David K. Cone

Food webs: a plea for parasites

Parasites have the capacity to regulate host populations and may be important determinants of community structure, yet they are usually neglected in studies of food webs. Parasites can provide much of the information on host biology, such as diet and migration, that is necessary to construct accurate webs. Because many parasites have complex life cycles that involve several different hosts, and often depend on trophic interactions for transmission, parasites provide complementary views of web structure and dynamics. Incorporation of parasites in food webs can substantially after baste web properties, Including connectance, chain length and proportions of top and basal species, and can allow the testing of specific hypotheses related to food-web dynamics.

Occurrence of Ergasilus celestis (Copepoda) and Pseudodactylogryrus anguillae (Monogenea) among wild eels (Anguilla rostrata) in relation to stream flow, pH and temperature and recommendations for controlling their transmission among captive eels

Abstract There is a need for alternative measures to control infectious diseases among farmed fish. Chemical treatment is often associated with side effects that include parasite resistance, host damage, and pollution. To identify environmental factors that could be manipulated and thus serve as alternative controls, the relationship of stream velocity, pH, and water temperature to prevalence and abundance of two common gill parasites, Pseudodactylogyrus anguillae (Monogenea) and Ergasilus celestis (Copepoda), of wild eels ( Anguilla rostrata ) was investigated. Eels were collected from eight freshwater localities of varying pH (∼4.5–6.9), flow regime (0.2–35 cm/s), and temperature (10–24°C) within a Nova Scotia watershed during May–October, 1995 and 1996. The component population, mean abundance, and prevalence of both parasites correlated positively with water pH. Conversely, the component population, mean abundance, and prevalence of both parasites correlated negatively with stream velocity. The component population, mean abundance, and prevalence of P. anguillae also correlated positively with temperature. It is suggested that abiotic factors, such as increased flow rate (>5 cm/s) and decreased water pH (

MYXOZOAN COMMUNITIES PARASITIZING NOTROPIS HUDSONIUS (CYPRINIDAE) AT SELECTED LOCALITIES ON THE ST. LAWRENCE RIVER, QUEBEC: POSSIBLE EFFECTS OF URBAN EFFLUENTS

Late summer myxozoan infra- and component communities parasitizing 73 Notropis hudsonius at 5 sites on the St. Lawrence River upstream and downstream from the island of Montreal are described from study of histological sections of individual fish. Community membership included Myxobolus sp. A (intracellular in striated muscle fibers), Myxobolus sp. B (intracellular in striated muscle fibers), Myxobolus sp. C (brain), and Thelohanellus notatus (Mavor, 1916) Kudo, 1929 (loose connective tissue), all of which are histozoic myxobolids displaying strict tissue specificity for trophozoite development. Mean infracommunity richness in fish at the separate localities was estimated to be 0.4 ± 0.5 to 1.3 ± 0.7, with a maximum richness of 3 in any 1 fish. Component community richness in host samples was 2 to 4. It is argued that these are relatively high levels of diversity for freshwater fish parasites but that the values are probably conservative because of the study of only portions of individual fish. The percentage of fish infected with myxozoans of any species and infracommunity richness was significantly greater below the island of Montreal compared with above it. It is suspected that increased oligochaete populations at these sites, resulting from sewage-caused organic enrichment of sediments, may have accounted for the observed increased prevalence of infection.

On the distribution and abundance of eel parasites in Nova Scotia : Local versus regional patterns

Site-to-site variation in macroparasite species distribution and richness was observed in eels (Anguilla rostrata) among 7 sites in the Timber Lake drainage system, Nova Scotia. There was a positive relationship between maximum local species distribution, as measured by maximum prevalence at a site, and regional distribution, as measured by the number of sites in which a parasite was found within the watershed and among 28 sites across Nova Scotia. Species richness increased with spatial scale. However, the species richness of host-specific parasites approached a maximum at the spatial scale of the watershed, whereas that of generalist parasites continued to increase with increasing scale. The near-peak in species richness of eel specialists at the watershed level suggests that in a functional sense for these parasites it is the spatial scale of the watershed that serves as a species pool from which local species richness is derived.

Ectopic ossicles associated with metacercariae of Apophallus brevis (Trematoda) in yellow perch, Perca ftavescens (Teleostei): development and identification of hone and chondroid bone

This paper describes the development and tissues in mineralized ossicles in the musculature of Perca flavescens infected with metacercariae of the trematode Apophallus brevis. Analysis involved light microscopy, transmission and scanning electron microscopy, X-ray scanning electron microprobe analysis, and tetracycline labelling. Two to 14 days post-infection, fibroblast-like host cells stream towards the parasite cyst forming a fusiform cellular capsule. By 14 days post-infection the capsule differentiates into an inner hypertrophied layer, an extensive middle layer of fibroblast-like cells, and a thin outer layer of flattened fibroblast-like cells forming a fibrous sheath at the capsule/muscle interface. From 21–35 days post-infection, a bony tissue is deposited periosteally in an equatorial ring around the cyst. With time, additional tissue is secreted over the ring increasing its thickness and advancing the matrix front towards the poles of the ossicle. Plump osteoblast-like cells cover the developing ossicle and may become trapped within the matrix in lacunae encapsulated by collagen. By 63 days post-infection, medium-sized ossicles are morphologically similar to large cysts from perch captured in the wild; ovoid with two polarized canals, but lacking acellular or lamellar bone-like tissue. Mineralized ossicles contain calcium, phosphorus and oxygen. Large ossicles retrieved from perch given multiple doses of tetracycline revealed discrete fluorescent bands, indicative of incremental growth. Fully developed ossicles are composed of two skeletal tissues, an inner region of chondroid bone and an outer region of acellular, lamellar bone.

Annual cycle of Henneguya doori (Myxosporea) parasitizing yellow perch (Perca flavescens).

Henneguya doori Guilford, 1963 (Myxosporea) has an annual development cycle on the gills of adult Perca flavescens. The cycle involves a period of summer invasion, fall development of plasmodia and initiation of sporogenesis, winter completion of sporogenesis, and spring release of spores. An experiment revealed that rising water temperature in spring promotes cyst rupture and loss. The development of cysts is synchronized within individual fish and among members of the host population. As such, the parasite spends 8-9 mo in perch tissues to produce a single annual generation that culminates in a 4-6 wk period of spore dispersal. The parasite does not appear to be pathogenic. The observed cycle of H. doori repeated itself over 4 yr of sampling in Vinegar Lake, Nova Scotia.

Impact of municipal effluents and hydrological regime on myxozoan parasite communities of fish

Increased productivity from sewage effluents can enhance species richness locally. Results from a study of spottail shiners (Notropis hudsonius) in 1999 showed that prevalence and the mean number of myxozoan parasite species per host were higher downstream of the wastewater outflow from the Island of Montreal than upstream in the St. Lawrence River, Quebec, Canada. This was attributed to organic enrichment of the sediments which presumably lead to increased densities of oligochaetes, the alternate hosts, downstream of Montreal. Spottail shiners subsequently were collected every August/early September in 2001-2004 to examine the stability and repeatability of these patterns. Prevalence and mean number of myxozoan species per fish typically were again higher downstream of the sewage source each year compared to upstream, although there was no significant difference in these measurements pooled across years between localities immediately upstream and downstream of the effluent outflow. Density of the oligochaete Limnodrilus hoffmeistereri, a common alternate host of myxozoans, was much higher at two downstream localities than at an upstream one. At a larger spatial scale, mean myxozoan infracommunity richness across sites in the St. Lawrence River was negatively correlated with mean water levels measured in the 3 months prior to fish sampling. Results suggest that on a local scale, variations in prevalence and diversity among localities are influenced by municipal effluents, but that at a landscape scale annual variations across sites are affected by the hydrological regime and climate. In effect, water level fluctuation had a landscape-wide impact that was superimposed over pollution-induced local variations.

INFRAPOPULATION DISPERSAL OF GYRODACTYLUS COLEMANENSIS (MONOGENEA) ON FRY OF SALMO GAIRDNERI

Manipulative positioning of Gyrodactylus colemanensis on individually isolated fry of Salmo gairdneri was used to examine the behavior of the parasite during colonization and the influence that site of invasion has on size and spatial distribution of ensuing infrapopulations. The parasites initial response was to relocate posteriorly on the hosts body; those that reached a fin usually end up on or adjacent to the fins margin. Individuals monitored for up to 15 days postinfection moved both anteriorly and posteriorly on the body surface and relocated to new fins via the body surface. The parasite occurred most frequently on the caudal fin followed by the pectoral and pelvic fins, with length of the fin margin and fin activity appearing to be factors influencing the distribution. Infections originating from the head, flank, and caudal fin similarly rose and fell to extinction or near extinction on the host over 49 days at 10 C. The more posterior the site of invasion, the greater the proportion of parasites carried by the caudal fin. The study concludes that G. colemanensis is restricted in its distribution on the host and that the fin margins may serve as a reliable food source and favor transmission to new hosts.

Species of Myxobolus (Myxozoa) from the Bulbus Arteriosus of Centrarchid Fishes in North America, with a Description of Two New Species

Three species of Myxobolus (Myxozoa, Myxosporea) occur in heart tissue of centrarchids. Myxobolus paralintoni Li and Desser, 1985 from Lepomis gibbosus in Algonquin Park and in Lake Erie, Ontario, has subcircular spores (in plane of spore length) in frontal view (11-13 microm long, 9-10 microm wide, and 5 microm thick) with a width-to-length ratio of 1:1.2. Myxobolus jollimorei n. sp. from Lepomis macrochirus in Lake Erie and in the Pascagoula River System, Mississippi, has subcircular spores (in plane of spore width) in frontal view (10.0-11.5 microm long, 12.0-14.5 microm wide, and 6.5-8.0 microm thick) with a width-to-length ratio of 1:0.8. Myxobolus manueli n. sp. from Pomoxis nigromaculatus in Lake Erie has spores (10-11 microm long, 8-10 microm wide, and 6.5-7.0 microm thick) that are nearly circular in frontal view but that have 2 distinct sublateral knobs along the sutural ridge and a width-to-length ratio of 1:1.2. All 3 species occur in the bulbus arteriosus of their hosts where they form small, saucer-shaped pseudocysts. Free spores were found free in the lumen of the heart and bulbus arteriosus, in bile, and in kidney tissue presses.

THE MYXOZOAN FAUNA OF SPOTTAIL SHINER IN THE GREAT LAKES BASIN: MEMBERSHIP, RICHNESS, AND GEOGRAPHICAL DISTRIBUTION

Spottail shiner (Notropis hudsonius) from localities in each of the Great Lakes plus some nearby waterbodies, i.e., the St. Lawrence River, and the Chester River, Maryland, were examined for myxozoan parasites. A total of 10 species was found, including 7 histozoic (Myxobolus sp.; M. algonquinensis Xiao and Desser, 1997; M. bartai Salim and Desser, 2000; M. xiaoi Salim and Desser, 2000; M. fanthami Landsberg and Lom, 1991; M. hendricksoni Mitchell, Seymour, and Gamble, 1985; Thelohanellus notatus Mavor, 1916) and 3 coelozoic (Chloromyxum sp., Zschokkella sp., Sphaerospora sp.) representatives. Infracommunity richness varied from 0 to 5 species per fish; mean infracommunity richness varied from 0 to 2.5 species. Component community richness varied from 0 to 7. Significant positive correlations were observed between mean and maximum infracommunity richness and component community richness. Similarly, maximum prevalence of each species at any 1 site was positively correlated with geographic range as measured by number of localities where a parasite species was encountered. Individual species occurred independently of each other. Representative histozoic and coelozoic species displayed similarly widespread distributions from Wisconsin to Maryland, but overall, histozoic species were dominant members within component communities. The study concludes that, under the present taxonomic paradigm, species parasitizing spottail shiner appear to be part of a larger network that cycles, in varying degrees, through certain other cyprinid and catostomid fish. The challenge of future research is to determine whether each parasite species constitutes single or multiple genetically isolated populations.