Timing and order of exposure to two echinostome species affect patterns of infection in larval amphibians

Parasitology ◽  
2020 ◽  
Vol 147 (13) ◽  
pp. 1515-1523
Author(s):  
Logan S. Billet ◽  
Vanessa P. Wuerthner ◽  
Jessica Hua ◽  
Rick A. Relyea ◽  
Jason T. Hoverman
Keyword(s):  
Rana Pipiens ◽  
Parasite Species ◽  
Priority Effects ◽  
Ecological Studies ◽  
Field Surveys ◽  
Larval Amphibians ◽  
Lower Infection ◽  
Multiple Species ◽  
Echinostoma Trivolvis ◽  
Timing Of Exposure

AbstractThe study of priority effects with respect to coinfections is still in its infancy. Moreover, existing coinfection studies typically focus on infection outcomes associated with exposure to distinct sets of parasite species, despite that functionally and morphologically similar parasite species commonly coexist in nature. Therefore, it is important to understand how interactions between similar parasites influence infection outcomes. Surveys at seven ponds in northwest Pennsylvania found that multiple species of echinostomes commonly co-occur. Using a larval anuran host (Rana pipiens) and the two most commonly identified echinostome species from our field surveys (Echinostoma trivolvis and Echinoparyphium lineage 3), we examined how species composition and timing of exposure affect patterns of infection. When tadpoles were exposed to both parasites simultaneously, infection loads were higher than when exposed to Echinoparyphium alone but similar to being exposed to Echinostoma alone. When tadpoles were sequentially exposed to the parasite species, tadpoles first exposed to Echinoparyphium had 23% lower infection loads than tadpoles first exposed to Echinostoma. These findings demonstrate that exposure timing and order, even with similar parasites, can influence coinfection outcomes, and emphasize the importance of using molecular methods to identify parasites for ecological studies.

Parasitism of asymmetrical pelvic phenotypes in stickleback

1997 ◽  
Vol 75 (12) ◽  
pp. 2084-2094 ◽  
Author(s):  
T. E. Reimchen
Keyword(s):  
Genetic Background ◽  
Gasterosteus Aculeatus ◽  
Parasite Species ◽  
Juvenile Fish ◽  
Bilateral Symmetry ◽  
Early Ontogeny ◽  
Directional Asymmetry ◽  
Lower Infection ◽  
Resistance To Infection ◽  
Multiple Species

Subtle departures from bilateral symmetry in morphological traits result from environmental and genetic stresses and may signal an inferior genetic background. Because one correlate of an inferior genome is reduced resistance to infection, such asymmetry may provide a phenotypic signal of susceptibility to parasitism. I tested this hypothesis in a population of threespine stickleback (Gasterosteus aculeatus) with cestode and nematode infections and bilateral asymmetry of the pelvis. Seventeen percent of the fish had an asymmetrical pelvis and, of these, 78% had greater expression on the left side; this directionality suggests a genetic influence. Females had consistently greater left-side asymmetry than did males. The incidence of total infection (all parasite species) in the largest adult fish (> 60 mm body length) was greater in asymmetrical phenotypes, and this occurred in both sexes and for each parasite species (Schistocephalus solidus, Cyathocephalus truncatus, Eustrongylides spp.), even when multiple-species infections were excluded. Contrary to prediction, however, in juvenile fish (< 20 mm) and yearlings (20–40 mm) but not subadults and adults (40–60 mm), asymmetrical phenotypes had significantly lower infection rates than symmetrical fish. This pattern occurred in both sexes, but the extent of the association varied over the 14 years of sampling. Consequently, if the directional asymmetry of the pelvis is under genetic control, asymmetry would be favoured during early ontogeny but selected against during the adult stages. The data support the hypothesis that asymmetry is a phenotypic signal of parasitism, but the unexpected bidirectionality of the association within a single population suggests increased complexity of the processes coupling asymmetry and genetic background.

