Virulence and Molecular Diversity of Venturia inaequalis in Commercial Apple Growing Regions in Kashmir

Seventy‐one isolates of Venturia inaequalis collected from commercial apple growing areas of Kashmir were characterized on international differential apple hosts and analyzed by Random Amplified Polymorphic Microsatellites (RAMS), PCR–RFLP and sequencing of rDNA for elucidation of variability. Virulence analysis on a differential set categorized them into four pathogenic races, viz. (0), (1), (2) and (1,2) in the first time comprehensive molecular analysis of this in India and especially from Jammu and Kashmir, a north‐western Himalayan state of India. Race groups (0), (1), (2) and (1,2) contained isolates from diverse areas without specificity to any geographical zone or region. Cluster analysis of the RAMS and PCR–RFLP revealed a high genotypic diversity within V. inaequalis isolates. Three major clusters were obtained and the isolates could not be categorized on the basis of either their geographical distribution or the cultivar from which they were isolated. amova analysis of pathogen populations at regional or race level revealed high diversity within the populations. Pairwise F_ST comparisons between the populations revealed less genetic differentiation, thereby indicating existence of frequent gene flow in Kashmir. The 24 rDNA sequences of V. inaequalis showed high haplotype diversity of 0.938 and 0.40 nucleotide diversity. Again clustering at regional or race level detected greater part of variability within groups than among groups, thereby indicating high diversity in V. inaequalis populations in Kashmir valley.     

Genetic diversity analysis of <Emphasis Type="Italic">Sclerotinia sclerotiorum</Emphasis> causing stem rot in chickpea using RAPD,ITS-RFLP,ITS sequencing and mycelial compatibility grouping

Sclerotinia sclerotiorum is one of the most devastating soil-inhabiting fungal plant pathogens infecting various crop plants including chickpea. Genetic diversity of 24 isolates of S. sclerotiorum representing 10 different states of India was determined by different molecular markers and mycelial compatibility grouping (MCG). The majority of the isolates showed more than 90% genetic similarity. Unweighted paired group method with arithmetic average cluster analysis of DNA profiles generated by 21 RAPD primers grouped the isolates into seven categories showing high magnitude of genetic homogeneity and showed partial correlation with geographical origin of the isolates. Identical ITS-RFLP profiles were generated in all the isolates. Limited variability was observed among the nucleotide sequences of ITS region of the isolates. The phylogenetic tree generated from bootstrap neighbor-joining analysis indicated that 50% of Indian populations were distinct and grouped separately. The isolates were variable in mycelial compatibility and they were grouped into seven MCGs, namely, MCG A, MCG B, MCG C, MCG D, MCG E, MCG F and MCG G.     

Phylogeny,morphology and pathogenicity of Elsinoë ampelina,the causal agent of grapevine anthracnose in Brazil and Australia

Anthracnose caused by Elsinoë ampelina is one of the most important table grape diseases in humid regions in Brazil and Australia. The objective of this study was to characterize E. ampelina isolates from Brazil and Australia by means of phylogenetic analyses, morphological features and pathogenicity tests. Phylogenetic relationships among 35 isolates were determined based on a data set of internal transcribed spacer (ITS), histone H3 (HIS3) and elongation factor 1‐α (TEF) sequences. In phylogenetic tree analyses, using a combined ITS and TEF sequence alignment, all E. ampelina isolates were clustered together in a single well‐supported clade. In contrast to the absence of genetic variability within ITS and TEF sequences, HIS3 sequences showed 54 polymorphic sites. The haplotype network generated from HIS3 data set showed four distinct haplotypes. EA1 was the predominant haplotype including 29 isolates from both countries. High genetic variability was observed in two Brazilian isolates, haplotype EA4, which may have lost the intron region during species evolution. Colony colours differed between Brazilian and Australian isolates, but showed similar wrinkled colony texture, absence of spores, sparse‐to‐absent white aerial mycelium and slow growth (0.049–0.060 mm/day). Brazilian isolates produced conidia of 5.65 × 2.65 μm, larger than conidia from Australian isolates, which measured 5.14 × 2.30 μm. In pathogenicity tests, all nine Australian isolates inoculated were pathogenic on detached canes and potted vines of table grape.     

Utility of internally transcribed spacer region of rDNA (ITS) and β‐tubulin gene sequences to infer genetic diversity and migration patterns of Colletotrichum truncatum infecting Capsicum spp.

