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Revista Brasileira de Parasitologia Veterinária

On-line version ISSN 1984-2961

Rev. Bras. Parasitol. Vet. (Online) vol.19 no.3 Jaboticabal July/Sept. 2010

http://dx.doi.org/10.1590/S1984-29612010000300007 

FULL ARTICLE

 

The influence of the fasting period on the number of nymphal instars and on the sex ratio of Argas (Persicargas) miniatus (Acari: Argasidae)

 

Influência do período de jejum no número de instares ninfais e na razão sexual de Argas (Persicargas) miniatus (Acari: Argasidae)

 

 

Huarrisson Azevedo SantosI; Isabele da Costa AngeloII; Marcos Pinheiro FranqueII; Usha VashistII; Aline Falqueto DuarteII; Cristiane Divan BaldaniIII; Sandra Maria Gomes ThoméIV; João Luiz Horacio FacciniV; Carlos Luiz MassardV

ICurso de Pós-Graduação em Ciências Veterinárias, Universidade Federal Rural do Rio de Janeiro - UFRRJ
IICurso de Graduação em Medicina Veterinária, Universidade Federal Rural do Rio de Janeiro - UFRRJ, Bolsista CAPES
IIIEscola de Medicina Veterinária e Zootecnia, Universidade Federal do Tocantins - UFT
IVDepartamento de Epidemiologia e Saúde Pública, Instituto de Veterinária, Universidade Federal Rural do Rio de Janeiro - UFRRJ
VDepartamento de Parasitologia Animal, Instituto de Veterinária, Universidade Federal Rural do Rio de Janeiro - UFRRJ

Corresponding author

 

 


ABSTRACT

The current study investigated the biology of nymphs of the first and second instars of Argas (Persicargas) miniatus. Nymphs were deprived of food for 15, 30 or 60 days and held at 27 ± 1 ºC and 80 ± 10% relative humidity (controlled conditions) or at room conditions of temperature and relative humidity. Nymphs of first instar deprived of food for 15 or 30 days molted to second and third instars in both controlled and room conditions. Nymphs of the first instar deprived of food for 60 days had 28 and 37% mortality in controlled and room conditions, respectively; and survivors did not attach to the host. Nymphs of the second instar, deprived of food for 60 days, molted either to the third instar or to males after feeding on Gallus gallus, and the nymphs of the third instar developed to adults (42.42% males and 36.36% females when nymphs were held in controlled temperature and humidity conditions, and 40.54% males and 48.65% females when nymphs were held in room conditions). The remainder of the nymphs molted to the fourth instar and then molted to females. In conclusion, the nymphal starvation period of 60 days determined the number of nymph instars in the life cycle of A. miniatus under the experimental conditions studied.

Keywords: Argas (Persicargas) miniatus, number of nymphal instar, starvation period, argasid tick.


RESUMO

Os aspectos biológicos de ninfas de primeiro e segundo instares de Argas (Persicargas) miniatus quando submetidas a diferentes períodos de jejum (15, 30 e 60 dias), foram estudados em estufa climatizada (27 ± 1 ºC e 80 ± 10% de umidade relativa) e em ambiente de laboratório. Ninfas de primeiro instar que foram submetidas a um período de jejum de 15 e 30 dias mudaram para ninfas de segundo e terceiro instar, em ambas as condições estudadas. No período de 60 dias de jejum verificou-se mortalidade de 28 e 37% das ninfas de primeiro instar, em estufa climatizada e em ambiente de laboratório, respectivamente. As ninfas sobreviventes não se fixaram sobre os hospedeiros. As ninfas de segundo instar, após 60 dias de jejum, desenvolveram-se em ninfas de terceiro instar ou machos, quando alimentadas em Gallus gallus. Ainda neste grupo, as ninfas de terceiro instar mudaram para adultos (42,42 e 40,54% machos; 36,36 e 48,65% fêmeas, nas condições ambiente de laboratório e estufa climatizada, respectivamente) e o restante desenvolveu-se em ninfas de quarto instar que por sua vez mudaram para fêmeas. Então, a situação de jejum (60 dias) em que as ninfas foram submetidas determinou o número de ninfas no ciclo biológico de A. miniatus, sob as condições experimentais estudadas.

Palavras-chave: Argas (Persicargas) miniatus, número de instares ninfais, período de jejum, argasídeo.


 

 

Introduction

The Argas (Persicargas) miniatus Koch, 1844 (Acari: Argasidae) is the only species of the genus Argas occurring in Brazil. Its natural host is the Gallus gallus. In the wild, this tick is found mainly in small domestic breeds of G. gallus, where they may cause losses in productivity due to blood feeding, transmission of pathogens such as Borrelia anserina (MARCHOUX; SALIMBENI, 1903; LISBOA, 2006) and paralysis induced by larvae in young birds (GOTHE et al., 1979; MAGALHÃES et al., 1987). The severity of paralysis depends on the amount of neurotoxin released in the bird tissues, which occurs mostly in the final phase of larvae ingurgitation (MANS et al., 2004).

Different biotic and abiotic factors act on the life cycle of Argasidae. The abiotic factors have direct effects on the free-living phases and may extend or shorten the life cycle. The number of nymphal instars in the ticks of the Argasidae is affected by climatic changes, the volume of ingested blood, and the type of host (BALASHOV, 1968; ISAAC, 1977). The main factor affecting the number of nymphal instars is the volume of ingested blood (BALASHOV, 1968). According to Isaac (1977), the amount of blood ingested, which in turn indirectly affects the number of nymphal instars, may be determined by the fixation site and the temperature and light intensity occurring while the ticks of the Argas are feeding on the host.

In Brazil, the data about the biology of this tick species are limited to the published studies by Rohr (1909), Magalhães (1979), Schumaker and Oba (1988), and Santos (2009). None of these authors investigated the effect of the fasting period of nymphs of the first and second instars on the number of the following instars and on the sex ratio of A. miniatus, the aim of the present study.

 

Material and Methods

1. Study site

This study was carried out at the Estação Experimental para Pesquisas Parasitológicas Wilhelm Otto Neitz do Departamento de Parasitologia Animal, Instituto de Veterinária da Universidade Federal Rural do Rio de Janeiro (UFRRJ).

2. Origin and maintenance of hosts

Adult birds, G. gallus, of the Rhode Island Red breed, acquired in commercial flocks were feed on concentrated commercial ration and given water ad libitum. Birds were kept in individual cages and kept isolated.

3. Origin and maintenance of the A. (P.) miniatus colony

Engorged females of A. miniatus were obtained from a small chicken breeds from a farm on Lago Norte, Brasília, Federal District (FD) (15º 46' S and 47º 55' W). The studied sample was denominated Argas (Persicargas) miniatus Brasília-FD sample, due to its origin.

Eggs from A. miniatus females were separated and transferred into 5 mL plastic syringes plugged with cotton and incubated in acclimatized chambers such as "Biochemical Oxygen Demand" (B.O.D.) at 27 ± 1 ºC, relative humidity (RH) of 80 ± 10% and scotophase, for observation of the beginning of the larval eclosion.

4. Infestation in Gallus gallus and experimental groups

Nymphs of the first instar that originated from larvae that ecloded on the same day were individually weighed and included in one of two groups of similar weight. These were kept in a B.O.D. at 27 ± 1 ºC and 80 ± 10% relative humidity (RH) and in room conditions that varied between 16.3 and 30.2 ºC, during the period of between March and June of 2005. In each case we studied 300 nymphs of the first instar. In each experimental condition, nymphs of the first instar that molted on the same day were further separated in three groups of 100 specimens each. Each group was submitted to 15 (T15), 30 (T30) and 60 days (T60) of fasting. The fasting period was that considered between eclosion and the next meal. The T15 group was used as control, as this fasting time is ideal for maintaining this tick species in the laboratory (SANTOS, 2009). After the fasting periods of 15, 30 and 60 days, nymphal instars were allowed to feed on the inner side of an adult bird wing, manually restrained for this purpose, and according to Kaiser (1966).

The following biological parameters were evaluated: engorgement time (time elapsed since the moment of attaching on the host skin until detachment), weight before and after blood feeding, engorgement level (difference between the weight before feeding and the weight after being fed and after coxal liquid release), average period of molting in days (time elapsed since feeding day until eclosion day) (Table 1) and percentage of molting and the sex ratio originated from each nymphal instar (Table 2).

5. Statistical analysis

The biological aspects of the nymphal stage of Argas miniatus (weight before feeding, weight after feeding, feeding time and molting period) were statistically evaluated by non-parametrical variance analysis using the Kruskal-Wallis test, with the treatments of 15, 30 and 60 days of fasting evaluated separately under environmental conditions and B.O.D.(27 ± 1.0 ºC and RH of 80 ± 10%). When significant, the average of the fasting periods were compared using the t -Student test in which an error lower than 5% was considered, according to Conover (1999).

 

Results and Discussion

The average before-feeding weight of nymphs of the first (N1), second (N2) and third (N3) instars in the T15 group, kept in the B.O.D., was higher (p < 0.05) than the average of nymphs in the T30 group, but not different than that in the T60 group (p > 0.05). These same results were observed for N1 and N3 nymphs in the environmental condition but fasting did not affect the average weight of N2 nymphs (Table 1). We observed that prolonged fasting affects the weight of nymphal instars of A.(P.) miniatus, especially in the first 30 days, most likely because during this period ticks present a higher level of excretion, contributing to the decrease in weight. It is noteworthy that until now there are no studies that discuss how fasting affects the weight of A.(P.) miniatus.

The average molting time of nymphs kept in the B.O.D.in the T30 group was higher than that in the T15 group (p < 0.05). Nevertheless, the average molting time did not differ (p > 0.05) among nymphs in groups T30 and T60. The isolated effect of fasting on the molting period of the nymphs under room conditions could not be evaluated, as this biological aspect highly depends on abiotic factors such as temperature and humidity (ROHR, 1909; SCHUMAKER; OBA, 1988). We observed that the molting period of the nymphs of A. (P.) miniatus was more affected by environmental conditions they were exposed to (room conditions and B.O.D.) than by the fasting period (Table 1).

Nymphs N1 of groups T15 and T30, kept in the B.O.D. and room conditions developed into N2 and N3 nymphs. We observed a mortality ratio of 28 and 37% in nymphs of the group T60 when kept in the B.O.D. and in room conditions, respectively. The remaining survivors were not able to attach on the host (Table 2). Thus, 44 (approximately half of the number of nymphs) N2 from the T30 group kept under room conditions and 48 nymphs kept in the B.O.D. were submitted to 60 days of fasting (Table 3). The N2 nymphs submitted to this fasting period developed into N3 and males, in both experimental conditions applied in this study. Part of the N3 developed into nymphs of the fourth instar (N4) and into adults in which 42.42 and 40.54% were males under room conditions and acclimatized oven, respectively, and 36.36 and 48.65% were females, under the same conditions as males. All N4 developed into females in both experimental conditions (Table 3). Noteworthy is the fact that the appearance of N4 in the life cycle of A. miniatus is a rare event observed only when ticks are submitted to 60 days of fasting.

