Aquatic invertebrates as unlikely vectors of Buruli ulcer disease.Buruli ulcer The Buruli ulcer (also known as the Bairnsdale ulcer) is an infectious disease caused by Mycobacterium ulcerans, from the same family of bacteria which causes tuberculosis and leprosy. is a necrotizing necrotizing /nec·ro·tiz·ing/ (nek´ro-tiz?ing) causing necrosis. Necrotizing Causing the death of a specific area of tissue. Human bites frequently cause necrotizing infections. skin disease caused by Mycobacterium ulcerans and associated with exposure to aquatic habitats. To assess possible transmission of M. ulcerans by aquatic biting insects, we conducted a field examination of biting water bugs (Hemiptera: Naucoridae, Belostomatidae, Nepidae) in 15 disease-endemic and 12 non-disease-endemic areas of Ghana, Africa. From collections of 22,832 invertebrates, we compared composition, abundance, and associated M. ulcerans positivity among sites. Biting hemipterans were rare and represented a small percentage (usually <2%) of invertebrate invertebrate (ĭn'vûr`təbrət, –brāt'), any animal lacking a backbone. The invertebrates include the tunicates and lancelets of phylum Chordata, as well as all animal phyla other than Chordata. communities. No significant differences were found in hemipteran abundance or pathogen positivity between disease-endemic and nondisease-endemic sites, and between abundance of biting hemipterans and M. ulcerans positivity. Therefore, although infection through insect bites is possible, little field evidence supports the assumption that biting hemipterans are primary vectors of M. ulcerans. ********** Mycobacterium ulcerans infection is an emerging skin disease often called Buruli ulcer (BU). Infection results in illness and lasting negative socioeconomic effects in rural areas of the tropics tropics, also called tropical zone or torrid zone, all the land and water of the earth situated between the Tropic of Cancer at lat. 23 1-2°N and the Tropic of Capricorn at lat. 23 1-2°S. and subtropics sub·trop·ics pl.n. Subtropical regions. Noun 1. subtropics - regions adjacent to the tropics semitropics climatic zone - any of the geographical zones loosely divided according to prevailing climate and latitude (1). The pathologic changes, clinical signs and symptoms, and treatment have been reviewed elsewhere (2-5). In this article we evaluate field evidence for the potential of aquatic invertebrates to be vectors of M. ulcerans. The exact mode of BU transmission remains unknown; however, past epidemiologic studies have associated BU with human activity near, or within, slow-flowing or standing water bodies that have been created or disturbed by humans (2-4). Although several water-related risk factors have been recognized, none has been consistently reported, making it difficult to identify specific water-related risk activities (6-8). Most studies suggest that infection occurs through inoculation inoculation, in medicine, introduction of a preparation into the tissues or fluids of the body for the purpose of preventing or curing certain diseases. The preparation is usually a weakened culture of the agent causing the disease, as in vaccination against of M. ulcerans into skin lesions Skin Lesions Definition A skin lesion is a superficial growth or patch of the skin that does not resemble the area surrounding it. Description Skin lesions can be grouped into two categories: primary and secondary. or insect bites (2,4,9-11). Portaels et al. (11) were the first to propose that aquatic insects might serve as vectors of M. ulcerans. This hypothesis maintains that M. ulcerans is found in biofilms of aquatic habitats and concentrated by grazing or filter-feeding invertebrates that are then consumed by predators known to bite humans (11). Initial evidence for this hypothesis used PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) detection of the insertion sequence insertion sequence n. Any of several discrete DNA sequences that repeat at various sites on a bacterial chromosome, on certain plasmids, and on bacteriophages and that can move from one site to another on the chromosome, to another plasmid in the same IS2404 to document M. ulcerans' association with biting water bugs (Hemiptera), filtered concentrates of water, detritus detritus /de·tri·tus/ (de-tri´tus) particulate matter produced by or remaining after the wearing away or disintegration of a substance or tissue. de·tri·tus n. pl. , and aquatic plants (4,12-14). These studies were important for understanding the possible environmental reservoirs of M. ulcerans. However, IS2404 is now understood to be not specific for M. ulcerans because this insertion sequence has been found in a number of other aquatic mycobacterial