Anthracnose is among the most economically important diseases affecting pepper (Capsicum spp.) production in the tropics and subtropics. Of the three species of Colletotrichum implicated as causal agents of pepper anthracnose, C. truncatum is considered to be the most destructive in agro‐ecosystems worldwide. However, the genetic variation and the migration potential of C. truncatum infecting pepper are not known. Five populations were selected for study and a two‐locus (internally transcribed spacer region, ITS1‐5.8S‐ITS2, and β‐tubulin, β‐TUB) sequence data set was generated and used in the analyses. Sequences of the ITS region were less informative than β ‐ tubulin gene sequences based on comparisons of DNA polymorphism indices. Trinidad had the highest genetic diversity and also had the largest effective population size in pairwise comparisons with the other populations. The Trinidad population also demonstrated significant genetic differentiation from the other populations. AMOVA and STRUCTURE analyses both suggested significant genetic variation within populations more so than among populations. A consensus Maximum Likelihood tree based on β‐TUB gene sequences revealed very little intraspecific diversity for all isolates except for Trinidad. Two clades consisting solely of Trinidad isolates may have diverged earlier than the other isolates. There was also evidence of directional migration among the five populations. These findings may have a direct impact on the development of integrated disease management strategies to control C. truncatum infection in pepper.     

Genotypic characteristics in populations of Sclerotinia sclerotiorum from New York State,USA

White mould, caused by the fungus Sclerotinia sclerotiorum, is one of the most destructive diseases of beans globally. In New York State, USA, white mould causes substantial losses in soybean, snap, dry and succulent baby lima beans, which are grown successively in intensive crop rotations. Management strategies for white mould in these crops are reliant upon the prophylactic use of fungicides. No complementary information on the genetic structure of the populations of S. sclerotiorum in New York State, USA is available. Twenty isolates of S. sclerotiorum were collected from symptomatic bean plants within each of 10 fields across New York State, USA in 2014. Eight microsatellite (SSR) markers were used to characterise the genotypic diversity of the hyphal‐tipped isolates. Twenty‐four multilocus genotypes (MLGs) were detected within the population but one MLG was most prevalent. Although STRUCTURE analysis identified two subpopulations, these subpopulations were not associated with geographic location, suggesting no spatial structure to the population. In addition, the pathogen populations were predominantly clonal, with some evidence of infrequent outcrossing. These findings may assist in understanding the durability of management strategies for white mould and support the selection of representative isolates for host resistance screening for pathogen populations in the sampling area.     

Genotypic characterization of Brochothrix spp. isolated from meat,poultry and fish

Aim: To study genotypic diversity of isolates of Brochothrix thermosphacta recovered from meat, poultry and fish. Methods and Results: A total of 27 bacteria isolated from 19 samples of meat, poultry and fish were identified phenotypically and genotypically using PCR amplification of 16S‐23S rDNA intergenic transcribed spacer (ITS‐PCR), repetitive sequence‐based PCR (rep‐PCR) and 16S rDNA sequencing. Using ITS‐PCR, all bacteria showed the same DNA profile as the reference strains of Br. thermosphacta, allowing typing of the isolates at species level. Using 16S rDNA sequencing, all isolates were identified, at genus and species level, as Br. thermosphacta. Identification as Br. campestris was observed with a lower, but very close, level of similarity. Rep‐PCR was more discriminatory than ITS‐PCR and allowed differentiation of four subgroups among the isolates. Conclusion: Minor genotypic differences among Br. thermosphacta strains from meat, poultry and fish were observed. Significance and Impact of the Study: A rudimentary exploration of genotypic differences of Br. thermosphacta from meat, poultry and fish resulted in preliminary confirmation of the suitability of ITS‐PCR for typing Br. thermosphacta and confirmed the value of rep‐PCR fingerprinting to discriminate between Br. thermosphacta strains.     

74 Diversity of scenedesmus from itasca state park,minnesota

The diversity of Scenedesmus and Scenedesmus‐like taxa from Itasca State Park, Minnesota was assessed using light microscopy and molecular techniques. Thirty isolates from various ponds and lakes in Itasca State Park were examined. Light microscopy showed many similarities in morphology among isolates, but PCR‐RFLP analysis of the ribosomal ITS region from these isolates revealed twenty different types. A previous study from Itasca State Park using only light microscopy found only six taxa of Scenedesmus; however, our results suggest that there is much greater diversity than previously suspected. DNA sequences of the 5.8S ribosomal subunit and the ITS‐2 region from our isolates are presently being determined and will be used to assess this diversity in greater detail.     

