Summary information of 17 populations of <i>L. longiclavatum</i>, including sampling locations and time, host origin, N (sample size), He (genetic diversity), allelic diversity, % polymorphic loci, and I<sub>A</sub> (index of association). Clement Kin-Ming Tsui Lina Farfan Amanda D. Roe Adrianne V. Rice Janice E. K. Cooke Yousry A. El-Kassaby Richard C. Hamelin 10.1371/journal.pone.0105455.t001 https://plos.figshare.com/articles/dataset/_Summary_information_of_17_populations_of_L_longiclavatum_including_sampling_locations_and_time_host_origin_N_sample_size_He_genetic_diversity_allelic_diversity_polymorphic_loci_and_I_A_index_of_association_/1150748 <p>The null hypothesis of random association of alleles in random mating (I<sub>A</sub>  = 0) was tested by comparing the observed value of the statistic with that obtained after 500 randomization to simulate distribution (* p value <0.05; ** p value <0.01).</p><p>*used in manuscript text and figures.</p> 2014-08-25 08:50:05 British Columbia Approximate Bayesian Computation symbiont Grosmannia clavigera bc beetle epidemics distance matrices Population Dynamics Rocky Mountains population expansion pine hosts mountain pine beetle Mountain Pine Beetle Symbiont Leptographium longiclavatum mutualistic relationships Leptographium longiclavatum mpb distribution range population structure