Prior residency does not always pay off – co-infections inDaphnia

Parasitology ◽  
2010 ◽  
Vol 137 (10) ◽  
pp. 1493-1500 ◽  
Author(s):  
JENNIFER N. LOHR ◽  
MINGBO YIN ◽  
JUSTYNA WOLINSKA
Keyword(s):  
Parasite Species ◽  
Mixed Effects ◽  
Spore Production ◽  
Daphnia Galeata ◽  
Intestinal Protozoan ◽  
Ecological Processes ◽  
Single Genotype ◽  
Host Life ◽  
Multiple Species ◽  
Prior Residency

SUMMARYThe epidemiological and ecological processes which govern the success of multiple-species co-infections are as yet unresolved. Here we investigated prior versus late residency within hosts, meaning which parasite contacts the host first, to determine if the outcomes of intra-host competition are altered. We infected a single genotype of the waterfleaDaphnia galeatawith both the intestinal protozoanCaullerya mesniliand the haemolymph fungusMetschnikowiasp. (single genotype of each parasite species), as single infections, simultaneous co-infections and as sequential co-infections, with each parasite given 4 days prior residency. Simultaneous co-infections were significantly more virulent than both single infections and sequential co-infections, as measured by a decreased host life span and fecundity. Further, in addition to theDaphniahost, the parasites also suffered fitness decreases in simultaneous co-infections, as measured by spore production. The sequential co-infections, however, had mixed effects:C. mesnilibenefited from prior residency, whereasMetschnikowiasp. experienced a decline in fitness. Our results show that multiple-species co-infections ofDaphniamay be more virulent than single infections, and that prior residency does not always provide a competitive advantage.

scholarly journals Community disassembly and disease: realistic—but not randomized—biodiversity losses enhance parasite transmission

2019 ◽  
Vol 286 (1902) ◽  
pp. 20190260 ◽  
Author(s):  
Pieter T. J. Johnson ◽  
Dana M. Calhoun ◽  
Tawni Riepe ◽  
Travis McDevitt-Galles ◽  
Janet Koprivnikar
Keyword(s):  
Species Composition ◽  
Host Species ◽  
Host Community ◽  
Trematode Species ◽  
Parasite Transmission ◽  
Field Surveys ◽  
Larval Amphibians ◽  
Experimental Approaches ◽  
The Individual ◽  
The Relationship

Debates over the relationship between biodiversity and disease dynamics underscore the need for a more mechanistic understanding of how changes in host community composition influence parasite transmission. Focusing on interactions between larval amphibians and trematode parasites, we experimentally contrasted the effects of host richness and species composition to identify the individual and joint contributions of both parameters on the infection levels of three trematode species. By combining experimental approaches with field surveys from 147 ponds, we further evaluated how richness effects differed between randomized and realistic patterns of species loss (i.e. community disassembly). Our results indicated that community-level changes in infection levels were owing to host species composition, rather than richness. However, when composition patterns mirrored empirical observations along a natural assembly gradient, each added host species reduced infection success by 12–55%. No such effects occurred when assemblages were randomized. Mechanistically, these patterns were due to non-random host species assembly/disassembly: while highly competent species predominated in low diversity systems, less susceptible hosts became progressively more common as richness increased. These findings highlight the potential for combining information on host traits and assembly patterns to forecast diversity-mediated changes in multi-host disease systems.

Ecology of the dorylaimid omnivore genera Aporcelaimellus, Eudorylaimus and Mesodorylaimus

Nematology ◽  
2012 ◽  
Vol 14 (6) ◽  
pp. 645-663 ◽  
Author(s):  
Robert McSorley
Keyword(s):  
Extreme Environments ◽  
Sandy Soils ◽  
Numerical Data ◽  
Ecological Studies ◽  
Dune Sands ◽  
Adverse Impacts ◽  
Soil Ecosystems ◽  
Multiple Species ◽  
Key Aspects ◽  
Nematode Fauna