Genetic Variability of Hymenoscyphus pseudoalbidus on Ash Leaf Rachises in Leaf Litter of Forest Stands in Poland

Two hundred and thirty cultures of Hymenoscyphus pseudoalbidus were obtained from ascospores created in apothecia on the previous years' ash leaf rachises in the stand floor. Fruiting bodies of the pathogen were collected in four regions of Poland differing by geographical location, the altitude above sea level and climatic conditions. Isolates were identified based on the sequences of ribosomal DNA (ITS1‐5.8S‐ITS2) and the calmodulin gene. Only the presence of H. pseudoalbidus was identified in the decaying ash stands in Poland; morphologically similar, saprotrophic species of H. albidus was absent. Intrapopulation and interpopulation genetic variability of isolates was determined based on 84 RAMS markers obtained using four primers. Genetic variability of the fungus populations, measured by the Dice coefficient of genetic similarity and the Shannon coefficient of genetic diversity, decreased along with a decrease in the location of isolate collection area above sea level. A significant dependency was shown between intrapopulation genetic variability of isolates and altitude of regions above sea level. The Mantel test excluded existence of dependence between geographical and genetic distance among populations (r = ?0.038, P = 0.55). A significant correlation was found between the genetic distances of individuals within populations and locations above sea level. Based on PCA and geographical location of populations, it was shown that populations create four distinct groups. amova showed that a majority of total genetic variability (65.80%) constitutes intrapopulation variability. Variability between populations was high (28.7%), and individual regions had a smallest influence (5.5%) on the level of total variability.     

Genetic Diversity of Thanatephorus cucumeris Infecting Tomato in Iran

The necrotrophic fungus Thanatephorus cucumeris (anamorph Rhizoctonia solani) is among the most important soil‐borne pathogens which causes tomato foot and root rot worldwide. We investigated virulence and genetic relationships among and within different taxonomic groups of R. solani from the tomato‐growing regions in the north‐east of Iran. Characterization of R. solani taxonomic groups revealed that, of 56 isolates, four were AG‐2‐1, 16 were AG‐3 PT, 21 were AG‐4 HG‐I and 15 were AG‐4 HG‐II. Because interprimer binding site (iPBS), which is based on amplification of retrotransposons, is known as novel and powerful DNA fingerprinting technology, we selected four iPBS primers, which can detect polymorphisms of tomato foot root and root rot pathogen, for investigating genotypic variability of the isolates. The iPBS analyses separated various taxonomic groups of R. solani and showed great diversity among the isolates, demonstrating that the R. solani isolates obtained from tomato were not a clonal population. Crop rotation strategies and geographic location seem to be important factors affecting genetic structure of the isolates. Pathogenicity tests on tomato cultivar ‘Mobil’ showed significant differences in the virulence of various isolates. The overall results indicated that isolates of AG‐3 and AG‐4 were more virulent than AG‐2‐1. There was no significant correlation between genetic diversity and virulence of the isolates. This is the first report of R. solani AG‐4 HG‐II, causing tomato foot and root rot. Also, our research is the first in assessment of genetic diversity in fungal populations using iPBS molecular markers.     

Characterization of a Chromobacterium haemolyticum population from a natural tropical lake

Aim: To study genetic diversity of Chromobacterium haemolyticum isolates recovered from a natural tropical lake. Methods and Results: A set of 31 isolates were recovered from a bacterial freshwater community by conventional plating methods and subjected to genetic and phenotypic characterization. The 16S ribosomal RNA (rRNA) gene phylogeny revealed that the isolates were related most closely with C. haemolyticum. In addition to the molecular data, our isolates exhibited strong β‐haemolytic activity, were nonviolacein producers and utilized i‐inositol, d ‐mannitol and d ‐sorbitol in contrast with the other known chromobacteria. Evaluation of the genetic diversity in the 16S rRNA gene, tRNA intergenic spacers (tDNA) and 16S‐23S internal transcribed spacers (ITS) unveiled different levels of genetic heterogeneity in the population, which were also observed with repetitive extragenic palindromic (rep)‐PCR genomic fingerprinting using the BOX‐AR1 primer. tDNA‐ and ITS‐PCR analyses were partially congruent with the 16S rRNA gene phylogeny. The isolates exhibited high resistance to β‐lactamic antibiotics. Conclusion: The population genetic heterogeneity was revealed by 16S rRNA gene sequence, ITS and BOX‐PCR analysis. Significance and Impact of the Study: This study provides for the first time an insight into the genetic diversity of phylogenetically close isolates to C. haemolyticum species.     