mycobacterial emanating from or pertaining to mycobacterium. mycobacterial granuloma may be caused by Mycobacterium tuberculosis (see cutaneous tuberculosis), M. species, including M. marinum (15-17). When more discriminatory methods based on detection of variable number tandem repeats were used, many IS2404-positive environmental samples were reported to lack M. ulcerans (18). In light of these recent findings, the relative frequency or abundance of M. ulcerans among aquatic invertebrates or other environmental reservoirs, remains tenuous, and thus, the role of aquatic insect vectors is uncertain. A series of laboratory experiments provided initial evidence for biting hemipteran vectors of M. ulcerans (19-23). Marsollier et al. (9,24) demonstrated that a South American isolate of M. ulcerans could survive and multiply within the salivary glands salivary glands (săl`əvâr'ē), in humans, three pairs of glands that secrete the alkaline digestive fluid, saliva, into the mouth. of aquatic bugs indigenous to France (Naucoridae: Naucoris cimicoides). Furthermore, N. cimicoides could transmit M. ulcerans by feeding on inoculated prey and then biting mice, which then exhibited BU (9). Most recently, exposure to hemipteran insect saliva was reported to infer protection against lesion development in laboratory mouse models (21). That study also reported correlations between aquatic insect salivary gland salivary gland Any of the organs that secrete saliva. Three pairs of major glands secrete saliva into the mouth through distinct ducts: the parotid glands (the largest), between the ear and the back of the lower jaw; the submaxillary glands, along the side of the lower jaw; antibodies in humans categorized as exposed or patient, when the former group had exhibited BU. However, 3 limitations of that study have been noted (25): 1) the antibodies against salivary sal·i·var·y adj. 1. Of, relating to, or producing saliva. 2. Of or relating to a salivary gland. salivary pertaining to the saliva. proteins might only be biomarkers of protection; 2) possible geographically related polymorphisms in the salivary proteins among hemipteran taxa taxa: see taxon. could limit the generalizability of protection among distant communities; and 3) the overall relevance of biting aquatic insects infected with M. ulcerans in the natural environment is unknown. A confounding confounding when the effects of two, or more, processes on results cannot be separated, the results are said to be confounded, a cause of bias in disease studies. confounding factor factor in these experimental studies is that they used 1 South American isolate of M. ulcerans. Recent data support 2 major lineages of M. ulcerans: the ancestral strains that closely resemble M. marinum in chromosomal content, and the classic strains that have undergone substantial genome reduction (26). The latter strains account for all severe disease and include the African, Malaysian, and Australian isolates. The aforementioned laboratory studies have been elegantly performed, but the use of a French species of Naucoridae and a South American isolate of M. ulcerans makes it difficult to assess the importance of insect transmission in Africa. Thus, although provocative experimental data support a potential role for aquatic hemipterans as vectors of M. ulcerans in laboratory settings, no supporting evidence has been obtained from studies conducted in the natural setting. Results from field studies that identify the relative abundance and exposure potential of biting aquatic hemipterans can provide insight into the importance of biting insects in BU transmission. This study had 3 objectives: 1) to describe the aquatic invertebrate samples collected during a large-scale, 2-year standardized field-sampling program of 27 bodies of water in Ghana, West Africa; 2) to investigate M. ulcerans positivity among the same aquatic invertebrates from those water bodies, directly linking aquatic invertebrate communities with pathogen positivity; and 3) to discuss the role of human-biting hemipterans as primary vectors of M. ulcerans. Data on the detection of M. ulcerans within aquatic samples based on the use of variable number tandem repeats analysis are presented in another article (18). In the current article, we associate presumptive pre·sump·tive adj. 1. Providing a reasonable basis for belief or acceptance. 2. Founded on probability or presumption. pre·sump M. ulcerans positivity rates with relative abundance and percentage composition of the same aquatic communities. Methods Study Sites In June 2004 and August 2005, we sampled 27 water bodies associated with human communities in southern Ghana (Figure 1). The water bodies were located within or very near (<100-200 m) each community of housing structures and were routinely used for daily domestic purposes and reflect habitats of routine human exposure. These water bodies were chosen after discussions with community members who directed us to the main water source for drinking water drinking water supply of water available to animals for drinking supplied via nipples, in troughs, dams, ponds and larger natural water sources; an insufficient supply leads to dehydration; it can be the source of infection, e.g. leptospirosis, salmonellosis, or of poisoning, e.g. , recreation, domestic washing, irrigation irrigation, in agriculture, artificial watering of the land. Although used chiefly in regions with annual rainfall of less than 20 in. (51 cm), it is also used in wetter areas to grow certain crops, e.g., rice. , or bathing for that community. Six of these sites were sampled in both years, providing information on annual variation: Afuaman, Amasaman, Abbeypanya, Afienya, Odumse, and Weija. Human BU case data for the years 2003-2005 were provided by the Ghana Ministry of Health and used to classify communities into 2 site types: 15 BU-endemic (BU+) and 12 BU-nonendemic (BU). A site was classified as a BU+ type if at least 1 case of BU had been reported during the 3-year period. Aquatic Invertebrate Sampling and Processing Within each water body, two 10-20-m transects were measured parallel to the shoreline and positioned through the dominant macrophyte mac·ro·phyte n. A macroscopic plant. mac  ro·phyt ic adj. community. Along each transect tran·sect tr.v. tran·sect·ed, tran·sect·ing, tran·sects To divide by cutting transversely. [trans- + -sect. , we randomly placed two 1-[m.sup.2] polyvinyl chloride polyvinyl chloride (PVC), thermoplastic that is a polymer of vinyl chloride. Resins of polyvinyl chloride are hard, but with the addition of plasticizers a flexible, elastic plastic can be made. quadrats and collected invertebrates by sweeping within the quadrat quad·rat n. 1. Printing A piece of type metal lower than the raised typeface, used for filling spaces and blank lines. Also called quad2. 2. with a 500-[micro]m mesh dip net. The quadrats floated on top of the water and delineated 1 [m.sup.2] of area to be sampled by using an aquatic dip net designed to capture the aquatic life stages of invertebrates. Three sweeps of the dip net were performed from the water surface to the bottom substrate for comprehensive sampling of specimens in the water column. All contents were washed through a 500-[micro]m sieve and preserved in 100% ethanol for laboratory identification and PCR. The 2 quadrats were combined into 1 composite sample. [FIGURE 1 OMITTED] M. ulcerans Detection in Invertebrate Samples Samples were analyzed in a 2-step procedure so that an initial screening reduced sample numbers. Small invertebrates were analyzed in pools of 3-15, whereas larger specimens were tested individually. DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. was extracted by using a protocol adapted from Lamour and Finley (27). Samples were ground and vortexed in 400 [micro]L of lysis lysis /ly·sis/ (li´sis) 1. destruction or decomposition, as of a cell or other substance, under influence of a specific agent. 2. mobilization of an organ by division of restraining adhesions. 3. solution (100 mmol/L Tris, pH 8.0), 50 mmol/L EDTA EDTA: see chelating agents. , 500 mmol/L NaCl, 1.33% sodium dodecyl sulfate Sodium dodecyl sulfate (or sulphate) (SDS or NaDS) (C12H25NaO4S),is an anionic surfactant that is used in household products such as toothpastes, shampoos, shaving foams and bubble baths for its thickening effect and its ability to , and 0.2 mg/ mL RNase A) and 1 g of 1.0-mm glass beads (Sigma-Aldrich, St. Louis, MO, USA), then centrifuged. After 150 [micro]L of 5 mol/L potassium acetate potassium acetate K-Vescent, K-Effervescent Pharmacologic class: Mineral, electrolyte Therapeutic class: Electrolyte replacement, nutritional supplement Pregnancy risk category C was added, each sample was incubated overnight at -20[degrees]C. After a 30-min centrifugation CentrifugationA mechanical method of separating immiscible liquids or solids from liquids by the application of centrifugal force. This force can be very great, and separations which proceed slowly by gravity can be speeded up enormously in centrifugal , supernatants were transferred to new tubes containing 0.66 mol/L guanidine guanidine /gua·ni·dine/ (gwah´ni-den) the compound NHdbondC(NH2)2, a strong base found in the urine as a result of protein metabolism and used in the laboratory as a protein denaturant. hydrochloride hydrochloride /hy·dro·chlo·ride/ (-klor´id) a salt of hydrochloric acid. hy·dro·chlo·ride n. A compound resulting from the reaction of hydrochloric acid with an organic base. in a 63.3% ethanol solution. The samples were added to a spin filter (MO BIO Laboratories Inc., Carlsbad, CA, USA) in a 2-mL microcentrifuge tube (MO BIO Laboratories Inc.). The flow-through was discarded and the filter was rinsed first with 500 [micro]L of wash solution (10 mmol/L Tris, pH 8, 1 mmol/L EDTA, 50 mmol/L NaCl, 67% ethanol) and then with 500 [micro]L of 95% ethanol. The spin filters were dried by centrifugation and transferred to new 2-mL microcentrifuge tubes, immersed in 200 [micro]L elution elution /elu·tion/ (e-loo´shun) in chemistry, separation of material by washing; the process of pulverizing substances and mixing them with water in order to separate the heavier constituents, which settle out in solution, from the solution (10 mmol/L Tris, pH 8), and incubated at room temperature for 15 rain. The DNA was eluted and stored at -20[degrees]C. Presumptive identification of M. ulcerans in invertebrates was based on detection of the enoyl reduction domain (ER) in mlsA that encodes the lactone lactone /lac·tone/ (lak´ton) a cyclic organic compound in which the chain is closed by ester formation between a carboxyl and a hydroxyl group in the same molecule. lac·tone n. core of the mycolactone toxin, the major virulence determinant of M. ulcerans. All samples were screened for the presence of the ER gene, which has been evaluated for M. ulcerans specificity in a companion study that used a multitiered PCR approach (18). Amplification of the ER gene was achieved using a 50-[micro]L reaction mixture containing 1 [micro]L each of forward and reverse primer (15,18), 10 [micro]L 5x Go Taq reaction buffer (Promega, Madison, WI, USA), 1 [micro]L 10 mmol/L PCR nucleotide mix (Promega), 31.7 [micro]L double-distilled water, 1.6 units Go Taq polymerase enzyme (Promega), and 5 [micro]L DNA template. Cycling conditions began with an initial denaturation denaturation, term used to describe the loss of native, higher-order structure of protein molecules in solution. Most globular proteins exhibit complicated three-dimensional folding described as secondary, tertiary, and quarternary structures. at 94[degrees]C for 5 min, 35 cycles of 94[degrees]C for 1 min, 58[degrees]C for 45 seconds, 72[degrees]C for 1 min, and a final 10-min extension at 72[degrees]C. The amplified DNA was subjected to gel electrophoresis by using a 1.5% agarose agarose more highly purified form of agar with similar uses to agar and widely used in the separation of nucleic acid fragments. gel, and band sizes were compared by using a 1-kb DNA ladder (Invitrogen, Carlsbad, CA, USA). PCR products of appropriate size were cloned into the pCR2.1 Topo vector (Invitrogen) and sequenced by using an ABI Abi (ā`bī) [short for Abijah], in the Bible, King Hezekiah's mother. (Application Binary Interface) A specification for a specific hardware platform combined with the operating system. 3100 automated genetic analyzer (Applied Biosystems, Foster City, CA, USA). Data Analysis Using all invertebrate data, we initially evaluated differences between site types (i.e., BU+ vs BU-) by comparing total abundance and percentage composition. Only those taxa that represented >3% of total invertebrates collected from all sites were used for subsequent statistical analyses because some taxa were so rare that any comparisons would limit meaningful conclusions. However, because we were interested in evaluating Hemiptera known to bite humans, the families Belostomatidae, Naucoridae, and Nepidae also were included, although each represented <2% of total collections. To compare abundance differences between site types, t tests were used after data were log + 1 transformed to meet the assumptions of normality and equal variances. For percentage composition differences, data were arc-sine square root transformed, but they still did not demonstrate a normal distribution, so the nonparametric Wilcoxon/Kruskal-Wallis rank sum test was used. Because multiple tests were performed, it was necessary to calculate a Bonferroni adjusted a (and corresponding p value) of 0.006 to assist in interpreting statistically significant differences. However, to evaluate the biological meaning of these multiple tests, Cohen cohen or kohen (Hebrew: “priest”) Jewish priest descended from Zadok (a descendant of Aaron), priest at the First Temple of Jerusalem. The biblical priesthood was hereditary and male. d effect size (and 95% confidence intervals) was calculated with Hedges adjustment (28). To compare overall ER positivity proportions between BU+ and BU- sites, a t test was used after data were arc-sine square root transformed. Lastly, we evaluated correlations between total biting hemipterans (and each individual family) and ER positivity using Spearman spear·man n. A man, especially a soldier, armed with a spear. rank correlations with a Bonferroni adjusted [alpha] = 0.008. This nonparametric test was used after attempts to transform the data for normality and homogeneity of variances failed. Results Invertebrate Abundance and Composition Of 22,832 invertebrates collected, [approximately equal to] 50% came from each group of BU+ and BU- site types (online Technical Appendix, available from www.cdc.gov/EID/ content/14/8/1247-Techapp.pdf). A total of 85 taxa were represented among all sites: 80 taxa were collected from BU+ sites compared with 71 from BU- sites. The abundance of specific taxa was not consistent between site types, indicating that the invertebrate communities were highly variable. This variability was confirmed in statistical analyses comparing the most abundant taxa (>3%) with substantial effect size variation within and among taxa (online Technical Appendix). The invertebrates found in greatest abundance were 2 families of Diptera Families of Diptera "Nematocera"
Insects made up the greatest percentage of the invertebrates collected from BU+ sites but were nearly equivalent to the Crustacea in BU- sites. In BU- sites, Anura made up a relatively higher percentage, but most (1,231 of 1,303 individuals) were from a single site (Figure 2; online Technical Appendix). The Crustacea were most often represented by copepods, ostracods, and shrimp (Atyidae); fewer shrimp were collected from BU+ sites. Most shrimp were from BU- sites Adumanya (197) and Keedmos (120). Further, in BU- sites the large copepod copepod: see crustacean. copepod Any of the 10,000 known species of crustaceans in the subclass Copepoda. Copepods are widely distributed and ecologically important, serving as food for many species of fish. abundance occurred primarily at Odumse, where 1,723 were collected from a total 1,884 (online Technical Appendix). Insects were reduced by 40% in BU- sites compared with BU+ sites (Figures 2, 3). When individual insect orders were compared, the Ephemeroptera (mayflies) and Diptera (true flies) made up the greatest percentages of insects in both BU+ and BU- site types (Figure 3; online Technical Appendix). When the abundance and percent composition of dominant taxa were statistically compared between BU+ and BU- site types, there were no significant differences for any taxa (online Technical Appendix). However, the effect size varied greatly, reflecting a need to collect from more sites in future studies. On average, the Chironomidae (midges midges see ceratopogonidae and culicoides. ) made up the greatest percentage of the invertebrate communities, representing 9%-20% of the total, while the Baetidae (mayflies) ranged from 6% to 15% and the Culicidae (mosquitoes) from 2% to 5%. The biting Hemiptera made up a very small percentage of the dominant invertebrate communities, with Naucoridae [less than or equal to] 0.5%, Belostomatidae [less than or equal to] 2%, and Nepidae [less than or equal to] 0.3% (online Technical Appendix). Presumptive Identification of M. ulcerans from Invertebrates Presumptive identification of M. ulcerans from a total of 1,032 invertebrate sample pools tested found no significant difference between BU+ and BU- site types (online Technical Appendix). Furthermore, there was no detectable pattern of invertebrate taxa ER positivity among sites, indicating that no single taxon taxon (pl. taxa), in biology, a term used to denote any group or rank in the classification of organisms, e.g., class, order, family. was more often likely to be positive at a particular site. The number of ER positive taxa that were detected at any site ranged from 0 to 15 and 0 to 6 in BU+ and BU- sites, respectively (Figure 4). Clearly, not all BU+ or BU- sites had ER positive invertebrates. There were 6/15 BU+ sites without a single taxon positive compared with only 3/12 BU- sites (Figure 4). Taxon-specific ER positivity was highly variable, and percentage positivity ranged from 0% to 100% among taxa (online Technical Appendix). There were 26 taxa positive from BU+ site types compared with only 18 from BU- sites. Only 2 taxa were positive in BU- and not in BU+ sites, and for those taxa, <5 samples were tested from the BU+ type. When only those taxa with >5 samples tested were compared, no observable pattern in ER positivity was apparent among sites or taxa. The most abundant taxa did not always have the greatest ER positivity. For instance, positivity of Chironomidae (19.5% of all invertebrates) was only about 7%, even though positivity of Caenidae (<2% of all invertebrates) ranged from 6% to 17% (online Technical Appendix). For taxa with >5samples tested from either BU+ or BU- sites, the ER positivity was [greater than or equal to] 20% for 5 taxa and from 10% to 20% for 12 taxa (online Technical Appendix). The biting Hemiptera had neither the highest nor consistently higher ER positivity compared with more abundant taxa (online Technical Appendix). Fifteen taxa with >5 samples tested had 0 positivity. These taxa represented all invertebrate functional feeding groups (e.g., predators, shredders, scrapers, collector-gatherers, and filterers). Biting Hemiptera Correlations No significant correlation was found between mean ER positivity and total biting Hemiptera (r = 0.25; p = 0.218) or any individual family: Belostomatidae (r = 0.31; p = 0.118), Naucoridae (r = -0.03; p = 0.850), and Nepidae (r = 0.37; p = 0.060). These results confirmed that biting Hemiptera were not significantly associated with the pathogen in the environment. Discussion The role of aquatic invertebrates in the transmission of BU has been proposed several times (3,4,29). However, to date, no large-scale field studies have assessed aquatic invertebrate communities from multiple locations or evaluated associated M. ulcerans positivity rates for specific invertebrate communities. Understanding the relative abundance and composition of the invertebrate taxa is a useful initial approach for assessing exposure risk of populations that use waterbodies for domestic needs. If biting water bugs are primary vectors of M. ulcerans, then the minimum (but not only) supporting evidence should confirm at least 1 of the following characteristics: 1) biting water bugs should be relatively more abundant at sites with BU cases compared with those without BU, indicating increased exposure potential to the vector in disease-endemic communities; 2) biting water bugs should have relatively higher M. ulcerans positivity rates within disease-endemic sites compared with disease-nonendemic sites; 3) M. ulcerans positivity rates should be higher in biting water bugs than in other invertebrates in the same sites, demonstrating increased potential pathogen exposure in the vector compared with background exposure; or 4) a correlation should exist between M. ulcerans positivity and vector abundance. This study addressed each of these characteristics and did not find strong confirming evidence that biting water bugs were any more important in the transmission of M. ulcerans than passive contact exposure to the environment. This finding is consistent with reports that few infected persons remember being bitten by water bugs (30). Although our results do not prove that infection could never occur from biting water bugs, they suggest that such an event would be rare. In a companion study, Williamson et al. (18) reported M. ulcerans ER positivity from a broad spectrum of environmental samples, including animals, water filtrate filtrate /fil·trate/ (fil´trat) a liquid or gas that has passed through a filter. fil·trate v. To put or go through a filter. n. , and biofilm Biofilm An adhesive substance, the glycocalyx, and the bacterial community which it envelops at the interface of a liquid and a surface. When a liquid is in contact with an inert surface, any bacteria within the liquid are attracted to the surface and adhere on glass slides. They found that M. ulcerans DNA was detectable, not only at sites with or without a history of BU cases, but also in the environment, independent of invertebrates; positive results were detected for all sample types. Although M. ulcerans has been detected on the exoskeleston of experimentally infected Naucoridae (9), the possibility that invertebrates could serve as substrates for M. ulcerans in a natural environment has not been addressed, but it is certainly possible and may explain the wide range of taxa that were found positive in this study. The invertebrate communities in this study demonstrated high intersite variation (online Technical Appendix), a finding similar to those of other studies of lentic Adj. 1. lentic - of or relating to or living in still waters (as lakes or ponds) lake - a body of (usually fresh) water surrounded by land lotic - of or relating to or living in actively moving water invertebrate habitats (31,32). This variation suggests that additional collection sites should be included for a more comprehensive evaluation of invertebrate communities; an expanded study is under way. Hydrologic and physical/ chemical attributes regulate the structure and abundance of invertebrate communities (31), while biotic factors such as macrophytes and fish can also influence communities (33). Few basic ecologic studies have been conducted on nondisease-related aquatic invertebrates in West Africa. The most comprehensive articles on ecology have come from studies of small, fast-flowing streams or large lakes (34,35), which are different habitats than those in this study. [FIGURE 4 OMITTED] Season may also play a role in invertebrate abundance patterns; however, in many tropical and subtropical sub·trop·i·cal adj. Of, relating to, or being the geographic areas adjacent to the Tropics. subtropical Adjective of the region lying between the tropics and temperate lands regions, most invertebrate taxa show minimal seasonally based abundance patterns (36-38). Most tropical species have multivoltine mul·ti·vol·tine adj. Producing several broods in a single season: multivoltine moths. [multi- + French -voltine, (multiple generations) and asynchronous Refers to events that are not synchronized, or coordinated, in time. The following are considered asynchronous operations. The interval between transmitting A and B is not the same as between B and C. The ability to initiate a transmission at either end. (overlapping) life cycles throughout the year (39). For instance, all life stages of tropical naucorids have been reported through both wet and dry seasons over 2 years (38), and the same has been documented for other aquatic invertebrates in Kenya (36) and Lake Tanganyika (37). Therefore, although season might have had a small effect on the abundance variation of biting hemipterans and other invertebrates, this influence was unlikely to have limited our potential for detecting differences between BU+ and BU- sites. If season affects biting Hemiptera populations, and these insects are important vectors, then human BU case data should reflect seasonal patterns, but this is not generally reported (4). In a recent study, no seasonal pattern was shown in monthly BU cases for 2003, 2004, and 2005 (40). In the current study, sampling each site throughout the year was not logistically feasible. In other ongoing studies, we have sampled an additional 55 sites, including 22 sites from 2004 to 2005 that have been sampled at least twice and 6 sites sampled 3 times over 3 years. The abundance of biting Hemiptera and other invertebrates from these additional sites are similar to what is reported here. Therefore, although season may have influenced our invertebrate community abundances, little evidence suggests that BU+ and BU- sites would be differentially affected, that Ghanaian invertebrate communities should respond differently to season compared with communities in other tropical and subtropical regions, or that any seasonal pattern in BU cases is related to seasonal population changes of biting hemipterans. Various researchers have proposed that biting water bugs could be vectors for M. ulcerans, and laboratory studies have provided evidence for this possibility. However, no complementary field studies had tested these laboratory results. Results from this field study do not support the hypothesis that biting aquatic insects are primary vectors of M. ulcerans. The results do not rule out the possibility of biting Hemiptera or other invertebrates as vectors or possible reservoirs for M. ulcerans, but rather, they suggest caution in describing their role in transmission. These field data on biting hemipteran abundance and M. ulcerans positivity suggest a need to reevaluate future research directions for understanding BU transmission. Acknowledgements We are grateful to E. Ampadu for providing the BU case data and Kingsley Asiedu for continued support of our research. We also thank Todd White and Lydia Mosi for field assistance and invertebrate collections and identifications, and Lindsay Campbell and Jenni van Ravensway for generating the site map. This work was funded by the World Health Organization and the National Institutes of Health (NIH "Not invented here." See digispeak. NIH - The United States National Institutes of Health. ). The project described was supported by grant no. R01TW007550 from the Fogarty International Center through the NIH/National Science Foundation Ecology of Infectious Diseases Program and grant no. R03AI062719. References (1.) Asiedu K, Etuaful S. Socioeconomic implications of Bumli ulcer in Ghana: a three-year review. Am J Trop Med Hyg. 1998;59:1015-22. (2.) Duker AA, Portaels K Hale M. Pathways of Mycobacterium ulcerans infection: a review. Environ Int. 2006;32:567-73. DOI (Digital Object Identifier) A method of applying a persistent name to documents, publications and other resources on the Internet rather than using a URL, which can change over time. : 10.1016/j. envint.2006.01.002 (3.) Johnson PDR PDR A trademark for Physicians' Desk Reference, a group of reference books containing drug listings, especially one for prescription drugs. PDR , Stinear TP, Small PLC, Pluschke G, Merritt RW, Portaels F, et al. 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(36.) Dobson M, Magana AM, Lancaster J, Mathooko JM. Aseasonality in the abundance and life history of an ecologically dominant freshwater crab in the Rift Valley, Kenya. Freshw Biol. 2007;52:215-25. DOI: 10.1111/j.1365-2427.2006.01648.x (37.) Donohue I, Irvine K. Seasonal patterns of sediment loading and benthic invertebrate community dynamics in Lake Tanganyika, Africa. Freshw Biol. 2004;49:320-31. DOI: 10.111l/j.1365-2427 .2004.01187.x (38.) Stout RJ. How abiotic a·bi·ot·ic adj. Nonliving: The abiotic factors of the environment include light, temperature, and atmospheric gases. a factors affect the distribution of two species of tropical predaceous pre·da·cious also pre·da·ceous adj. 1. Living by seizing or taking prey; predatory. 2. Given to victimizing, plundering, or destroying for one's own gain: aquatic bugs (Family: Naucoridae). Ecology. 1981;62:1170-8. DOI: 10.2307/1937281 (39.) Huryn AD, Wallace JB. Life history and production of stream insects. Annu Rev Entomol. 2000;45:83-110. DOI: 10.1146/annurev. ento.45.1.83 (40.) Sopoh GE, Johnson RC, Chauty A, Dossou AD, Aguiar J, Salmon O, et al. Buruli ulcer surveillance, Benin, 2003-2005. Emerg Infect Dis. 2007;13:1374-6. M. Eric Benbow, * (1) Heather Williamson, ([dagger]) Ryan Kimbirauskas, * Mollie mollie or molly, New World fish of the genus Mollienesia, in the same family as the guppy (see killifish). Mollies are found from the E and central United States to Argentina. D. Mclntosh, * Rebecca Kolar, * Charles Quaye, ([double dagger]) Felix Akpabey, ([section][section]) D. Boakye, ([double dagger]) Pam Small, ([dagger]) and Richard W. Merritt * * Michigan State University Michigan State University, at East Lansing; land-grant and state supported; coeducational; chartered 1855. It opened in 1857 as Michigan Agricultural College, the first state agricultural college. , East Lansing, Michigan East Lansing is a city in the U.S. state of Michigan. The city is located directly east of Lansing, Michigan, the state's capital. Most of the city is within Ingham County, though a small portion lies in Clinton County. , USA; ([dagger]) University of Tennessee The University of Tennessee (UT), sometimes called the University of Tennessee at Knoxville (UT Knoxville or UTK), is the flagship institution of the statewide land-grant University of Tennessee public university system in the American state of Tennessee. , Knoxville, Tennessee, USA; ([double dagger]) University of Ghana The University of Ghana is the oldest and largest of the five Ghanaian public universities. It was founded in 1948[1] as the University College of the Gold Coast, and was originally an affiliate college of the University of London[2] , East Legon, Ghana; and ([section]) Water Resources Research Institute, Accra, Ghana DOI: 10.3201/eid1408.071503 (1) Current affiliation: University of Dayton The University of Dayton is one of the ten largest Catholic schools in the United States and is the largest of the three Marianist universities in the nation. It is also home to one of the largest campus ministry programs in the world. , Dayton, Ohio, USA. Dr Benbow is an assistant professor in the Department of Biology at the University of Dayton. His research interests include the role of human-mediated environmental changes in aquatic ecosystem structure and function, with emphasis on the ecology of M. ulcerans infection in West Africa. Address for correspondence: M. Eric Benbow, Department of Biology, University of Dayton, Dayton, OH 45469-2320, USA; email: benbow@ notes.udayton.edu Figure 2. Higher level classification (e.g., class, phylum) taxa percentage composition between A) Buruli ulcer-endemic (n = 15) and B) Buruli ulcer-nonendemic (n = 12) site types, Ghana. A Anura (1.1% Mollusca (7.9?%) Nematoda (<0.1%) Annelida (3.2%) Crustacea (4.9%) Acari (2.6%) Insecta (80.3%) B Mullusca (3.8%) Nematoda (< 0.1%) Annelida (8.8%) Crustacea (33.7%) Acari (3.6%) Insecta (38.4%) Anura (11.6%) Note: Table made from pie chart. Figure 3. Insect order percentage composition between Buruli ulder-endemic (n = 15) and Buruli ulcer-nonendemic site types (n = 12), Ghana. A Collembola (0.2%) Ephemeroptera (26.4%) Odonata (9.7%) Nonbiting Hemiptera (11.5%) Biting Hemiptera (3.7%) Lepidoptera (0.3%) Coleophtera (15.1%) Trichoptera (0.4%) Diptera (32.6%) B Collembola (1.7%) Ephemeroptera (25.2%) Odonata (14.8%) Nonbiting Hemiptera (12.1%) Biting Hemiptera (3.3%) Lepidoptera (0.0%) Coleoptera (14.4%) Trichoptera (0.2%) Diptera (28.4%) Note: Table made from pie chart. |
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