Eudorylaimus, Aporcelaimellus and Mesodorylaimus are dominant members of the omnivorous nematode fauna in Florida, USA. Ecological studies that included numerical data on these genera were reviewed to determine key aspects of their ecology and behaviour. These three genera were also the dominant omnivores in many parts of Europe and often occurred together. Multiple species within genera may be present in samples as well. Although results varied with habitat, these omnivores were present in nearly all stages of succession but often reached their greatest numbers in later stages of succession such as old-growth forests. They also showed remarkable adaptation to extreme environments, including Antarctic habitats, dune sands and temperate sites without vegetation. They were found in a variety of soil types but limited by soil pH < 4.0. Compared with other nematode taxa, they were among the genera most sensitive to moisture levels in sandy soils and to pollution by heavy metals. Some reports also indicated adverse impacts from inorganic fertilisers and other agrichemicals. Much remains unknown about the ecology of these common nematodes, which are widely distributed in soil ecosystems.

Checklist of the parasites of the black-necked swan, Cygnus melanocoryphus (Aves: Anatidae), with new records from Chile

Zootaxa ◽  
2010 ◽  
Vol 2637 (1) ◽  
pp. 55 ◽  
Author(s):  
DANIEL GONZÁLEZ-ACUÑA ◽  
LUCILA MORENO ◽  
ARMANDO CICCHINO ◽  
SERGEY MIRONOV ◽  
MIKE KINSELLA
Keyword(s):  
South America ◽  
Parasite Species ◽  
New Records ◽  
Southern Cone ◽  
Life Cycles ◽  
Intermediate Hosts ◽  
New Host ◽  
Echinostoma Trivolvis ◽  
New Host Records

Black-necked swans (Cygnus melanocoryphus) are endemic to the southern cone of South America. Their range extends from Brazil and Paraguay south to Argentina and Chile. A total of 16 parasite species were collected from 7 swans from the Biobio region, Chile, of which 12 are new records for Chile and 11 represent new host records, Echinostoma trivolvis, Paranomostomum sp., Microsomacanthus sp., Nadejdolepis sp., Retinometra sp., Avioserpens sp., Capillaria skrjabini, Ingrassia cygni, Anatoecus penicillatus, A. icterodes and A. keymeri. A checklist is presented that summarizes sites of infections, localities, life cycles and their intermediate hosts (if known), and the pertinent references to demonstrate the wide diversity of parasites of black-necked swans. Our review of the existing literature (23 publications) along with our own records provided information on a total of 18 families and 27 genera, including 33 described species (some only identified to genus), of which 11 were recorded only in Chile (8 endoparasites and 3 ectoparasites), and 6 only in Argentina (4 endoparasites and 2 ectoparasites). Five parasites are known only from captive swans in European zoos. Parasites recorded from C. melanocoryphus include 23 helminths and 10 ectoparasites (one leech and 9 arthropods).

scholarly journals The first comprehensive data on the distribution of reptiles within the Southern Bug eco-corridor, Ukraine

Herpetozoa ◽  
2021 ◽  
Vol 34 ◽  
pp. 97-114
Author(s):  
Oleksandra Oskyrko ◽  
Daniel Jablonski
Keyword(s):  
Steppe Zone ◽  
The Other ◽  
Conservation Priorities ◽  
Distribution Data ◽  
Ecological Studies ◽  
H Index ◽  
Field Surveys ◽  
New Localities ◽  
Southern Ukraine ◽  
Made In

This study provides distribution data for 12 species of reptiles in the Southern Bug eco-corridor located within the steppe zone, Mykolaiv Oblast (province), Ukraine. We compiled 935 records from published literature (324), from public databases (68), and from 12 field surveys we made in 2016–2020 (543). All records were mapped on to a grid of 10×10 km, representing the 294 cells of the studied area. We present new distributional data for Podarcis tauricus. For all the other species, our records add new localities that fall within areas where these reptiles were previously reported. Species richness and Shannon’s H’ index show that herpetofauna diversity was higher in the areas along the Southern Bug River. The maximum number of records within a single cell was 118 (for 10 species) in this oblast. Also the high number of identified reptile chorotypes (nine) within the Mykolaiv Oblast revealed that southern Ukraine is an important zoogeographical territory in Europe. These data provide the basis for future biogeographical and ecological studies and conservation priorities.