Population genetic data of a model symbiotic cnidarian system reveal remarkable symbiotic specificity and vectored introductions across ocean basins

The Aiptasia–Symbiodinium symbiosis is a promising model for experimental studies of cnidarian–dinoflagellate associations, yet relatively little is known regarding the genetic diversity of either symbiotic partner. To address this, we collected Aiptasia from 16 localities throughout the world and examined the genetic diversity of both anemones and their endosymbionts. Based on newly developed SCAR markers, Aiptasia consisted of two genetically distinct populations: one Aiptasia lineage from Florida and a second network of Aiptasia genotypes found at other localities. These populations did not conform to the distributions of described Aiptasia species, suggesting that taxonomic re‐evaluation is needed in the light of molecular genetics. Associations with Symbiodinium further demonstrated the distinctions among Aiptasia populations. According to 18S RFLP, ITS2‐DGGE and microsatellite flanker region sequencing, Florida anemones engaged in diverse symbioses predominantly with members of Symbiodinium Clades A and B, but also C, whereas anemones from elsewhere harboured only S. minutum within Clade B. Symbiodinium minutum apparently does not form a stable symbiosis with other hosts, which implies a highly specific symbiosis. Fine‐scale differences among S. minutum populations were quantified using six microsatellite loci. Populations of S. minutum had low genotypic diversity and high clonality (R = 0.14). Furthermore, minimal population structure was observed among regions and ocean basins, due to allele and genotype sharing. The lack of genetic structure and low genotypic diversity suggest recent vectoring of Aiptasia and S. minutum across localities. This first ever molecular‐genetic study of a globally distributed cnidarian and its Symbiodinium assemblages reveals host–symbiont specificity and widely distributed populations in an important model system.     

Molecular genotyping of Sclerotinia sclerotiorum isolates from different regions and host plants in Iran

Genetic variation among Sclerotinia sclerotiorum isolates from different regions and host plants were investigated using pathogenicity test, mycelial compatibility groups (MCGs) and molecular markers. Six MCGs were identified and significant differences of virulence variability were observed within and among MCGs. Cluster analysis of combined repetitive sequence-based polymerase chain reaction and randomly amplified polymorphic DNA data discriminated 12 isolates into 11 genotypes, indicating high level of genetic polymorphism among tested isolates. Twelve isolates clustered into four major groups corresponding to their hosts andgeographical region. The variability found within closely related isolates of S.sclerotiorum indicated that such morphological and molecular markers are useful in population studies of this pathogen.     

Unexpectedly high genetic diversity and divergence among populations of the apomictic Neotropical tree Miconia albicans

• Since tropical trees often have long generation times and relatively small reproductive populations, breeding systems and genetic variation are important for population viability and have consequences for conservation. Miconia albicans is an obligate, diplosporous, apomictic species widespread in the Brazilian Cerrado, the savanna areas in central Brazil and elsewhere in the Neotropics. The genetic variability would be, theoretically, low within these male‐sterile and possibly clonal populations, although some variation would be expected due to recombination during restitutional meiosis.
• We used ISSR markers to assess genetic diversity of M. albicans and to compare with other tropical trees, including invasive species of Melastomataceae. A total of 120 individuals from six populations were analysed using ten ISSR primers, which produced 153 fully reproducible fragments.
• The populations of M. albicans presented mean Shannon's information index (I) of 0.244 and expected heterozygosity (H_e) of 0.168. Only two pairs of apparently clonal trees were identified, and genetic diversity was relatively high. A hierarchical amova for all ISSR datasets showed that 74% of the variance was found among populations, while only 26% of the variance was found within populations of this species. Multivariate and Bayesian analyses indicated marked separation between the studied populations.
• The genetic diversity generated by restitutional meiosis, polyploidy and possibly other genome changes may explain the morpho‐physiological plasticity and the ability of these plants to differentiate and occupy such a wide territory and different environmental conditions. Producing enormous amounts of bird‐dispersed fruits, M. albicans possess weedy potential that may rival other Melastomataceae alien invaders.

