t1 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t1, T, T, F, F, 0.05) [1] "The results where not significant, There is no need for a post hoc test" Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 1.4298, p-value = 0.4806 alternative hypothesis: two.sided t2 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t2, T, T, F, F, 0.05) [1] "The results where not significant, There is no need for a post hoc test" Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 1.4298, p-value = 0.4806 alternative hypothesis: two.sided t3 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t3, T, T, F, F, 0.05) [1] "The results where not significant, There is no need for a post hoc test" Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 1.5922, p-value = 0.383 alternative hypothesis: two.sided t4 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t4, T, T, F, F, 0.05) [1] "The results where not significant, There is no need for a post hoc test" Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 1.9852, p-value = 0.1935 alternative hypothesis: two.sided t5 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t5, T, T, F, F, 0.05) [1] "The results where not significant, There is no need for a post hoc test" Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 1.9852, p-value = 0.1935 alternative hypothesis: two.sided t6 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t6, T, T, F, F, 0.05) [1] "The results where not significant, There is no need for a post hoc test" Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 1.0607, p-value = 0.7135 alternative hypothesis: two.sided t7 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t7, T, T, F, F, 0.05) [1] "The results where not significant, There is no need for a post hoc test" Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 1.5612, p-value = 0.401 alternative hypothesis: two.sided t8 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t8, T, T, F, F, 0.05) [1] "The results where not significant, There is no need for a post hoc test" Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 1.3765, p-value = 0.5142 alternative hypothesis: two.sided t9 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t9, T, T, F, F, 0.05) [1] "The results where not significant, There is no need for a post hoc test" Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.2942, p-value = 0.09934 alternative hypothesis: two.sided t10 friedman.test.with.post.hoc(scores ~ diet | colony, health_t9, T, T, F, F, 0.05) t11 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t11, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.6617, p-value = 0.03887 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.03900614 gen - alt 0.30504184 leaves - alt 0.89929129 gen - fruits 0.79101918 leaves - fruits 0.20030522 leaves - gen 0.72497050 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.6617, p-value = 0.03892 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.03900614 gen - alt 0.30504184 leaves - alt 0.89929129 gen - fruits 0.79101918 leaves - fruits 0.20030522 leaves - gen 0.72497050 t12 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t12, T, T, F, F, 0.05) [1] "The results where not significant, There is no need for a post hoc test" Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.4744, p-value = 0.06389 alternative hypothesis: two.sided t13 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t13, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.1047, p-value = 0.01037 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.01044103 gen - alt 0.40622480 leaves - alt 0.99615408 gen - fruits 0.40622480 leaves - fruits 0.02051026 leaves - gen 0.54333290 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.1047, p-value = 0.01051 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.01044103 gen - alt 0.40622480 leaves - alt 0.99615408 gen - fruits 0.40622480 leaves - fruits 0.02051026 leaves - gen 0.54333290 t14 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t14, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.5932, p-value = 0.04679 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.04724309 gen - alt 0.45837837 leaves - alt 1.00000000 gen - fruits 0.67251726 leaves - fruits 0.04724309 leaves - gen 0.45837837 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.5932, p-value = 0.04683 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.04724309 gen - alt 0.45837837 leaves - alt 1.00000000 gen - fruits 0.67251726 leaves - fruits 0.04724309 leaves - gen 0.45837837 t15 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t15, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.5932, p-value = 0.04714 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.04678192 gen - alt 0.45839259 leaves - alt 1.00000000 gen - fruits 0.67253029 leaves - fruits 0.04678192 leaves - gen 0.45839259 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.5932, p-value = 0.04684 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.04678192 gen - alt 0.45839259 leaves - alt 1.00000000 gen - fruits 0.67253029 leaves - fruits 0.04678192 leaves - gen 0.45839259 t16 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t16, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.5932, p-value = 0.04685 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.04695111 gen - alt 0.45838289 leaves - alt 1.00000000 