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maximum wald chi-square value  (CH Instruments)

 
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    CH Instruments maximum wald chi-square value
    Effect of water level on: (A) queen survival, (B) queen wet mass, (C) queen water mass, (D) queen dry mass, and (E) number of brood (larvae, pupae, and workers) produced by single queens of the seed‐harvester ant Veromessor pergandei . Values are means + 1 SE . Within each panel, significant differences across moisture levels are indicated by the letters a‐b: a > b. Groupings are based on (A) a <t>Wald</t> chi‐square statistic (see text) or (B–E) a one‐way ANOVA followed by Duncan's multiple range test. Note that the one‐way ANOVA in panel D was not significant ( p = 0.08), while Duncan's multiple range test was significant ( p < 0.05). Initial sample size for each treatment is given in panel A; number of queens that survived to the end of the experiment (panels B–E) is given in panel B. ND = no data as no queens survived this treatment
    Maximum Wald Chi Square Value, supplied by CH Instruments, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/maximum wald chi-square value/product/CH Instruments
    Average 90 stars, based on 1 article reviews
    maximum wald chi-square value - by Bioz Stars, 2026-04
    90/100 stars

    Images

    1) Product Images from "Desiccation limits recruitment in the pleometrotic desert seed‐harvester ant Veromessor pergandei"

    Article Title: Desiccation limits recruitment in the pleometrotic desert seed‐harvester ant Veromessor pergandei

    Journal: Ecology and Evolution

    doi: 10.1002/ece3.7039

    Effect of water level on: (A) queen survival, (B) queen wet mass, (C) queen water mass, (D) queen dry mass, and (E) number of brood (larvae, pupae, and workers) produced by single queens of the seed‐harvester ant Veromessor pergandei . Values are means + 1 SE . Within each panel, significant differences across moisture levels are indicated by the letters a‐b: a > b. Groupings are based on (A) a Wald chi‐square statistic (see text) or (B–E) a one‐way ANOVA followed by Duncan's multiple range test. Note that the one‐way ANOVA in panel D was not significant ( p = 0.08), while Duncan's multiple range test was significant ( p < 0.05). Initial sample size for each treatment is given in panel A; number of queens that survived to the end of the experiment (panels B–E) is given in panel B. ND = no data as no queens survived this treatment
    Figure Legend Snippet: Effect of water level on: (A) queen survival, (B) queen wet mass, (C) queen water mass, (D) queen dry mass, and (E) number of brood (larvae, pupae, and workers) produced by single queens of the seed‐harvester ant Veromessor pergandei . Values are means + 1 SE . Within each panel, significant differences across moisture levels are indicated by the letters a‐b: a > b. Groupings are based on (A) a Wald chi‐square statistic (see text) or (B–E) a one‐way ANOVA followed by Duncan's multiple range test. Note that the one‐way ANOVA in panel D was not significant ( p = 0.08), while Duncan's multiple range test was significant ( p < 0.05). Initial sample size for each treatment is given in panel A; number of queens that survived to the end of the experiment (panels B–E) is given in panel B. ND = no data as no queens survived this treatment

    Techniques Used: Produced

    Percent survival for queens of the seed‐harvester ant Veromessor pergandei in the two‐factor bottle experiment (three queen numbers by three water levels). Significant differences across treatment cells are indicated by the letters a‐d: a > b > c > d. Groupings are based on the Wald chi‐square statistic (see text). Sample size per treatment cell; n = 120 queens for 0 and 5 mls water, n = 60 queens for 10 mls water
    Figure Legend Snippet: Percent survival for queens of the seed‐harvester ant Veromessor pergandei in the two‐factor bottle experiment (three queen numbers by three water levels). Significant differences across treatment cells are indicated by the letters a‐d: a > b > c > d. Groupings are based on the Wald chi‐square statistic (see text). Sample size per treatment cell; n = 120 queens for 0 and 5 mls water, n = 60 queens for 10 mls water

