t1 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 1.5492, p-value = 0.4081 alternative hypothesis: two.sided t2 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 1.5492, p-value = 0.4081 alternative hypothesis: two.sided t3 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 1.4142, p-value = 0.4904 alternative hypothesis: two.sided t4 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 2, p-value = 0.1878 alternative hypothesis: two.sided t5 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 0.8165, p-value = 0.8467 alternative hypothesis: two.sided t6 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_t6, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.4107, p-value = 0.00353 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.019456521 gen - alt 0.999280298 leaves - alt 0.957852011 gen - fruits 0.027714087 leaves - fruits 0.003741122 leaves - gen 0.921885838 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.4107, p-value = 0.003768 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.019456521 gen - alt 0.999280298 leaves - alt 0.957852011 gen - fruits 0.027714087 leaves - fruits 0.003741122 leaves - gen 0.921885838 t7 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_t7, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.3404, p-value = 0.00467 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.022712647 gen - alt 0.926182939 leaves - alt 0.960254026 gen - fruits 0.115930662 leaves - fruits 0.004535325 leaves - gen 0.681227937 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.3404, p-value = 0.004699 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.022712647 gen - alt 0.926182939 leaves - alt 0.960254026 gen - fruits 0.115930662 leaves - fruits 0.004535325 leaves - gen 0.681227937 t8 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_t8, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.4107, p-value = 0.003779 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.019341560 gen - alt 0.999280297 leaves - alt 0.957852165 gen - fruits 0.027415113 leaves - fruits 0.003562657 leaves - gen 0.921885299 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.4107, p-value = 0.003528 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.019341560 gen - alt 0.999280297 leaves - alt 0.957852165 gen - fruits 0.027415113 leaves - fruits 0.003562657 leaves - gen 0.921885299 t9 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_t9, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.6634, p-value = 0.00146 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.005433599 gen - alt 0.999280297 leaves - alt 0.981470605 gen - fruits 0.008382014 leaves - fruits 0.001332184 leaves - gen 0.957851540 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.6634, p-value = 0.001451 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.005433599 gen - alt 0.999280297 leaves - alt 0.981470605 gen - fruits 0.008382014 leaves - fruits 0.001332184 leaves - gen 0.957851540 t10 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_t10, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.5753, p-value = 0.001842 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.011503335 gen - alt 1.000000000 leaves - alt 0.956559149 gen - fruits 0.011503335 leaves - fruits 0.002136262 leaves - gen 0.956559149 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.5753, p-value = 0.002013 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.011503335 gen - alt 1.000000000 leaves - alt 0.956559149 gen - fruits 0.011503335 leaves - fruits 0.002136262 leaves - gen 0.956559149 t11 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.6556, p-value = 0.001493 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001632682 gen - alt 0.953765171 leaves - alt 1.000000000 gen - fruits 0.009287781 leaves - fruits 0.001632682 leaves - gen 0.953765171 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.6556, p-value = 0.001491 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001632682 gen - alt 0.953765171 leaves - alt 1.000000000 gen - fruits 0.009287781 leaves - fruits 0.001632682 leaves - gen 0.953765171 t12 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_t12, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.62, p-value = 0.001595 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.00165848 gen - alt 0.19356799 leaves - alt 1.00000000 gen - fruits 0.35894289 leaves - fruits 0.00165848 leaves - gen 0.19356799 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.62, p-value = 0.001561 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.00165848 gen - alt 0.19356799 leaves - alt 1.00000000 gen - fruits 0.35894289 leaves - fruits 0.00165848 leaves - gen 0.19356799 t13 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.7395, p-value = 0.00118 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.00109447 gen - alt 0.07353222 leaves - alt 1.00000000 gen - fruits 0.55022409 leaves - fruits 0.00109447 leaves - gen 0.07353222 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.7395, p-value = 0.001102 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.00109447 gen - alt 0.07353222 leaves - alt 1.00000000 gen - fruits 0.55022409 leaves - fruits 0.00109447 leaves - gen 0.07353222 t14 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.7395, p-value = 0.001104 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.0009659063 gen - alt 0.0734290789 leaves - alt 1.0000000000 gen - fruits 0.5502150974 leaves - fruits 0.0009659063 leaves - gen 0.0734290789 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.7395, p-value = 0.001261 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.0009659063 gen - alt 0.0734290789 leaves - alt 1.0000000000 gen - fruits 0.5502150974 leaves - fruits 0.0009659063 leaves - gen 0.0734290789 t15 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.7395, p-value = 0.001038 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001081881 gen - alt 0.073420760 leaves - alt 1.000000000 gen - fruits 0.550208620 leaves - fruits 0.001081881 leaves - gen 0.073420760 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.7395, p-value = 0.001062 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001081881 gen - alt 0.073420760 leaves - alt 1.000000000 gen - fruits 0.550208620 leaves - fruits 0.001081881 leaves - gen 0.073420760 t16 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.7395, p-value = 0.0009449 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.0009631297 gen - alt 0.0732470199 leaves - alt 1.0000000000 gen - fruits 0.5502118427 leaves - fruits 0.0009631297 leaves - gen 0.0732470199 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.7395, p-value = 0.001047 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.0009631297 gen - alt 0.0732470199 leaves - alt 1.0000000000 gen - fruits 0.5502118427 leaves - fruits 0.0009631297 leaves - gen 0.0732470199 t17 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.7395, p-value = 0.0009233 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001067109 gen - alt 0.073147057 leaves - alt 1.000000000 gen - fruits 0.550214584 leaves - fruits 0.001067109 leaves - gen 0.073147057 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.7395, p-value = 0.001019 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001067109 gen - alt 0.073147057 leaves - alt 1.000000000 gen - fruits 0.550214584 leaves - fruits 0.001067109 leaves - gen 0.073147057 t18 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.6634, p-value = 0.001261 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001348683 gen - alt 0.813054802 leaves - alt 1.000000000 gen - fruits 0.028135013 leaves - fruits 0.001348683 leaves - gen 0.813054802 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.6634, p-value = 0.001461 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001348683 gen - alt 0.813054802 leaves - alt 1.000000000 gen - fruits 0.028135013 leaves - fruits 0.001348683 leaves - gen 0.813054802 t19 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.6742, p-value = 0.001386 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001467206 gen - alt 0.611061567 leaves - alt 1.000000000 gen - fruits 0.068177634 leaves - fruits 0.001467206 leaves - gen 0.611061567 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.6742, p-value = 0.001394 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001467206 gen - alt 0.611061567 leaves - alt 1.000000000 gen - fruits 0.068177634 leaves - fruits 0.001467206 leaves - gen 0.611061567 t20 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.6634, p-value = 0.0013 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001372333 gen - alt 0.813051715 leaves - alt 1.000000000 gen - fruits 0.027720113 leaves - fruits 0.001372333 leaves - gen 0.813051715 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.6634, p-value = 0.001449 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001372333 gen - alt 0.813051715 leaves - alt 1.000000000 gen - fruits 0.027720113 leaves - fruits 0.001372333 leaves - gen 0.813051715 t21 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_t21, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.6634, p-value = 0.001375 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001379123 gen - alt 0.813054202 leaves - alt 1.000000000 gen - fruits 0.028068764 leaves - fruits 0.001379123 leaves - gen 0.813054202 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.6634, p-value = 0.001463 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001379123 gen - alt 0.813054202 leaves - alt 1.000000000 gen - fruits 0.028068764 leaves - fruits 0.001379123 leaves - gen 0.813054202 t22 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_t22, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.6634, p-value = 0.001496 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001430848 gen - alt 0.813064074 leaves - alt 1.000000000 gen - fruits 0.027235807 leaves - fruits 0.001430848 leaves - gen 0.813064074 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.6634, p-value = 0.001364 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001430848 gen - alt 0.813064074 leaves - alt 1.000000000 gen - fruits 0.027235807 leaves - fruits 0.001430848 leaves - gen 0.813064074 t23 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_t23, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.8188, p-value = 0.0007059 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.2478290817 gen - alt 0.9878974922 leaves - alt 0.2017750268 gen - fruits 0.1283870326 leaves - fruits 0.0006692326 leaves - gen 0.3579445309 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.8188, p-value = 0.0008042 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.2478290817 gen - alt 0.9878974922 leaves - alt 0.2017750268 gen - fruits 0.1283870326 leaves - fruits 0.0006692326 leaves - gen 0.3579445309 t24 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_t24, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.8188, p-value = 0.0007862 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.2999814297 gen - alt 0.7597486744 leaves - alt 0.1620701608 gen - fruits 0.0323118233 leaves - fruits 0.0006970639 leaves - gen 0.6949991914 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.8188, p-value = 0.0007551 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.2999814297 gen - alt 0.7597486744 leaves - alt 0.1620701608 gen - fruits 0.0323118233 leaves - fruits 0.0006970639 leaves - gen 0.6949991914 t25 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.8188, p-value = 0.0006944 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.3000297514 gen - alt 0.7597473285 leaves - alt 0.1618216669 gen - fruits 0.0323218808 leaves - fruits 0.0007080401 leaves - gen 0.6950033509 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.8188, p-value = 0.0007246 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.3000297514 gen - alt 0.7597473285 leaves - alt 0.1618216669 gen - fruits 0.0323218808 leaves - fruits 0.0007080401 leaves - gen 0.6950033509 t26 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.9279, p-value = 0.0005193 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.357914521 gen - alt 0.201771207 leaves - alt 0.100035795 gen - fruits 0.001585607 leaves - fruits 0.000556657 leaves - gen 0.987897479 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.9279, p-value = 0.0005562 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.357914521 gen - alt 0.201771207 leaves - alt 0.100035795 gen - fruits 0.001585607 leaves - fruits 0.000556657 leaves - gen 0.987897479 t27 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.9279, p-value = 0.0004748 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.299908765 gen - alt 0.556939488 leaves - alt 0.128192050 gen - fruits 0.011836397 leaves - fruits 0.000539117 leaves - gen 0.818915451 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.9279, p-value = 0.0004239 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.299908765 gen - alt 0.556939488 leaves - alt 0.128192050 gen - fruits 0.011836397 leaves - fruits 0.000539117 leaves - gen 0.818915451 t28 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.9279, p-value = 0.000499 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.3000201479 gen - alt 0.5569370637 leaves - alt 0.1280174906 gen - fruits 0.0122207967 leaves - fruits 0.0004287488 leaves - gen 0.8189158173 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.9279, p-value = 0.0004744 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.3000201479 gen - alt 0.5569370637 leaves - alt 0.1280174906 gen - fruits 0.0122207967 leaves - fruits 0.0004287488 leaves - gen 0.8189158173 t29 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 4.0054, p-value = 0.0003125 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.2543708565 gen - alt 0.4947095097 leaves - alt 0.1329776577 gen - fruits 0.0061730593 leaves - fruits 0.0003483452 leaves - gen 0.8733606082 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 4.0054, p-value = 0.0003313 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.2543708565 gen - alt 0.4947095097 leaves - alt 0.1329776577 gen - fruits 0.0061730593 leaves - fruits 0.0003483452 leaves - gen 0.8733606082 t30 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_t30, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 4.0054, p-value = 0.0003482 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.254324812 gen - alt 0.494708116 leaves - alt 0.133143466 gen - fruits 0.006428369 leaves - fruits 0.000330350 leaves - gen 0.873361390 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 4.0054, p-value = 0.0003444 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.254324812 gen - alt 0.494708116 leaves - alt 0.133143466 gen - fruits 0.006428369 leaves - fruits 0.000330350 leaves - gen 0.873361390 t31 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_t31, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 4.037, p-value = 0.0003234 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.2476954536 gen - alt 0.7597506928 leaves - alt 0.1281419102 gen - fruits 0.0237151006 leaves - fruits 0.0003446574 leaves - gen 0.6266962000 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 4.037, p-value = 0.0003996 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.2476954536 gen - alt 0.7597506928 leaves - alt 0.1281419102 gen - fruits 0.0237151006 leaves - fruits 0.0003446574 leaves - gen 0.6266962000 t32 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.9279, p-value = 0.0005658 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.2999845006 gen - alt 0.5569450269 leaves - alt 0.1282360616 gen - fruits 0.0119270124 leaves - fruits 0.0004498088 leaves - gen 0.8189161564 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.9279, p-value = 0.0005827 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.2999845006 gen - alt 0.5569450269 leaves - alt 0.1282360616 gen - fruits 0.0119270124 leaves - fruits 0.0004498088 leaves - gen 0.8189161564 t33 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.7889, p-value = 0.0008109 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.3650485237 gen - alt 0.6326800937 leaves - alt 0.1329998022 gen - fruits 0.0250154409 leaves - fruits 0.0008702315 leaves - gen 0.7641318504 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.7889, p-value = 0.0008324 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.3650485237 gen - alt 0.6326800937 leaves - alt 0.1329998022 gen - fruits 0.0250154409 leaves - fruits 0.0008702315 leaves - gen 0.7641318504 t34 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 4.0054, p-value = 0.0003787 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.2543545057 gen - alt 0.9489040766 leaves - alt 0.1330656347 gen - fruits 0.0804972239 leaves - fruits 0.0005070636 leaves - gen 0.3651075133 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 4.0054, p-value = 0.0003547 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.2543545057 gen - alt 0.9489040766 leaves - alt 0.1330656347 gen - fruits 0.0804972239 leaves - fruits 0.0005070636 leaves - gen 0.3651075133 t35 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.184, p-value = 0.007655 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 1.000000000 gen - alt 0.104167448 leaves - alt 0.008150682 gen - fruits 0.104167448 leaves - fruits 0.008150682 leaves - gen 0.799677834 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.184, p-value = 0.008273 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 1.000000000 gen - alt 0.104167448 leaves - alt 0.008150682 gen - fruits 0.104167448 leaves - fruits 0.008150682 leaves - gen 0.799677834 t36 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.4114, p-value = 0.003427 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.986346171 gen - alt 0.103938527 leaves - alt 0.011343603 gen - fruits 0.044230864 leaves - fruits 0.003459179 leaves - gen 0.856293001 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.4114, p-value = 0.003758 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.986346171 gen - alt 0.103938527 leaves - alt 0.011343603 gen - fruits 0.044230864 leaves - fruits 0.003459179 leaves - gen 0.856293001 t37 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.184, p-value = 0.00851 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 1.000000000 gen - alt 0.104186543 leaves - alt 0.007871224 gen - fruits 0.104186543 leaves - fruits 0.007871224 leaves - gen 0.799678919 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.184, p-value = 0.007658 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 1.000000000 gen - alt 0.104186543 leaves - alt 0.007871224 gen - fruits 0.104186543 leaves - fruits 0.007871224 leaves - gen 0.799678919 t38 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.184, p-value = 0.007751 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 1.000000000 gen - alt 0.104191637 leaves - alt 0.008128028 gen - fruits 0.104191637 leaves - fruits 0.008128028 leaves - gen 0.799671374 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.184, p-value = 0.008028 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 1.000000000 gen - alt 0.104191637 leaves - alt 0.008128028 gen - fruits 0.104191637 leaves - fruits 0.008128028 leaves - gen 0.799671374 t39 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.184, p-value = 0.008056 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 1.000000000 gen - alt 0.104050214 leaves - alt 0.007628702 gen - fruits 0.104050214 leaves - fruits 0.007628702 leaves - gen 0.799679009 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.184, p-value = 0.0079 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 1.000000000 gen - alt 0.104050214 leaves - alt 0.007628702 gen - fruits 0.104050214 leaves - fruits 0.007628702 leaves - gen 0.799679009 t40 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.4293, p-value = 0.003602 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.017364192 gen - alt 0.961371481 leaves - alt 0.961371481 gen - fruits 0.067754740 leaves - fruits 0.003777034 leaves - gen 0.760991366 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.4293, p-value = 0.003293 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.017364192 gen - alt 0.961371481 leaves - alt 0.961371481 gen - fruits 0.067754740 leaves - fruits 0.003777034 leaves - gen 0.760991366 t41 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.5, p-value = 0.002614 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.002624138 gen - alt 0.749392242 leaves - alt 1.000000000 gen - fruits 0.060249403 leaves - fruits 0.002624138 leaves - gen 0.749392242 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.5, p-value = 0.00261 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.002624138 gen - alt 0.749392242 leaves - alt 1.000000000 gen - fruits 0.060249403 leaves - fruits 0.002624138 leaves - gen 0.749392242 t42 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.5168, p-value = 0.002552 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.008639525 gen - alt 0.930103412 leaves - alt 0.983538735 gen - fruits 0.052570633 leaves - fruits 0.002473048 leaves - gen 0.766465404 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.5168, p-value = 0.002348 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.008639525 gen - alt 0.930103412 leaves - alt 0.983538735 gen - fruits 0.052570633 leaves - fruits 0.002473048 leaves - gen 0.766465404 t43 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.6742, p-value = 0.001386 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.005158424 gen - alt 0.961370839 leaves - alt 0.983059016 gen - fruits 0.025157107 leaves - fruits 0.001248519 leaves - gen 0.826790336 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.6742, p-value = 0.001212 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.005158424 gen - alt 0.961370839 leaves - alt 0.983059016 gen - fruits 0.025157107 leaves - fruits 0.001248519 leaves - gen 0.826790336 t44 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_t44, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.5, p-value = 0.002546 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.009200502 gen - alt 0.994517574 leaves - alt 0.982026680 gen - fruits 0.020774796 leaves - fruits 0.002498775 leaves - gen 0.924083940 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.5, p-value = 0.002707 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.009200502 gen - alt 0.994517574 leaves - alt 0.982026680 gen - fruits 0.020774796 leaves - fruits 0.002498775 leaves - gen 0.924083940 t45 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_t45, T, T, F, F, 0.05) $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.5, p-value = 0.00266 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.009470724 gen - alt 0.994517545 leaves - alt 0.982026783 gen - fruits 0.020923298 leaves - fruits 0.002441251 leaves - gen 0.924083842 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.5, p-value = 0.002602 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.009470724 gen - alt 0.994517545 leaves - alt 0.982026783 gen - fruits 0.020923298 leaves - fruits 0.002441251 leaves - gen 0.924083842 t46 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.25, p-value = 0.007009 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.006311027 gen - alt 0.994517563 leaves - alt 1.000000000 gen - fruits 0.014466772 leaves - fruits 0.006311027 leaves - gen 0.994517563 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.25, p-value = 0.006467 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.006311027 gen - alt 0.994517563 leaves - alt 1.000000000 gen - fruits 0.014466772 leaves - fruits 0.006311027 leaves - gen 0.994517563 t47 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.25, p-value = 0.006439 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.006870332 gen - alt 0.994517557 leaves - alt 1.000000000 gen - fruits 0.014273901 leaves - fruits 0.006870332 leaves - gen 0.994517557 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.25, p-value = 0.006101 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.006870332 gen - alt 0.994517557 leaves - alt 1.000000000 gen - fruits 0.014273901 leaves - fruits 0.006870332 leaves - gen 0.994517557 t48 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.25, p-value = 0.006433 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.006262998 gen - alt 0.994517602 leaves - alt 1.000000000 gen - fruits 0.014349189 leaves - fruits 0.006262998 leaves - gen 0.994517602 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.25, p-value = 0.00631 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.006262998 gen - alt 0.994517602 leaves - alt 1.000000000 gen - fruits 0.014349189 leaves - fruits 0.006262998 leaves - gen 0.994517602 t49 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.25, p-value = 0.006376 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.006543684 gen - alt 0.994517553 leaves - alt 1.000000000 gen - fruits 0.014092975 leaves - fruits 0.006543684 leaves - gen 0.994517553 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.25, p-value = 0.006161 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.006543684 gen - alt 0.994517553 leaves - alt 1.000000000 gen - fruits 0.014092975 leaves - fruits 0.006543684 leaves - gen 0.994517553 t50 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.4412, p-value = 0.003252 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.003086015 gen - alt 0.256691932 leaves - alt 0.901630636 gen - fruits 0.375229265 leaves - fruits 0.030192325 leaves - gen 0.660263771 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.4412, p-value = 0.003145 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.003086015 gen - alt 0.256691932 leaves - alt 0.901630636 gen - fruits 0.375229265 leaves - fruits 0.030192325 leaves - gen 0.660263771 t51 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.4107, p-value = 0.003579 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.003623589 gen - alt 0.999280299 leaves - alt 1.000000000 gen - fruits 0.005568661 leaves - fruits 0.003623589 leaves - gen 0.999280299 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.4107, p-value = 0.003789 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.003623589 gen - alt 0.999280299 leaves - alt 1.000000000 gen - fruits 0.005568661 leaves - fruits 0.003623589 leaves - gen 0.999280299 t52 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.6634, p-value = 0.001524 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001346768 gen - alt 0.957852191 leaves - alt 0.981470577 gen - fruits 0.008547734 leaves - fruits 0.005894592 leaves - gen 0.999280302 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.6634, p-value = 0.001401 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001346768 gen - alt 0.957852191 leaves - alt 0.981470577 gen - fruits 0.008547734 leaves - fruits 0.005894592 leaves - gen 0.999280302 t53 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.6634, p-value = 0.001354 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001343853 gen - alt 0.957852224 leaves - alt 0.981470543 gen - fruits 0.008430105 leaves - fruits 0.005630567 leaves - gen 0.999280303 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.6634, p-value = 0.001345 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001343853 gen - alt 0.957852224 leaves - alt 0.981470543 gen - fruits 0.008430105 leaves - fruits 0.005630567 leaves - gen 0.999280303 t54 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.6634, p-value = 0.001526 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001561425 gen - alt 0.957851910 leaves - alt 0.981470564 gen - fruits 0.008535481 leaves - fruits 0.005506706 leaves - gen 0.999280298 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.6634, p-value = 0.001308 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001561425 gen - alt 0.957851910 leaves - alt 0.981470564 gen - fruits 0.008535481 leaves - fruits 0.005506706 leaves - gen 0.999280298 t55 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.6634, p-value = 0.001372 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001327121 gen - alt 0.957851770 leaves - alt 0.981470836 gen - fruits 0.008594594 leaves - fruits 0.005697469 leaves - gen 0.999280300 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.6634, p-value = 0.001328 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001327121 gen - alt 0.957851770 leaves - alt 0.981470836 gen - fruits 0.008594594 leaves - fruits 0.005697469 leaves - gen 0.999280300 t56 > friedman.test.with.post.hoc(scores ~ diet | colony, degradation_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 = 3.6029, p-value = 0.001718 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001978422 gen - alt 0.963454237 leaves - alt 0.626200876 gen - fruits 0.009864294 leaves - fruits 0.076770615 leaves - gen 0.888941675 $Friedman.Test Asymptotic General Symmetry Test data: scores by diet (alt, fruits, gen, leaves) stratified by colony maxT = 3.6029, p-value = 0.001668 alternative hypothesis: two.sided $PostHoc.Test fruits - alt 0.001978422 gen - alt 0.963454237 leaves - alt 0.626200876 gen - fruits 0.009864294 leaves - fruits 0.076770615 leaves - gen 0.888941675