Jan O. Lundström

Reactivation of Borrelia infection in birds

Birds often carry ticks infected with Borrelia burgdorferi sensu lato — the spirochaete that causes Lyme disease — but their role as possible hosts and amplifiers for this illness has long been discounted. We find, however, that migratory birds are able to carry Lyme disease as a latent infection for several months, and that this infection can be reactivated and passed on to ticks as a result of migratory restlessness. Our results indicate that migratory birds may be efficient long-distance carriers of this pathogen.

Male greenfinches (Carduelis chloris) with brighter ornaments have higher virus infection clearance rate

Abstract Hamilton and Zuk proposed that bright plumage in birds indicates genetic resistance to parasites, and that by selecting brighter males as mates, females can increase their offspring’s fitness due to this inherited resistance. The theory predicts a negative relationship between parasite load and plumage brightness in males. We used Sindbis virus clearance rate after an experimental infection to quantify parasite resistance in male greenfinches (Carduelis chloris) and related variation in clearance rate with variation in male plumage brightness. We found that certain aspects of brightness of the male plumage (i.e. tail-patch area) could be used to predict the virus infection clearance rate. Wing brightness was uninformative of virus clearance rate, but revealed age class. We found no clear relationship between antibody production rate and virus clearance rate or total viraemia. However, males with large tail patches tended to have a higher antibody production rate. The results suggest that the size of the male tail patch may function as an indicator of an individual male’s ability to resist parasite infections, thus supporting the Hamilton-Zuk theory for a novel taxon of parasites, a virus.

Patterns of Avian Seroprevalence to Western Equine Encephalomyelitis and Saint Louis Encephalitis Viruses in California, USA

Abstract Temporal and spatial changes in the enzootic activity of western equine encephalomyelitis (WEE) and St. Louis encephalitis (SLE) viruses were monitored at representative wetland study sites in the Coachella, San Joaquin, and Sacramento valleys of California from 1996 to 1998 using three methods: (1) virus isolation from pools of 50 host-seekingCulex tarsalisCoquillett females, (2) seroconversions in flocks of 10 sentinel chickens, and (3) seroprevalence in wild birds collected by mist nets and grain baited traps. Overall, 74 WEE and one SLE isolates were obtained from 222,455Cx. tarsalisfemales tested in 4,988 pools. In addition, 133 and 40 seroconversions were detected in 28 chicken flocks, and 143 and 27 of 20,192 sera tested from 149 species of wild birds were positive for antibodies to WEE and SLE, respectively. WEE was active in all three valleys, whereas SLE only was detected in Coachella Valley. Seroconversions in sentinel chickens provided the most sensitive indication of enzootic activity and were correlated with seroprevalence rates in wild birds. Avian seroprevalence rates did not provide an early warning of pending enzootic activity in chickens, because positive sera from after hatching year birds collected during spring most probably were the result of infections acquired during the previous season. Few seroconversions were detected among banded recaptured birds collected during spring and early summer. Age and resident status, but not sex, were significant risk factors for wild bird infection, with the highest seroprevalence rates among after hatching year individuals of permanent resident species. Migrants (with the exception of mourning doves) and winter resident species rarely were positive. House finches, house sparrows, Gambel’s quail, California quail, common ground doves, and mourning doves were most frequently positive for antibodies. The initial detection of enzootic activity each summer coincided closely with the appearance of hatching year birds of these species in our study areas, perhaps indicating their role in virus amplification. Bird species most frequently positive roosted or nested in elevated upland vegetation, sites whereCx. tarsalishost-seeking females hunt most frequently. These serosurveys provided important background information for planned host competence and chronic infection studies.