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    maximum wald chi-square value  (CH Instruments)
    90
    CH Instruments maximum wald chi-square value
    Effect of water level on: (A) queen survival, (B) queen wet mass, (C) queen water mass, (D) queen dry mass, and (E) number of brood (larvae, pupae, and workers) produced by single queens of the seed‐harvester ant Veromessor pergandei . Values are means + 1 SE . Within each panel, significant differences across moisture levels are indicated by the letters a‐b: a > b. Groupings are based on (A) a <t>Wald</t> chi‐square statistic (see text) or (B–E) a one‐way ANOVA followed by Duncan's multiple range test. Note that the one‐way ANOVA in panel D was not significant ( p = 0.08), while Duncan's multiple range test was significant ( p < 0.05). Initial sample size for each treatment is given in panel A; number of queens that survived to the end of the experiment (panels B–E) is given in panel B. ND = no data as no queens survived this treatment
    Maximum Wald Chi Square Value, supplied by CH Instruments, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/maximum wald chi-square value/product/CH Instruments
    Average 90 stars, based on 1 article reviews
    maximum wald chi-square value - by Bioz Stars, 2026-04
    90/100 stars
    		  Buy from Supplier

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    Effect of water level on: (A) queen survival, (B) queen wet mass, (C) queen water mass, (D) queen dry mass, and (E) number of brood (larvae, pupae, and workers) produced by single queens of the seed‐harvester ant Veromessor pergandei . Values are means + 1 SE . Within each panel, significant differences across moisture levels are indicated by the letters a‐b: a > b. Groupings are based on (A) a Wald chi‐square statistic (see text) or (B–E) a one‐way ANOVA followed by Duncan's multiple range test. Note that the one‐way ANOVA in panel D was not significant ( p = 0.08), while Duncan's multiple range test was significant ( p < 0.05). Initial sample size for each treatment is given in panel A; number of queens that survived to the end of the experiment (panels B–E) is given in panel B. ND = no data as no queens survived this treatment

    Journal: Ecology and Evolution

    Article Title: Desiccation limits recruitment in the pleometrotic desert seed‐harvester ant Veromessor pergandei

    doi: 10.1002/ece3.7039

    Figure Lengend Snippet: Effect of water level on: (A) queen survival, (B) queen wet mass, (C) queen water mass, (D) queen dry mass, and (E) number of brood (larvae, pupae, and workers) produced by single queens of the seed‐harvester ant Veromessor pergandei . Values are means + 1 SE . Within each panel, significant differences across moisture levels are indicated by the letters a‐b: a > b. Groupings are based on (A) a Wald chi‐square statistic (see text) or (B–E) a one‐way ANOVA followed by Duncan's multiple range test. Note that the one‐way ANOVA in panel D was not significant ( p = 0.08), while Duncan's multiple range test was significant ( p < 0.05). Initial sample size for each treatment is given in panel A; number of queens that survived to the end of the experiment (panels B–E) is given in panel B. ND = no data as no queens survived this treatment

    Article Snippet: Strength of the grouping effect can be assessed across water levels using the maximum Wald chi‐square value for comparisons across queen number within each water level.

    Techniques: Produced

    Percent survival for queens of the seed‐harvester ant Veromessor pergandei in the two‐factor bottle experiment (three queen numbers by three water levels). Significant differences across treatment cells are indicated by the letters a‐d: a > b > c > d. Groupings are based on the Wald chi‐square statistic (see text). Sample size per treatment cell; n = 120 queens for 0 and 5 mls water, n = 60 queens for 10 mls water

    Journal: Ecology and Evolution

    Article Title: Desiccation limits recruitment in the pleometrotic desert seed‐harvester ant Veromessor pergandei

    doi: 10.1002/ece3.7039

    Figure Lengend Snippet: Percent survival for queens of the seed‐harvester ant Veromessor pergandei in the two‐factor bottle experiment (three queen numbers by three water levels). Significant differences across treatment cells are indicated by the letters a‐d: a > b > c > d. Groupings are based on the Wald chi‐square statistic (see text). Sample size per treatment cell; n = 120 queens for 0 and 5 mls water, n = 60 queens for 10 mls water

    Article Snippet: Strength of the grouping effect can be assessed across water levels using the maximum Wald chi‐square value for comparisons across queen number within each water level.

    Techniques: