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1.
Integr Comp Biol ; 54(2): 184-92, 2014 Jul.
Article in English | MEDLINE | ID: mdl-24935987

ABSTRACT

For trophically transmitted parasites that manipulate the phenotype of their hosts, whether the parasites do or do not experience resource competition depends on such factors as the size of the parasites relative to their hosts, the intensity of infection, the extent to which parasites share the cost of defending against the host's immune system or manipulating their host, and the extent to which parasites share transmission goals. Despite theoretical expectations for situations in which either no, or positive, or negative density-dependence should be observed, most studies document only negative density-dependence for trophically transmitted parasites. However, this trend may be an artifact of most studies having focused on systems in which parasites are large relative to their hosts. Yet, systems are common where parasites are small relative to their hosts, and these trophically transmitted parasites may be less likely to experience resource limitation. We looked for signs of density-dependence in Euhaplorchis californiensis (EUHA) and Renicola buchanani (RENB), two manipulative trematode parasites infecting wild-caught California killifish (Fundulus parvipinnis). These parasites are small relative to killifish (suggesting resources are not limiting), and are associated with changes in killifish behavior that are dependent on parasite-intensity and that increase predation rates by the parasites' shared final host (indicating the possibility for cost sharing). We did not observe negative density-dependence in either species, indicating that resources are not limiting. In fact, observed patterns indicate possible mild positive density-dependence for EUHA. Although experimental confirmation is required, our findings suggest that some behavior-manipulating parasites suffer no reduction in size, and may even benefit when "crowded" by conspecifics.


Subject(s)
Body Size/physiology , Fundulidae/parasitology , Heterophyidae/anatomy & histology , Trematoda/anatomy & histology , Trematoda/physiology , Animals , California , Heterophyidae/physiology , Population Density
2.
Curr Biol ; 22(8): R255-7, 2012 Apr 24.
Article in English | MEDLINE | ID: mdl-22537623
3.
Nature ; 454(7203): 515-8, 2008 Jul 24.
Article in English | MEDLINE | ID: mdl-18650923

ABSTRACT

Parasites can have strong impacts but are thought to contribute little biomass to ecosystems. We quantified the biomass of free-living and parasitic species in three estuaries on the Pacific coast of California and Baja California. Here we show that parasites have substantial biomass in these ecosystems. We found that parasite biomass exceeded that of top predators. The biomass of trematodes was particularly high, being comparable to that of the abundant birds, fishes, burrowing shrimps and polychaetes. Trophically transmitted parasites and parasitic castrators subsumed more biomass than did other parasitic functional groups. The extended phenotype biomass controlled by parasitic castrators sometimes exceeded that of their uninfected hosts. The annual production of free-swimming trematode transmission stages was greater than the combined biomass of all quantified parasites and was also greater than bird biomass. This biomass and productivity of parasites implies a profound role for infectious processes in these estuaries.


Subject(s)
Biomass , Ecosystem , Parasites/isolation & purification , Parasites/physiology , Animals , California , Host-Parasite Interactions , Pacific Ocean , Snails/parasitology , Trematoda/isolation & purification , Trematoda/physiology , Trematode Infections/parasitology , Wetlands
4.
Pharmacol Biochem Behav ; 88(3): 280-90, 2008 Jan.
Article in English | MEDLINE | ID: mdl-17936348

ABSTRACT

BACKGROUND: Compared to outbred Sprague Dawley (SD) rats, inbred Brown Norway (BN) rats exhibit less prepulse inhibition of startle (PPI) at long prepulse intervals, and more PPI at short intervals. Sensitivity to dopaminergic drug effects on PPI differs substantially across strains, and is heritable within SD and other outbred strains. To further understand the heritability of PPI and its sensitivity to dopamine agonists, we assessed PPI and apomorphine sensitivity in SD, BN and F1 (SD x BN) rats. METHODS: PPI was measured in BN, SD and F1 rats under a variety of stimulus conditions, and after treatment with apomorphine. RESULTS: Findings confirmed significantly more PPI in BN compared to SD rats at short prepulse intervals, and significantly more PPI in SD compared to BN rats at long intervals. F1s were "supersensitive" to both the PPI-disruptive effects of apomorphine at longer intervals, and the PPI-enhancing effects of apomorphine at shorter intervals, compared to either parental strain. CONCLUSION: Differences in sensorimotor gating between SD and BN rats are robust, time-locked and consistent across studies. Unlike patterns in other strains, heritability of PPI apomorphine sensitivity phenotypes in SD x BN F1s cannot be easily explained by simple additive effects.


Subject(s)
Dopamine Agonists/pharmacology , Reflex, Startle/drug effects , Acoustic Stimulation , Animals , Apomorphine/pharmacology , Female , Male , Phenotype , Pigmentation , Rats , Rats, Inbred BN , Rats, Inbred Strains , Rats, Sprague-Dawley , Sex Characteristics , Species Specificity
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