expected (binomial) 4_binomial 1

11 Comparison between the observed and expected variances in seed lots with 9% germination (G 4 ) 1 observed obs.-mean expected (binom.) 8 Variances A B C D AB AC AD BC BD CD ABC ABD ACD BCD ABCD Replicates and sub-groups 11

12 Variances in seed lots with G 4 = 93% in different labs A B C D AB AC AD BC BD CD ABC ABD ACD BCD ABCD variance (s²) A-25 H-424 J-132 P-56 S-22 V-35 expect. Replicates and sub-groups 12

13 Survey on the variances in sub-groups for identical certified seed lots (G 4 ) 12 1 variance (s²) A B C D AB AC AD BC BD CD ABC ABD ACD BCD ABCD 96% 93% 9.% 87% 84% Replicates and sub-groups 13

14 Proportion of the observed ranges in the germination groups which are greater than the tolerated maximum range G 4 (%) R max. * No. results R obs. > R max. * Absolute relative , , , , , , , , ,1 Total: ,56 R max. * = maximum tolerated range by ISTA 14

15 Observed variances in simulated germination results (G 4 = 78-8%) described by the hypergeometric model Variances expected (binomial) observed (without outliers) observed (with outliers) 3 expected (hypergeometric) A B C D AB AC AD BC BD CD ABC ABD ACD BCD ABCD Replicates and sub-groups Source: Jackisch and Vogel (24). 538 germination results contain 17 outliers (= 3,1%) 15

16 Formulae of the binomial and hypergeometric distribution Binomial Distribution Hypergeometric Distribution M N - M n x n - x B (x) = p x (1 - p) n - x H(x) = H(n - x) = x N n n number of tested seeds N total number of tested seeds p proportion of germinated M Number of germinated seeds in N seeds in the seed lot n number of tested seeds in the sub-group x number of germinated seeds in x number of germinated seeds in the sample n the sub-group n s² = n p (1 - p) s² = n (M / N) ( 1 - M / N) (1 - n / N) 16

17 Comparison between the expected STDEV from the B- and H-model and the observed STDEV from two secondary analyses from commercial seed lots STDEV (s) between 4 replicates 5, 4, 3, 2, 1, binomial hypergeometric STDEV (s) between the 4 replicates 5, 4, 3, 2, 1, hypergeometric binomial A B, G 4 (%), Germination (G 4 %) Circle: lab (4.36 values) Triangle: 23-6 labs (9.525 values) 17

19. Blocking & confounding

146 19. Blocking & confounding Importance of blocking to control nuisance factors - day of week, batch of raw material, etc. Complete Blocks. This is the easy case. Suppose we run a 2 2 factorial experiment,