     

Multiple gene analyses reveal extensive genetic diversity among ‘Candidatus Phytoplasma mali’ populations

This study focused on evaluating the genetic diversity among ‘Candidatus Phytoplasma mali’ (‘Ca. P. mali’) populations in orchards of north‐western Italy, where apple proliferation (AP) disease is widespread and induces severe economic losses. ‘Ca. P. mali’ was detected through restriction fragment length polymorphism (RFLP) analysis of PCR‐amplified 16S rDNA in 101 of 114 samples examined. Collective RFLP patterns, obtained by restriction analyses of four amplified genomic segments (16S/23S rDNA, PR‐1, PR‐2 and PR‐3 non‐ribosomal region, ribosomal protein genes rplV‐rpsC and secY gene), revealed the presence of 12 distinct genetic lineages among 60 selected representative ‘Ca. P. mali’ isolates, underscoring an unexpected high degree of genetic heterogeneity among AP phytoplasma populations in north‐western Italy. Prevalence of distinct genetic lineages in diverse geographic regions opens new interesting avenues for studying the epidemiology of AP disease. Furthermore, lineage‐specific molecular markers identified in this work could be useful for investigating the biological life cycle of ‘Ca. P. mali’.     

Microsatellite and Morphological Markers Reveal Genetic Variation within a Population of Sclerotinia sclerotiorum from Oilseed Rape in the Çanakkale Province of Turkey

The genetic variation among a population of Sclerotinia sclerotiorum collected from oilseed rape fields in the Çanakkale Province of Turkey was assessed using molecular and morphological markers. Seven microsatellite primer pairs (out of eight) revealed 32 clear polymorphic alleles among the 36 fungal isolates examined. An unweighted pair‐group mean analysis dendrogram was generated using the genetic distance matrix with the 32 microsatellite alleles. The level of similarity was as low as 15% between some isolates indicating a high level of genetic diversity within the fungal population; 23 distinct isolates were found (at a genotypic diversity level of 63%). Among the collection of 36 isolates, 19 mycelial compatibility groups (MCGs) were identified; 10 MCGs included at least two isolates. Molecular and morphological data suggest that most of the isolates within a single MCG were identical; however, the isolates belonging to the MCG2 and MCG4 had variable microsatellite haplotypes and were morphologically dissimilar. The data suggest that there is possibly a high rate of outcrossing as well as evolutionary potential within the population of the pathogen in oilseed rape fields. This is the first report demonstrating the genetic and morphological variation within a population of S. sclerotiorum in Turkey.     

GENETIC VARIATION AMONG STRAINS OF PSEUDOPFIESTERIA SHUMWAYAE AND PFIESTERIA PISCICIDA (DINOPHYCEAE)1

The putatively toxic dinoflagellates Pseudopfiesteria shumwayae (Glasgow et J. M. Burkh.) Litaker, Steid., P. L. Mason, Shields et P. A. Tester and Pfiesteria piscicida Steid. et J. M. Burkh. have been implicated in massive fish kills and of having negative impacts on human health along the mid‐Atlantic seaboard of the USA. Considerable debate still remains as to the mechanisms responsible for fish mortality (toxicity vs. micropredation) caused by these dinoflagellates. Genetic differences among these cultures have not been adequately investigated and may account for or correlate with phenotypic variability among strains within each species. Genetic variation among strains of Ps. shumwayae and P. piscicida was examined by PCR–RFLP analysis using cultures obtained from the Provasoli‐Guillard National Center for Culture of Marine Phytoplankton (CCMP), as well as those from our own and other colleagues’ collection efforts. Examination of restriction digest banding profiles for 22 strains of Ps. shumwayae revealed the presence of 10 polymorphic restriction endonuclease sites within the first and second internal transcribed spacers (ITS1 and ITS2) and the 5.8S gene of the rDNA complex, and the cytochrome oxidase subunit I (COI) gene. Three compound genotypes were represented within the 22 Ps. shumwayae strains. Conversely, PCR–RFLP examination of 14 strains of P. piscicida at the same ITS1, 5.8S, and ITS2 regions revealed only one variable restriction endonuclease site, located in the ITS1 region. In addition, a dinoflagellate culture listed as P. piscicida (CCMP 1928) and analyzed as part of this study was identified as closely related to Luciella masanensis P. L. Mason, H. J. Jeong, Litaker, Reece et Steid.     