Under the experimental conditions of this study, the fasting period affected the number of nymph instars of A.(P.) miniatus. We observed that a higher number of N3 in the T60 group, under room conditions, developed into N4 (Table 3). This fact most likely is related with the environment stress this species undergoes in this condition. According to Balashov (1968), the number of nymphal instars in species of Argasidae is genetically controlled, and species and sub-species of the Argas have a characteristic number of nymphal instars. Genetic plasticity, however, may allow variations of this number depending on environmental conditions. According to the author, temperature and blood meal affect the number of nymphal instars of A. (P.) persicus Oken (1818), Ornithodoros papillipes Birula (1895) and O. tartakovsky Olenev (1931). The O. papillipes usually has between three and four nymphal instars, but when one of them does not completely engorge, an additional instar originates. The same occurs with A.(P.) arboreus (HAFEZ et al., 1971). Isaac (1977) verified that the amount of blood ingested by this species during the nymphal period may reach a minimum threshold before ticks change to the adult stage. If the threshold is not reached the number of nymphal instars increases.

Still according to Isaac (1977), the quality or type of blood seems to have less effect on the number of nymphal instars than the amount of blood.. Nevertheless, when A. (P.) persicus, which feed preferentially on birds, feed on mammals, it led to an additional nymphal instar (BALASHOV, 1968). This author verified that temperature is an important factor affecting the biological aspects of ticks. Indeed, in low temperatures (20 ºC) the number of nymphal instars of A. (P.) persicus changes, with the occurrence of a fourth instar, while in higher temperatures (30 ºC) the third nymphal instar practically does not occur and some males and females may directly eclode from N1. In O. papillipes, on the other hand, high temperatures (30 ºC) determine the opposite effect, increasing the number of nymphal instars (BALASHOV, 1963).

Apparently, each species of Argasidae has a set of optimal conditions for its development, in which environmental temperature, amount of food and relative air humidity stand out. In this study we observed a greater amount of nymphs (N4) under room conditions. This finding suggests that besides fasting, variations in humidity and environmental temperature may also play a role on the number of nymph instars of A. (P.) miniatus (Table 3).

 

Conclusions

The N1 nymphs of A. miniatus that survived the 60-day fasting were not able to attach to the host. The N2 nymphs submitted to the 60-day fasting originated from N3 and males; while the N3 developed into N4, from which only females originate. The addition of the N4 in the life cycle of A. miniatus takes place only when N3 are kept for 60-day fasting, in both experimental conditions here studied. Thus, the fasting period may affect not only survival of nymphs but also the number of nymphal instars and even the sex ratio.

 

References

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HAFEZ, M.; ABDEL-MALEK, A. A.; GUIRGIS, S. S. The subgenus Persicargas (Ixodoidea, Argasidae, Argas). 12. Biological studies on the imature stages of A. (P.) arboreus Kaiser, Hoogstraal & Kohls in Egypt. Journal of Medical Entomology, v. 8, n. 4, p. 421-429, 1971.         [ Links ]

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KAISER, M. N. The subgenus Persicargas (Ixodoidea, Argasidae, Argas). 3. The life cycle of A. (P.) arboreus,and a standardized rearing method for Argasid ticks. Annals of the Entomological Society of America, v. 59, n. 3, p. 496-502, 1966.         [ Links ]

LISBOA, R. S. Estudo da transmissão experimental de Borrelia anserina (Sakharoff, 1891) por Argas (Persicargas) miniatus Kock, 1844 e avaliação comparative de parâmetros clínicos e hematológicos em Gallus gallus Linnaeus, 1758. 2006. 63 f. Dissertação (Mestrado)-Universidade Federal Rural do Rio de Janeiro, Seropédica.         [ Links ]

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SCHUMAKER, T. T. S.; OBA, M. S. P. Aspectos Morfo-biológicos de Argas (Persicargas) miniatus. Koch, 1844 (Ixodoidea, Argasidae). Revista Brasileira de Entomologia, v. 32, n. 2, p. 161-173, 1988.         [ Links ]

 

 

Corresponding author:
Huarrisson Azevedo Santos
Curso de Pós-Graduação em Ciências Veterinárias, Universidade Federal Rural do Rio de Janeiro - UFRRJ
BR 465, Km 7
CEP 23890-000, Seropédica - RJ, Brazil
e-mail: huarrisson@yahoo.com.br

Received Mach 8, 2010
Accepted July 7, 2010

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