The effects of testosterone on a viral infection in greenfinches ( Carduelis chloris ): an experimental test of the immunocompetence-handicap hypothesis

The immunocompetence–handicap hypothesis suggests that the honesty of quality signals could be guaranteed if testosterone (T) suppresses immune function while enhancing male ornaments. In addition, it has been proposed that the cost of enhancing ornaments should be highest for males with small ornaments. Recently, the assertion that T causes obligate immunosuppression has been questioned. In this study, we tested whether elevated T levels would increase susceptibility to a viral infection, and whether this hypothesized effect would be most pronounced in males with small ornaments. We surgically inserted T implants into 15 male greenfinches (Carduelis chloris) and control implants into a further 15 males. All birds were then infected with a naturally occurring virus (Sindbis virus, Alphavirus genus), and each birds daily viraemia (blood virus concentration) was measured for seven days. The specific antibody response was measured for eight weeks. T–implanted males did not exhibit increased viraemia or decreased antibody response, and males with small and large ornaments did not respond differently to T implantation. We did, however, find that T implantation decreased viraemia early in the course of the infection and increased viraemia late in the infection. Thus, our results demonstrate that T may act both to increase and to decrease viraemia.

Biological diversity versus risk for mosquito nuisance and disease transmission in constructed wetlands in southern Sweden.

Abstract.  In southern Sweden, many wetlands have been constructed, and maintaining or increasing biological diversity is often included in the aims. Some wetlands are constructed near human settlements, thus raising the problem of wetlands being associated with mosquitoes (Diptera: Culicidae). Increased biodiversity (including mosquito diversity) is considered desirable, whereas mosquito nuisance from a human point of view is not. Adult mosquito abundance, diversity and species assemblages of constructed wetlands were compared to natural wetlands. The potential of constructed wetlands for mosquito nuisance and transmission of mosquito‐borne viruses was evaluated. The study areas included five constructed and four natural wetlands. Mosquito abundance and species richness were higher in the natural than in the constructed wetlands, and showed a positive correlation with wetland size. Mosquito species assemblages formed three clusters, which were not explained by origin, size and water permanence of wetlands. In a redundancy analysis, however, mosquito faunas showed significant relationships with these variables, and size and origin of wetlands were most important. Major nuisance species (multivoltine species feeding on mammals and laying eggs on soil) were found in all wetlands, although in relatively low numbers. Risk assessment for Sindbis virus transmission showed moderate risk for two constructed wetlands near human settlements. It is concluded that small size of constructed wetlands has the advantage of low mosquito numbers from a human point of view. The use of functional groups is recommended as a tool for presenting mosquito data to the public, and for helping communication between scientists and administrative decision makers.

Outbreaks of Tularemia in a Boreal Forest Region Depends on Mosquito Prevalence

Background. We aimed to evaluate the potential association of mosquito prevalence in a boreal forest area with transmission of the bacterial disease tularemia to humans, and model the annual variation of disease using local weather data. Methods. A prediction model for mosquito abundance was built using weather and mosquito catch data. Then a negative binomial regression model based on the predicted mosquito abundance and local weather data was built to predict annual numbers of humans contracting tularemia in Dalarna County, Sweden. Results. Three hundred seventy humans were diagnosed with tularemia between 1981 and 2007, 94% of them during 7 summer outbreaks. Disease transmission was concentrated along rivers in the area. The predicted mosquito abundance was correlated (0.41, P < .05) with the annual number of human cases. The predicted mosquito peaks consistently preceded the median onset time of human tularemia (temporal correlation, 0.76; P < .05). Our final predictive model included 5 environmental variables and identified 6 of the 7 outbreaks. Conclusions. This work suggests that a high prevalence of mosquitoes in late summer is a prerequisite for outbreaks of tularemia in a tularemia-endemic boreal forest area of Sweden and that environmental variables can be used as risk indicators.

