Interrelationship between the sex of the water rat Scapteromys aquaticus and its infestation with ectoparasites in La Plata river marshland, Argentina

MARCELA LARESCHI

REVISTA DE BIOLOGíA TROPICAL

Año: 2006 vol. 54 p. 673 - 679

0034-7744

I studied the relationship between sex and infestation with ectoparasites in the water rat Scapteromys aquaticus from La Plata river marshland, Argentina. The Relative Density’s Index (RDI) for males was 3.90% (females 3.60%). A total of 2653 ectoparasites were collected on 33 male hosts, and 1945 on 31 females. Ectoparasite specific richness (S) and diversity (H) were S = 14, H = 1.17 on males, and S = 10, H = 1.52 on females. The similarity between male and female rodents according to their ectoparasites was 75.00%. Although no ectoparasite species showed significant mean abundance (MA) differences between host sexes (p<0.05), and only Laelaps manguinhosi prevalence was significantly higher on male hosts (N= 2.01, p<0.05) in this study, there are reasons to think that the sex of the water rat affects ectoparasite burden and specific richness. This information has epidemiological potential because the closely relatedScapteromys tumidus is involved in the transmission of Rickettsia coronii, which causes Marsella fever in humans.Scapteromys aquaticus from La Plata river marshland, Argentina. The Relative Density’s Index (RDI) for males was 3.90% (females 3.60%). A total of 2653 ectoparasites were collected on 33 male hosts, and 1945 on 31 females. Ectoparasite specific richness (S) and diversity (H) were S = 14, H = 1.17 on males, and S = 10, H = 1.52 on females. The similarity between male and female rodents according to their ectoparasites was 75.00%. Although no ectoparasite species showed significant mean abundance (MA) differences between host sexes (p<0.05), and only Laelaps manguinhosi prevalence was significantly higher on male hosts (N= 2.01, p<0.05) in this study, there are reasons to think that the sex of the water rat affects ectoparasite burden and specific richness. This information has epidemiological potential because the closely relatedScapteromys tumidus is involved in the transmission of Rickettsia coronii, which causes Marsella fever in humans.from La Plata river marshland, Argentina. The Relative Density’s Index (RDI) for males was 3.90% (females 3.60%). A total of 2653 ectoparasites were collected on 33 male hosts, and 1945 on 31 females. Ectoparasite specific richness (S) and diversity (H) were S = 14, H = 1.17 on males, and S = 10, H = 1.52 on females. The similarity between male and female rodents according to their ectoparasites was 75.00%. Although no ectoparasite species showed significant mean abundance (MA) differences between host sexes (p<0.05), and only Laelaps manguinhosi prevalence was significantly higher on male hosts (N= 2.01, p<0.05) in this study, there are reasons to think that the sex of the water rat affects ectoparasite burden and specific richness. This information has epidemiological potential because the closely relatedScapteromys tumidus is involved in the transmission of Rickettsia coronii, which causes Marsella fever in humans.Laelaps manguinhosi prevalence was significantly higher on male hosts (N= 2.01, p<0.05) in this study, there are reasons to think that the sex of the water rat affects ectoparasite burden and specific richness. This information has epidemiological potential because the closely relatedScapteromys tumidus is involved in the transmission of Rickettsia coronii, which causes Marsella fever in humans.Scapteromys tumidus is involved in the transmission of Rickettsia coronii, which causes Marsella fever in humans.Rickettsia coronii, which causes Marsella fever in humans.