1.Metagenesis of intermediate host to Schistosoma japonicum Oncomelania snail in mountainous areas
Yuan-Pei LI ; Hai-Yin WANG ; Yi-Biao ZHOU ; Wu-Li YIHUO ; Gang-Ming LIU ; Qing-Wu JIANG
Chinese Journal of Epidemiology 2010;31(6):681-684
Objective To anderstand the metagenesis of Oncomelania snails in the mountainous regions so as to control the spread of snails and the epidemics of schistosomiasis.Methods Observation spot was established at a typical snail habitat close to Puge county,Sichuan province from February 2008 to July 2009.Random sampling was applied to determine the place of each frame during the observation.All the snails in each frame were collected and numbers counted in the laboratory,with the number of mating pairs in each frame also observed.Snails being collected were measured for the body indices and the dissection was carried out to identify gender composition.survival status and the number of live snails in each frame counted.Line graphs of the body indices.mating pairs in each observed months,bar graphs of the snail density,proportions of gender together with the maturity of the snails in each month were drawn.Results The number of live snail existed the whole year and its density fluctuated.All the three kinds of body indices showed the same time trend and a dynamic circulation.The young snail existed all year around and arose constantly in proportion from May,becoming the dominant snailin October to replace the adult snails.The young and adult snails also showed a dynamic alternative.The gender composition showed no significant difference during each month.The number of the mating pairs was more on April.May and June annually,when were the snail's main multiplying stage.Conclusion In mountain area.the young snails existed through all the year while adult snails appeared to be dominantin each month except for October.Oncomelania snail showed a circular process of metagenesis which started in May and finished in October.The snail population presented a dynamic equilibrium.It was concluded that ecological studies on Oncomelania snail were extremely relevant,either to optimally apply the existing control measures or to develop alternative measures for snail control,ecologically or biologically.
2.Spatial characteristic of distribution of Oncomelania hupensis in mountainous regions
Ming-Zhen HE ; Jian LIU ; Wu-Li YIHUO ; Yuan-Pei LI ; Hui-Min ZHENG ; Yi-Biao ZHOU ; Qing-Wu JIANG
Chinese Journal of Epidemiology 2011;32(4):361-365
Objective To analyze the spatial characteristic on the distribution of Oncomelania hupensis in mountainous regions.Methods Based on the geographic database of snail distribution in Puge county,Sichuan province,spatial autocorrelation analysis and spatial scan statistics were applied to analyze the spatial characteristic of snail distribution.Results With regard to the rate of frame with snails,the global Moran's I indicator was 0.095(P<0.05),which indicated the spatial autocorrelation of snail distribution in Puge county.Data from the local spalial autocorrelation analysis showed that there were 28 snail habitats with statistically significant differences on local indicators of spatial autocorrelation(LISA)value(P<0.05),among which existed high-high,low-low,low-high and high-low four types of correlation model.The Spatial Scan Statistics had in total identified 24 snail habitat clusters(P<0.05),including 14 high rate clusters and 10 low rate clusters,and the result was similar to that of LISA analysis.Conclusion There were spatial autocorrelation and spatial aggregation of snail distribution in mountainous regions,meanwhile spatial heterogeneity of snail distribution also existed.This law could be explored for beaer control of snails.
3.Simple sequence repeat variation and small-scale spatial autocorrelatian analysis on smooth-shell populations of Oncomelania hupensis in Sichuan province
Jun-Tao GUO ; Yi-Biao ZHOU ; Zhi-Jie ZHANG ; Gang-Ming LIU ; Wu-Li YIHUO ; Hai-Yin WANG ; Gen-Ming ZHAO
Chinese Journal of Epidemiology 2009;30(5):497-501
Objective To analysis the spatial autocorrelation on the small-scale distribution of the genetic variation in the population of Oncomelania hupensis in Puge county, Sichuan province, using simple sequence repeat (SSR) marker. Methods 5 pairs of SSR primer were used to amplify the genomic DNA of Oncomelania hupensis, and the alleles with frequency ranging from 15% to 85% were used to calculate Moran' s I spatial autocorrelation coefficients in 14 distance band based on equal numbers of paired samples. Results A total of 274 alleles were scored by 5 pairs of SSR primer, the average polymorphic information content of the 274 alleles were 0.965 which indicated a high level of genetic diversity. 39 alleles showed different patterns of positive spatial autocorrelation of genetic variation, which was non-random spatial structure. When the distance band increased, the spatial auto-correlativity decreased based on the average Moran' s I value at 14 distance band. The alleles which showed a negative spatial autocorrelation were not found in any distance band. Conclusion The spatial distribution of the genetic variation of SSR showed positive spatial autocorrelation in the population of Oncomelania hupensis, and the spatial auto-correlativity decreased with the increase of distance band.