Does Hyphal‐Tip Ensure the Same Allelic Composition at SSR Loci as Monosporic Isolates of Sclerotinia sclerotiorum?

The proper characterization of individual is a basic stage in population genetic studies. In Sclerotinia sclerotiorum, genetic uniformity of an individual can be obtained by isolation of single ascospore; however, hyphal‐tip isolates are commonly used in genetic studies. The aim of this study was to assess whether hyphal‐tip isolates of S. sclerotiorum can be used as surrogate of monoascosporic (monosporic) isolates. Twenty‐eight isolates of S. sclerotiorum were collected from common bean plants with white mold symptoms and were purified by hyphal‐tip or single ascospore. The correspondence between hyphal‐tip and monosporic isolates was assessed through the allelic composition at 10 microsatellite (SSR) loci of the isolates obtained by both methods. For the SSR loci comprised of dinucleotide repeats in 92% of the cases, the difference (di) between the amplicon size values for hyphal‐tip and monosporic isolates was no more than one base pair. For the loci comprised of tetra or pentanucleotide repeats in 89% of the cases, di was no more than one base pair. The same allelic profile was found for hyphal‐tip or single ascospore isolates of S. sclerotiorum. When monosporic isolates cannot be easily obtained, hyphal‐tip can safeguard the genotypic identity of S. sclerotiorum isolates.     

Characterization of Thielaviopsis paradoxa Isolates from Oil Palms in Colombia,Ecuador and Brazil

Ceratocystis paradoxa (Anamorph: Thielaviopsis paradoxa) is parasitic on a range of economic and food crops and is the cause of dry basal rot, a limiting disease in oil palm. The objective of this study was to determinate the pathogenic and genetic diversity of Thielaviopsis isolates from oil palms in Colombia, Ecuador and Brazil. A total of 164 strains of Thielaviopsis paradoxa were characterized using pathogenicity tests, random amplified polymorphic DNA (RAPD) markers and PCR sequencing of the internal transcribed spacer (ITS) region of 5.8 S ribosomal DNA. Oil palm seedlings were inoculated by injecting the base of stems in the seedling stage with a fungal suspension and severity scores of disease reactions were evaluated. PCR amplification of the ITS region resulted in a 590 base pair (bp) product. Digestion of the PCR product with two restriction enzymes produced three restriction patterns, which according to ITS sequences could be classified as T. paradoxa. Six RAPD primers gave polymorphic bands in T. paradoxa. Population structure analyses of the RAPD data suggested that most of the isolates obtained in this study belonged to a single population. The genetic diversity of the isolates from South America was intermediate, and therefore, T. paradoxa is likely to be predominantly clonal compared with Ceratocystis species. Sporadic sexual reproduction may occur for T. paradoxa but is secondary to clonal reproduction. Data on pathogen diversity will provide information on breeding strategies and population structures.     

DNA identification and characterization of Campylobacter jejuni and Campylobacter coli isolated from caecal samples of chickens in Grenada

Aims: To speciate Campylobacter strains from the caeca of chickens in Grenada using PCR and to evaluate DNA‐based typing methods for the characterization of these isolates. Methods and Results: Isolates were speciated with two multiplex PCR assays and were typed with flaA‐RFLP, pulsed‐field gel electrophoresis (PFGE) and multilocus sequence typing (MLST). Results confirmed that Campylobacter coli strains were more predominant than Campylobacter jejuni strains. From 56 isolates, 18 were misidentified using biochemical tests. PFGE typing gave the highest discriminatory power among the methods used (Simpson’s index of diversity, D = 0·9061). However, the combination of flaA‐RFLP, PFGE and MLST results gave the highest discrimination for subtyping of these isolates (D = 0·9857). A band position tolerance of 4% in Bio Numerics was the most appropriate for the analysis of this database. MLST profiles were generally concordant with PFGE and/or flaA‐RFLP types. Several isolates exhibited new MLST sequence types (STs), and 43 of the 49 Camp. coli strains belonged to the ST‐828 clonal complex. Conclusions: Campylobacter coli was the most prevalent species isolated from broilers and layers in Grenada, and a combination of restriction and sequence methods was most appropriate for the typing of Camp. coli isolates. Campylobacter coli STs clustered with described poultry‐associated Camp. coli STs by phylogenetic analysis. Significance and Impact of the Study: Further studies to understand the predominance of Camp. coli within Campylobacter spp. from chickens in Grenada may help elucidate the epidemiology of these pathogens in chickens.