scholarly journals The application of community ecology theory to co-infections in wildlife hosts

2020 ◽  
Author(s):  
Chloe Ramsay ◽  
Jason R. Rohr
Keyword(s):  
Community Ecology ◽  
Batrachochytrium Dendrobatidis ◽  
Parasite Species ◽  
Time Lag ◽  
Prior Exposure ◽  
Priority Effects ◽  
Time Lags ◽  
Priority Effect ◽  
Growth And Survival ◽  
Host Growth

AbstractPriority effect theory, a foundational concept from community ecology, states that the order and timing of species arrival during species assembly can affect species composition. Although this theory has been applied to co-infecting parasite species, it has almost always been with a single time lag between co-infecting parasites. Thus, how the timing of parasite species arrival affects co-infections and disease remains poorly understood. To address this gap in the literature, we exposed post-metamorphic Cuban tree frogs (Osteopilus septentrionalis) to Ranavirus, the fungus Batrachochytrium dendrobatidis (Bd), a nematode Aplectana hamatospicula, or pairs of these parasites either simultaneously or sequentially at a range of time lags and quantified load of the secondary parasite and host growth, survival and parasite tolerance. Prior exposure to Bd or A. hamatospicula significantly increased viral loads relative to hosts singly infected with Ranavirus, whereas A. hamatospicula loads in hosts were higher when co-exposed to Bd than when co-exposed to Ranavirus. There was a significant positive relationship between time since Ranavirus infection and Bd load, and prior exposure to A. hamatospicula decreased Bd loads compared to simultaneous co-infection with these parasites. Infections with Bd and Ranavirus either singly or in co-infections decreased host growth and survival. This research reveals that time lags between co-infections can affect parasite loads, in line with priority effects theory. As co-infections in the field are unlikely to be simultaneous, an understanding of when co-infections are impacted by time lags between parasite exposures may play a major role in controlling problematic co-infections.

scholarly journals Prevalence of simian malaria parasites in macaques of Singapore

2021 ◽  
Vol 15 (1) ◽  
pp. e0009110
Author(s):  
Meizhi Irene Li ◽  
Diyar Mailepessov ◽  
Indra Vythilingam ◽  
Vernon Lee ◽  
Patrick Lam ◽  
...  
Keyword(s):  
Human Population ◽  
Malaria Parasite ◽  
Parasite Species ◽  
Plasmodium Knowlesi ◽  
Malaria Parasites ◽  
Simian Malaria ◽  
Specific Pcr ◽  
Natural Hosts ◽  
Multiple Species ◽  
Species Specific

Plasmodium knowlesi is a simian malaria parasite currently recognized as the fifth causative agent of human malaria. Recently, naturally acquired P. cynomolgi infection in humans was also detected in Southeast Asia. The main reservoir of both parasites is the long-tailed and pig-tailed macaques, which are indigenous in this region. Due to increased urbanization and changes in land use, there has been greater proximity and interaction between the long-tailed macaques and the general population in Singapore. As such, this study aims to determine the prevalence of simian malaria parasites in local macaques to assess the risk of zoonosis to the general human population. Screening for the presence of malaria parasites was conducted on blood samples from 660 peridomestic macaques collected between Jan 2008 and Mar 2017, and 379 wild macaques collected between Mar 2009 and Mar 2017, using a Pan-Plasmodium-genus specific PCR. Positive samples were then screened using a simian Plasmodium species-specific nested PCR assay to identify the species of parasites (P. knowlesi, P. coatneyi, P. fieldi, P. cynomolgi, and P. inui) present. All the peridomestic macaques sampled were tested negative for malaria, while 80.5% of the 379 wild macaques were infected. All five simian Plasmodium species were detected; P. cynomolgi being the most prevalent (71.5%), followed by P. knowlesi (47.5%), P. inui (42.0%), P. fieldi (32.5%), and P. coatneyi (28.5%). Co-infection with multiple species of Plasmodium parasites was also observed. The study revealed that Singapore’s wild long-tailed macaques are natural hosts of the five simian malaria parasite species, while no malaria was detected in all peridomestic macaques tested. Therefore, the risk of simian malaria transmission to the general human population is concluded to be low. However, this can be better demonstrated with the incrimination of the vectors of simian malaria parasites in Singapore.