gen - fruits 0.67251804 leaves - fruits 0.04695111 leaves - gen 0.45838289 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.5932, p-value = 0.04699 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.04695111 gen - alt 0.45838289 leaves - alt 1.00000000 gen - fruits 0.67251804 leaves - fruits 0.04695111 leaves - gen 0.45838289 t17 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t17, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.5932, p-value = 0.04675 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.04659565 gen - alt 0.45835766 leaves - alt 1.00000000 gen - fruits 0.67252870 leaves - fruits 0.04659565 leaves - gen 0.45835766 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.5932, p-value = 0.047 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.04659565 gen - alt 0.45835766 leaves - alt 1.00000000 gen - fruits 0.67252870 leaves - fruits 0.04659565 leaves - gen 0.45835766 t18 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t18, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.4412, p-value = 0.003189 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.003225644 gen - alt 0.730423407 leaves - alt 0.999460555 gen - fruits 0.075297049 leaves - fruits 0.005046222 leaves - gen 0.795420627 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.4412, p-value = 0.003146 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.003225644 gen - alt 0.730423407 leaves - alt 0.999460555 gen - fruits 0.075297049 leaves - fruits 0.005046222 leaves - gen 0.795420627 t19 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t19, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9739, p-value = 0.01533 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.01524260 gen - alt 0.40965168 leaves - alt 0.99526440 gen - fruits 0.48204523 leaves - fruits 0.03165218 leaves - gen 0.55740904 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9739, p-value = 0.01529 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.01524260 gen - alt 0.40965168 leaves - alt 0.99526440 gen - fruits 0.48204523 leaves - fruits 0.03165218 leaves - gen 0.55740904 t20 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t20, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9394, p-value = 0.01749 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.01731015 gen - alt 0.61104750 leaves - alt 0.99483839 gen - fruits 0.31593802 leaves - fruits 0.03558279 leaves - gen 0.76099595 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9394, p-value = 0.01738 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.01731015 gen - alt 0.61104750 leaves - alt 0.99483839 gen - fruits 0.31593802 leaves - fruits 0.03558279 leaves - gen 0.76099595 t21 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t21, T, T, F, F, 0.05) [1] "The results where not significant, There is no need for a post hoc test" Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.4303, p-value = 0.0715 alternative hypothesis: two.sided t22 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t22, T, T, F, F, 0.05) [1] "The results where not significant, There is no need for a post hoc test" Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.4303, p-value = 0.07142 alternative hypothesis: two.sided t23 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t23, T, T, F, F, 0.05) [1] "The results where not significant, There is no need for a post hoc test" Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.4303, p-value = 0.07166 alternative hypothesis: two.sided t24 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t24, T, T, F, F, 0.05) [1] "The results where not significant, There is no need for a post hoc test" Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.357, p-value = 0.08546 alternative hypothesis: two.sided t25 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t25, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9394, p-value = 0.01713 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.01713989 gen - alt 0.61106531 leaves - alt 0.99483845 gen - fruits 0.31594790 leaves - fruits 0.03576703 leaves - gen 0.76099245 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9394, p-value = 0.01723 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.01713989 gen - alt 0.61106531 leaves - alt 0.99483845 gen - fruits 0.31594790 leaves - fruits 0.03576703 leaves - gen 0.76099245 t26 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t26, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.153, p-value = 0.008657 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.008799416 gen - alt 0.541187410 leaves - alt 0.983538460 gen - fruits 0.264127303 leaves - fruits 0.027183763 leaves - gen 0.766470533 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.153, p-value = 0.008809 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.008799416 gen - alt 0.541187410 leaves - alt 0.983538460 gen - fruits 0.264127303 leaves - fruits 0.027183763 leaves - gen 0.766470533 t27 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t27, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.153, p-value = 0.008812 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.009079316 gen - alt 0.541195985 leaves - alt 0.983538693 gen - fruits 0.264293440 leaves - fruits 0.027069319 leaves - gen 0.766474391 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.153, p-value = 0.008715 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.009079316 gen - alt 0.541195985 leaves - alt 0.983538693 gen - fruits 0.264293440 leaves - fruits 0.027069319 leaves - gen 0.766474391 t28 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t28, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.6858, p-value = 0.03662 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.03638608 gen - alt 0.06774820 leaves - alt 1.00000000 gen - fruits 0.99551689 leaves - fruits 0.03638608 leaves - gen 0.06774820 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.6858, p-value = 0.0365 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.03638608 gen - alt 0.06774820 leaves - alt 1.00000000 gen - fruits 0.99551689 leaves - fruits 0.03638608 leaves - gen 0.06774820 t29 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t29, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.736, p-value = 0.03164 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.10760502 gen - alt 0.70748959 leaves - alt 0.96442679 gen - fruits 0.63344910 leaves - fruits 0.03174756 leaves - gen 0.40975187 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.736, p-value = 0.03165 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.10760502 gen - alt 0.70748959 leaves - alt 0.96442679 gen - fruits 0.63344910 leaves - fruits 0.03174756 leaves - gen 0.40975187 t30 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t30, T, T, F, F, 0.05) [1] "The results where not significant, There is no need for a post hoc test" Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.3041, p-value = 0.09701 alternative hypothesis: two.sided > friedman.test(scores ~ diet | colony, data=health_t30) Friedman rank sum test data: scores and diet and colony Friedman chi-squared = 7.2353, df = 3, p-value = 0.06476 t31 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t31, T, T, F, F, 0.05) [1] "The results where not significant, There is no need for a post hoc test" Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.4495, p-value = 0.06774 alternative hypothesis: two.sided t32 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t32, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.4828, p-value = 0.002706 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.626220478 gen - alt 0.983996125 leaves - alt 0.102374011 gen - fruits 0.400897771 leaves - fruits 0.002857282 leaves - gen 0.218971679 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.4828, p-value = 0.00288 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.626220478 gen - alt 0.983996125 leaves - alt 0.102374011 gen - fruits 0.400897771 leaves - fruits 0.002857282 leaves - gen 0.218971679 t33 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t33, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9054, p-value = 0.01898 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.81305764 gen - alt 0.98147045 leaves - alt 0.18008307 gen - fruits 0.58644317 leaves - fruits 0.01914005 leaves - gen 0.35485692 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9054, p-value = 0.01894 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.81305764 gen - alt 0.98147045 leaves - alt 0.18008307 gen - fruits 0.58644317 leaves - fruits 0.01914005 leaves - gen 0.35485692 t34 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t34, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9054, p-value = 0.01956 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.81305878 gen - alt 0.98147069 leaves - alt 0.18013581 gen - fruits 0.58647356 leaves - fruits 0.01901052 leaves - gen 0.35485091 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9054, p-value = 0.01939 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.81305878 gen - alt 0.98147069 leaves - alt 0.18013581 gen - fruits 0.58647356 leaves - fruits 0.01901052 leaves - gen 0.35485091 t35 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t35, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.8823, p-value = 0.02061 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.93193413 gen - alt 0.62623057 leaves - alt 0.10239502 gen - fruits 0.27258366 leaves - fruits 0.02043693 leaves - gen 0.70127126 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.8823, p-value = 0.02072 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.93193413 gen - alt 0.62623057 leaves - alt 0.10239502 gen - fruits 0.27258366 leaves - fruits 0.02043693 leaves - gen 0.70127126 t36 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t36, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.3308, p-value = 0.005016 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.707484473 gen - alt 0.995264408 leaves - alt 0.107594623 gen - fruits 0.557429918 leaves - fruits 0.004783969 leaves - gen 0.179749275 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.3308, p-value = 0.004503 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.707484473 gen - alt 0.995264408 leaves - alt 0.107594623 gen - fruits 0.557429918 leaves - fruits 0.004783969 leaves - gen 0.179749275 t37 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t37, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.2167, p-value = 0.007062 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.822398016 gen - alt 0.960254241 leaves - alt 0.086989827 gen - fruits 0.524030676 leaves - fruits 0.006933727 leaves - gen 0.247352592 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.2167, p-value = 0.007149 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.822398016 gen - alt 0.960254241 leaves - alt 0.086989827 gen - fruits 0.524030676 leaves - fruits 0.006933727 leaves - gen 0.247352592 t38 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t38, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.8169, p-value = 0.025 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 1.00000000 gen - alt 0.92818608 leaves - alt 0.02511602 gen - fruits 0.92818608 leaves - fruits 0.02511602 leaves - gen 0.12199229 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.8169, p-value = 0.02504 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 1.00000000 gen - alt 0.92818608 leaves - alt 0.02511602 gen - fruits 0.92818608 leaves - fruits 0.02511602 leaves - gen 0.12199229 t39 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t39, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9054, p-value = 0.0193 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.74323944 gen - alt 0.92188522 leaves - alt 0.23016834 gen - fruits 0.35484259 leaves - fruits 0.01909566 leaves - gen 0.58645668 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9054, p-value = 0.01906 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.74323944 gen - alt 0.92188522 leaves - alt 0.23016834 gen - fruits 0.35484259 leaves - fruits 0.01909566 leaves - gen 0.58645668 t40 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t40, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9054, p-value = 0.01941 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.74322393 gen - alt 0.92188620 leaves - alt 0.23020163 gen - fruits 0.35488172 leaves - fruits 0.01909362 leaves - gen 0.58643788 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9054, p-value = 0.01923 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.74322393 gen - alt 0.92188620 leaves - alt 0.23020163 gen - fruits 0.35488172 leaves - fruits 0.01909362 leaves - gen 0.58643788 t41 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t41, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.8284, p-value = 0.02413 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.02423693 gen - alt 0.89432486 leaves - alt 0.89432486 gen - fruits 0.14620822 leaves - fruits 0.14620822 leaves - gen 1.00000000 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.8284, p-value = 0.02422 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.02423693 gen - alt 0.89432486 leaves - alt 0.89432486 gen - fruits 0.14620822 leaves - fruits 0.14620822 leaves - gen 1.00000000 t42 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t42, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.8284, p-value = 0.02431 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.0242776 gen - alt 0.8943250 leaves - alt 0.8943250 gen - fruits 0.1460817 leaves - fruits 0.1460817 leaves - gen 1.0000000 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.8284, p-value = 0.02429 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.0242776 gen - alt 0.8943250 leaves - alt 0.8943250 gen - fruits 0.1460817 leaves - fruits 0.1460817 leaves - gen 1.0000000 t43 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t43, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.0641, p-value = 0.01173 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.03422844 gen - alt 0.96535680 leaves - alt 0.98485007 gen - fruits 0.11287686 leaves - fruits 0.01177079 leaves - gen 0.84267477 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.0641, p-value = 0.01157 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.03422844 gen - alt 0.96535680 leaves - alt 0.98485007 gen - fruits 0.11287686 leaves - fruits 0.01177079 leaves - gen 0.84267477 t44 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t44, T, T, F, F, 0.05) [1] "The results where not significant, There is no need for a post hoc test" Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.0889, p-value = 0.1567 alternative hypothesis: two.sided t45 > > friedman.test.with.post.hoc(scores ~ diet | colony, health_t45, T, T, F, F, 0.05) [1] "The results where not significant, There is no need for a post hoc test" Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.0889, p-value = 0.1566 alternative hypothesis: two.sided t46 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t46, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.2404, p-value = 0.006414 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.006673591 gen - alt 0.305019143 leaves - alt 0.724967389 gen - fruits 0.434729402 leaves - fruits 0.123578843 leaves - gen 0.899289775 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.2404, p-value = 0.006596 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.006673591 gen - alt 0.305019143 leaves - alt 0.724967389 gen - fruits 0.434729402 leaves - fruits 0.123578843 leaves - gen 0.899289775 t47 >friedman.test.with.post.hoc(scores ~ diet | colony, health_t47, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.8091, p-value = 0.02594 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.07221537 gen - alt 0.73683000 leaves - alt 0.98088537 gen - fruits 0.49642606 leaves - fruits 0.02573067 leaves - gen 0.49642606 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.8091, p-value = 0.02555 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.07221537 gen - alt 0.73683000 leaves - alt 0.98088537 gen - fruits 0.49642606 leaves - fruits 0.02573067 leaves - gen 0.49642606 t48 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t48, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.2119, p-value = 0.007138 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.007132974 gen - alt 0.226578599 leaves - alt 0.707484816 gen - fruits 0.557434631 leaves - fruits 0.140123864 leaves - gen 0.838934992 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.2119, p-value = 0.00722 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.007132974 gen - alt 0.226578599 leaves - alt 0.707484816 gen - fruits 0.557434631 leaves - fruits 0.140123864 leaves - gen 0.838934992 t49 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t49, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.6858, p-value = 0.03649 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.0362053 gen - alt 0.2970094 leaves - alt 0.8968584 gen - fruits 0.7864603 leaves - fruits 0.1935339 leaves - gen 0.7193337 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.6858, p-value = 0.03649 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.0362053 gen - alt 0.2970094 leaves - alt 0.8968584 gen - fruits 0.7864603 leaves - fruits 0.1935339 leaves - gen 0.7193337 t50 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t50, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.5932, p-value = 0.04704 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.04690434 gen - alt 0.60117134 leaves - alt 0.90604540 gen - fruits 0.52909559 leaves - fruits 0.22092407 leaves - gen 0.94279490 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.5932, p-value = 0.04657 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.04690434 gen - alt 0.60117134 leaves - alt 0.90604540 gen - fruits 0.52909559 leaves - fruits 0.22092407 leaves - gen 0.94279490 t51 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t51, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.5932, p-value = 0.0471 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.0469103 gen - alt 0.6011621 leaves - alt 0.9060458 gen - fruits 0.5290824 leaves - fruits 0.2209119 leaves - gen 0.9427946 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.5932, p-value = 0.04673 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.0469103 gen - alt 0.6011621 leaves - alt 0.9060458 gen - fruits 0.5290824 leaves - fruits 0.2209119 leaves - gen 0.9427946 t52 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t52, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9739, p-value = 0.0153 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.01557699 gen - alt 0.55741375 leaves - alt 0.77682737 gen - fruits 0.34210240 leaves - fruits 0.17970864 leaves - gen 0.98443290 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9739, p-value = 0.0157 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.01557699 gen - alt 0.55741375 leaves - alt 0.77682737 gen - fruits 0.34210240 leaves - fruits 0.17970864 leaves - gen 0.98443290 t53 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t53, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9739, p-value = 0.01535 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.01567428 gen - alt 0.55742304 leaves - alt 0.77683174 gen - fruits 0.34211970 leaves - fruits 0.17968407 leaves - gen 0.98443262 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9739, p-value = 0.0157 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.01567428 gen - alt 0.55742304 leaves - alt 0.77683174 gen - fruits 0.34211970 leaves - fruits 0.17968407 leaves - gen 0.98443262 t54 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t54, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9739, p-value = 0.01549 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.01564277 gen - alt 0.55741146 leaves - alt 0.77683466 gen - fruits 0.34213207 leaves - fruits 0.17966563 leaves - gen 0.98443277 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9739, p-value = 0.01514 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.01564277 gen - alt 0.55741146 leaves - alt 0.77683466 gen - fruits 0.34213207 leaves - fruits 0.17966563 leaves - gen 0.98443277 t55 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t55, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9739, p-value = 0.01535 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.01572288 gen - alt 0.55743282 leaves - alt 0.77683365 gen - fruits 0.34212290 leaves - fruits 0.17975114 leaves - gen 0.98443270 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 2.9739, p-value = 0.01586 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.01572288 gen - alt 0.55743282 leaves - alt 0.77683365 gen - fruits 0.34212290 leaves - fruits 0.17975114 leaves - gen 0.98443270 t56 > friedman.test.with.post.hoc(scores ~ diet | colony, health_t56, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.0971, p-value = 0.01034 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.01087936 gen - alt 0.44278837 leaves - alt 0.09941499 gen - fruits 0.37522349 leaves - fruits 0.85307413 leaves - gen 0.85307413 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.0971, p-value = 0.01041 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.01087936 gen - alt 0.44278837 leaves - alt 0.09941499 gen - fruits 0.37522349 leaves - fruits 0.85307413 leaves - gen 0.85307413