Transstadial Transmission of Francisella tularensis holarctica in Mosquitoes, Sweden

In Sweden, human cases of tularemia caused by Francisella tularensis holarctica are assumed to be transmitted by mosquitoes, but how mosquito vectors acquire and transmit the bacterium is not clear. To determine how transmission of this bacterium occurs, mosquito larvae were collected in an area where tularemia is endemic, brought to the laboratory, and reared to adults in their original pond water. Screening of adult mosquitoes by real-time PCR demonstrated F. tularensis lpnA sequences in 14 of the 48 mosquito pools tested; lpnA sequences were demonstrated in 6 of 9 identified mosquito species. Further analysis confirmed the presence of F. tularensis holarctica–specific 30-bp deletion region sequences (FtM19inDel) in water from breeding containers and in 3 mosquito species (Aedes sticticus, Ae. vexans, and Ae. punctor) known to take blood from humans. Our results suggest that the mosquitoes that transmit F. tularensis holarctica during tularemia outbreaks acquire the bacterium already as larvae.

Phylogeographic Structure and Evolutionary History of Sindbis Virus

Sindbis (SIN) virus, Alphavirus, is a mosquito-borne and bird-associated virus with large geographic distribution in the Old World. We investigated the genetic diversity of 59 SIN strains after limited sequencing of their E2 glycoprotein genes. The SIN strains showed maximal diversity of 22.2% at the amino acid (aa) level, and formed five tentative genotypes. The SIN-I genotype included strains from Europe and Africa. Strains from Australia and East Asia formed SIN-II and SIN-III with about 12% and 15% aa divergence from SIN-I. The only isolate from New Zealand was distinct, and constitutes the SIN-V genotype. Isolates from Azerbaijan and China formed genotype SIN-IV with 15.6%-19.1% aa divergence from SIN-I to III and SIN-V. Phylogenetic analyses indicated that Aura virus was present before the recombinant alphavirus lineage arose. This is consistent with a South American origin of the SIN complex, and argue for a spread in North America before reaching Asia and Australia, followed by westward radiation into Africa and Europe. High levels of sequence identities were observed for geographic regions belonging to the same north-south axis, whereas the east-west genetic exchange appears to be limited. The observed phylogeographic structure was confirmed by distinct aa patterns within two-thirds of the structural protein-coding region of SIN virus strains from Saudi Arabia, Asia, and Australia. The present geography of the five SIN genotypes and subclusters within SIN-I correlate with major bird migration patterns.

Prevalence of Sindbis Virus Neutralizing Antibodies Among Swedish Passerines Indicates that Thrushes are the Main Amplifying Hosts

Abstract The Sindbis virus uses birds as vertebrate hosts in the summer amplification cycle, and the virus is transmitted by ornithophilic Culex species. Previous field and experimental studies have shown that mainly passerine birds are involved in the amplification. To delineate the pattern of Sindbis virus infections among passerines, we collected and sampled birds for blood at five study sites located in northern, central, and southern Sweden. All study sites were lowland forested wetlands and humid forests. The blood samples were assayed for Sindbis neutralizing antibodies, and we tested if the prevalence of Sindbis antibodies varied in relation to bird characteristics (i.e., species, body-mass, sex, and age), and environmental factors (i.e., year, month, and location). We found that Sindbis virus infections occurred in almost all passerine species sampled, but that the infection prevalence was unequally distributed among species. The fieldfare, the redwing, and the songthrush each had significantly higher prevalence than the average for all species. Large passerine species had higher infection prevalence than small species. The infection was less prevalent in hatching-year birds than in older birds during June and July, but not in August. Males and females had the same infection prevalence. The prevalence of Sindbis antibodies was higher in central than in southern Sweden, which coincided with a higher proportion of fieldfare–redwing–songthrush samples in the central region of the country. Thus, it is possible that regional and annual variations in the prevalence of Sindbis antibodies in Swedish passerine species depend on the number of fieldfares, redwings, and songthrushes available for feeding by vector mosquitoes.

Epidemiology: Reactivation of Borrelia infectionin birds

Birds often carry ticks infected with Borrelia burgdorferi sensu lato — the spirochaete that causes Lyme disease — but their role as possible hosts and amplifiers for this illness has long been discounted. We find, however, that migratory birds are able to carry Lyme disease as a latent infection for several months, and that this infection can be reactivated and passed on to ticks as a result of migratory restlessness. Our results indicate that migratory birds may be efficient long-distance carriers of this pathogen.