4.Spatial distribution and elimination of Schistosome japonicum intermediate hosts Oncomelania hupensis in mountainous regions.
Yi-biao ZHOU ; Wu-li YIHUO ; Gang-ming LIU ; Zi-song WU ; Shi-an WANG ; Hai-yin WANG ; Liang XU ; Gen-ming ZHAO ; Qing-wu JIANG
Chinese Journal of Preventive Medicine 2008;42(8):561-564
OBJECTIVETo explore the spatial distribution and elimination of Oncomelania hupensis in mountainous regions.
METHODSPuge County in Tezi township was selected as the study site and the quadratus were placed randomly to investigate snail. The two sods with water were selected as the sites of snail elimination. One sod with area of 1000 m2 and mean density of 9.88 snails/0.11 m2 was selected as the trial group with 'heaping' method, and the other with area of 1000 m2 and mean density of 9.80 snails/0.11 m2 as the control group with sprinkling method. The molluscacidal effect of the two methods was compared by systematic sampling (5 m x 5 m). The sample size was 40 quadratus.
RESULTSThe snail distributed mainly in the sods with water, canals and farmlands. Among the three snail habitats, the area with snail was the most in the farmlands with relatively lower density of living snail; the next was the sods with water, with relatively higher density of living snail. Before killing snails, the rate of quadratus with snails was 87.50% in the trial site, and 82.50% in the control site. The mortality of snails was 3.89% in the trial site, and 4.16% in the control site. After three months, no living snails were found in the trial site, while in the control site, the rate of quadratus with snails (chi2 = 0.31, P > 0.05) and the mortality of snails (chi2 = 3.12, P > 0.05) did not decrease significantly, and the density of living snails only reduced by 8.88%.
CONCLUSIONThe 'heaping' method is an efficacious measure for snail control.
Animals ; China ; Environment ; Molluscacides ; Pest Control ; Schistosoma japonicum ; Schistosomiasis japonica ; prevention & control ; Snails ; parasitology
5.Snail control by using soil pasting mixed with niclosamide.
Zi-song WU ; Tian-gui WANG ; Xiao-sheng ZHANG ; Bo ZHONG ; Liang XU ; Gui-bin GAO ; Ben-fu TAN ; Yong MAO ; Meng TANG ; Ming-kang XIE ; Wu-li YIHUO ; Shi-zhong WANG ; Chun-hua MA ; Fa-sen XU ; Dong-chuan QIU
Chinese Journal of Preventive Medicine 2008;42(8):569-573
OBJECTIVETo evaluate the effect of snail control through soil pasting mixed with niclosamide.
METHODSFour sites were selected in different epidemic areas in Sichuan province. Soil pasting mixed with niclosamide was carried on, and the dosage was 0 g/m2, 4 g/m2, 6 g/m2, 8 g/m2 and 10 g/m2 respectively. The mortality rate of snail and the density of snail were observed after 7, 15, 30, 90 and 180 days.
RESULTSThe mortality rate of snail was more than 43.3% in blank group after 30 days. The mortality rate of snail was from 75.3% to 100.0% at 4 g/m2 group after 30 days. The mortality rate of snail in 4 g/m2 group was significantly higher than that in the blank group (chi2 = 31.27, P < 0.05). There was no significant difference in the mortality rate of snail among all study groups (chi2 = 1.07, P > 0.05). The decrease rate of snail density was more than 90%. The mortality rate of snail was about 30% higher in Chantu group than Qutu group. The unit cost of Pasting-Mixing Drug with Soil was from 5 to 7 times of spray method, but the total cost was similar for the. two methods at the endpoint of the snail control.
CONCLUSIONThe effect of soil pasting mixed with niclosamide is good, and the dosage of 4-6 g/m2 is suggested in snail control.
Animals ; Molluscacides ; Niclosamide ; Pest Control ; Schistosomiasis ; epidemiology ; prevention & control ; Snails ; Soil