The nonparasitic phase of Dermacentor nitens under field conditions in southeastern Brazil / A fase não-parasitária de Dermacentor nitens em condições de campo no Sudeste do Brasil

Dermacentor nitens is a one-host tick that uses domestic equids as main hosts. Herein, the nonparasitic phase of D. nitens was evaluated under field conditions in Pirassununga, São Paulo state, Southeastern Brazil. By exposing engorged females of D. nitens to field conditions (grass plots) for 24 consecutive months, this tick species was able to complete its nonparasitic phase by producing host-seeking larvae in the pasture throughout the year. Preoviposition and egg incubation periods were longer during autumn and winter months than during the other months. The number of larvae generated by engorged females was in most of the times lower during autumn and winter months, as demonstrated by lower egg hatching values. Such conditions could be linked to lower mean temperatures and rainfall. Larvae with the longest longevity hatched from the eggs with the shortest incubation periods. An apparent synchronism of larval hatching during spring was observed from the eggs laid by females during late winter and autumn, which is consistent with the phenomenon of spring rise. The results indicate that D. nitens can complete up to five generations per year in southeastern Brazil, providing baseline data to develop future protocols for the appropriate control of D. nitens on horses.(AU)

Dermacentor nitens é um carrapato de um hospedeiro, que utiliza equídeos domésticos como principais hospedeiros. Neste estudo, a fase não parasitária de D. nitens foi avaliada em condições de campo, em Pirassununga, estado de São Paulo, no Sudeste do Brasil. Fêmeas ingurgitadas de D. nitens foram expostas a condições de campo (canteiros de capim) por 24 meses consecutivos. Este carrapato foi capaz de completar sua fase não parasitária, através da produção de larvas infestantes, durante todos os meses do ano. No outono e inverno, os períodos de pré-oviposição e incubação de ovos foram mais longos. O número de larvas geradas por fêmeas ingurgitadas foi menor no outono e inverno, como demonstrado pelos menores valores de eclosão dos ovos. Tal condição poderia estar ligada a temperaturas médias e índices pluviométricos mais baixos. Larvas com maior longevidade nasceram de ovos com períodos de incubação mais curtos. Observou-se um aparente sincronismo da eclosão das larvas durante a primavera, a partir de ovos postos pelas fêmeas durante o final do inverno e outono, consistente com o fenômeno do pico da primavera. Os resultados indicam que D. nitens pode completar até cinco gerações por ano no Sudeste do Brasil, fornecendo bases para futuros protocolos de controle racional de carrapatos.(AU)

The nonparasitic phase of Dermacentor nitens under field conditions in southeastern Brazil / A fase não-parasitária de Dermacentor nitens em condições de campo no Sudeste do Brasil

Abstract Dermacentor nitens is a one-host tick that uses domestic equids as main hosts. Herein, the nonparasitic phase of D. nitens was evaluated under field conditions in Pirassununga, São Paulo state, Southeastern Brazil. By exposing engorged females of D. nitens to field conditions (grass plots) for 24 consecutive months, this tick species was able to complete its nonparasitic phase by producing host-seeking larvae in the pasture throughout the year. Preoviposition and egg incubation periods were longer during autumn and winter months than during the other months. The number of larvae generated by engorged females was in most of the times lower during autumn and winter months, as demonstrated by lower egg hatching values. Such conditions could be linked to lower mean temperatures and rainfall. Larvae with the longest longevity hatched from the eggs with the shortest incubation periods. An apparent synchronism of larval hatching during spring was observed from the eggs laid by females during late winter and autumn, which is consistent with the phenomenon of "spring rise". The results indicate that D. nitens can complete up to five generations per year in southeastern Brazil, providing baseline data to develop future protocols for the appropriate control of D. nitens on horses.

Resumo Dermacentor nitens é um carrapato de um hospedeiro, que utiliza equídeos domésticos como principais hospedeiros. Neste estudo, a fase não parasitária de D. nitens foi avaliada em condições de campo, em Pirassununga, estado de São Paulo, no Sudeste do Brasil. Fêmeas ingurgitadas de D. nitens foram expostas a condições de campo (canteiros de capim) por 24 meses consecutivos. Este carrapato foi capaz de completar sua fase não parasitária, através da produção de larvas infestantes, durante todos os meses do ano. No outono e inverno, os períodos de pré-oviposição e incubação de ovos foram mais longos. O número de larvas geradas por fêmeas ingurgitadas foi menor no outono e inverno, como demonstrado pelos menores valores de eclosão dos ovos. Tal condição poderia estar ligada a temperaturas médias e índices pluviométricos mais baixos. Larvas com maior longevidade nasceram de ovos com períodos de incubação mais curtos. Observou-se um aparente sincronismo da eclosão das larvas durante a primavera, a partir de ovos postos pelas fêmeas durante o final do inverno e outono, consistente com o fenômeno do "pico da primavera". Os resultados indicam que D. nitens pode completar até cinco gerações por ano no Sudeste do Brasil, fornecendo bases para futuros protocolos de controle racional de carrapatos.

Acaricidal activity of methanol extract of Acmella oleracea L. (Asteraceae) and spilanthol on Rhipicephalus microplus (Acari: Ixodidae) and Dermacentor nitens (Acari: Ixodidae).

We evaluated the acaricidal activity of Acmella oleracea methanol extract and spilanthol on Rhipicephalus microplus and Dermacentor nitens. The extract was made through maceration with methanol. From this extract, a dichloromethane fraction with 99% spilanthol was obtained and tested on R. microplus larvae and engorged females and D. nitens larvae. For evaluation against larvae, the modified larval packet test was used, and both the methanol extract and dichloromethane fraction were tested at concentrations of 0.2-50mg/mL. The modified larval packet test was also used in the lethal time (LT) test, with the methanol extract at a concentration of 12.5mg/mL and the percentage mortality was assessed after 15, 30, 45, 60, 75, 90, 120min and 24h. The 50% lethal time calculation (LT50) was performed in this test. The engorged female test was performed with R. microplus only, at concentrations of 25-200mg/mL for methanol extract and 2.5-20.0mg/mL for spilanthol. The methanol extract caused 100% mortality of the R. microplus and D. nitens larvae at concentrations of 3.1 and 12.5mg/mL, respectively. Spilanthol resulted in 100% mortality of R. microplus larvae at concentration of 1.6mg/mL and of D. nitens at 12.5mg/mL. In the lethal time assay using the methanol extract, the mortality rate was 100% for R. microplus and D. nitens larvae after 120min and 24h, with LT50 values of 38 and 57min, respectively. In the test of females, the egg mass weight and the hatching percentage of the groups treated with concentrations equal to or higher than 50.0mg/mL of methanol extract were significantly reduced (p<0.05), while for spilanthol, the reduction of the egg mass weight and hatching percentage occurred from concentrations of 10.0mg/mL and 2.5mg/mL, respectively. Females treated with 200.0mg/mL of extract died before starting oviposition, resulting in 100% effectiveness, while the best efficacy for spilanthol was 92.9% at a concentration of 20.0mg/mL. Thus we conclude that the methanol extract of A. oleracea and spilanthol have acaricidal activity against R. microplus and D. nitens.