Influences of habitat and arthropod density on parasitism in two co-occurring host taxa

2017 ◽  
Vol 95 (8) ◽  
pp. 589-597 ◽  
Author(s):  
J. Koprivnikar ◽  
T.M.Y. Urichuk ◽  
D. Szuroczki
Keyword(s):  
Infectious Diseases ◽  
Dilution Effect ◽  
Agricultural Activity ◽  
Disease Dynamics ◽  
Future Studies ◽  
Larval Amphibians ◽  
General Importance ◽  
Single Host ◽  
Lower Infection ◽  
Road Distance

Habitat attributes are known to influence infectious diseases such as those caused by parasites, but most studies have only considered single host and (or) parasite taxa, making it difficult to assess which features may be of general importance and to predict how alterations could affect disease dynamics. We examined infection with trematode (flatworm) parasites in two commonly co-occurring host taxa (larval amphibians and larval odonates (dragonflies and damselflies)) to investigate links with landscape-level features, including agricultural activity. We also assessed pond community composition with respect to the abundance and richness of aquatic arthropods known to prey upon tadpoles and (or) free-swimming trematode infectious stages. Larval amphibians from agricultural sites were most likely to be parasitized but had lower infection intensities, and infected hosts were positively associated with increasing distance to the nearest forest habitat, but negatively with road distance. The opposite was observed for larval odonate infection status; however, probability and intensity of parasitism in both host taxa was negatively associated with greater predatory arthropod abundance, consistent with the “dilution effect” of biodiversity on infectious diseases. Our approach demonstrates the importance of considering multiple host taxa when studying habitat links to diseases, and future studies incorporating even greater diversity will be needed.

Echinococcus multilocularis and Echinococcus canadensis in wolves from western Canada

Parasitology ◽  
2013 ◽  
Vol 141 (2) ◽  
pp. 159-163 ◽  
Author(s):  
JANNA M. SCHURER ◽  
KAREN M. GESY ◽  
BRETT T. ELKIN ◽  
EMILY J. JENKINS
Keyword(s):  
North America ◽  
Echinococcus Multilocularis ◽  
Wildlife Conservation ◽  
Parasite Species ◽  
Mixed Infections ◽  
Western Canada ◽  
Echinococcus Canadensis ◽  
Sampling Locations ◽  
Multiple Species ◽  
Canadian Wildlife

SUMMARYEchinococcus species are important parasites of wildlife, domestic animals and people worldwide; however, little is known about the prevalence, intensity and genetic diversity of Echinococcus tapeworms in Canadian wildlife. Echinococcus tapeworms were harvested from the intestines of 42% of 93 wolves (Canis lupus) from five sampling regions in the Northwest Territories, Manitoba and Saskatchewan, and visually identified to genus level by microscopic examination. Genetic characterization was successful for tapeworms from 30 wolves, and identified both Echinococcus canadensis and Echinococcus multilocularis in all sampling locations. Mixed infections of E. canadensis/E. multilocularis, as well as the G8/G10 genotypes of E. canadensis were observed. These findings suggest that wolves may be an important definitive host for both parasite species in western Canada. This represents the first report of wolves naturally infected with E. multilocularis in North America, and of wolves harbouring mixed infections with multiple species and genotypes of Echinococcus. These observations provide important information regarding the distribution and diversity of zoonotic species of Echinococcus in western North America, and may be of interest from public health and wildlife conservation perspectives.

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