Abstract
An outbreak of vivax malaria has been occurring in northern part of Kyonggi-do and north-western part of Kangwon-do, where are located near the demilitarized zone, since 1993. For understanding of epidemiological features of malaria, the probability of daily survival of Anopheles sinensis, the vector species of malaria was compared in malarious and non-malarious areas in July-August, 2000. Total 915 females collected at three locations in malarious areas were dissected for ovaries, and 64.6% of the parous rate was found. Total 758 females collected at three locations in non-malarious areas were dissected, and 57.8% of the parous rate was observed. It was estimated from the parous rates that the probability of daily survival of An. sinensis females was 0.864 in malarious areas and 0.850 in non-malarious areas, which was not significantly different.
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Key words: Anopheles sinensis, ovary, parity, longevity
INTRODUCTION
Malaria which was eradicated in Korea in 1979 re-emerged in 1993 and an outbreak occurred in northern part of Kyonggi-do, near the demilitarized zone, totaling 3,621 cases in 1999 (
Ree, 2000;
Lee et al., 2000). Therefore, epidemiological studies are urgently required for malaria control/eradication. Entomological approaches are important parameters in malaria epidemiology for understanding the dynamics of transmission of the infection. The longevity (the probability of daily survival) of the vector population is not only the key factor in the mathematical analysis of malaria transmission, such as the vectorial capacity, the net reproduction rate or the index of stability, but also important for assessment of the efficacy of the vector control measures (
WHO, 1975;
Gilles and Warrell, 1993).
The physiological age of vector mosquitoes can be determined from the structure of the ovaries. A technique for distinguishing between parous females (already having laid at least one batch of eggs) and nulliparous females (as yet have not oviposited) is the examination of the tracheoles of the ovaries of unfed females. Each ovary has two main tracheal trunks which are sub-divided into several branches and cover the ovary. In newly emerged females the fine tracheoles are closely wound at the terminal ends forming tight skeins (coiles). After the first blood meal and growth of the follicles, the coils of the terminal tracheoles stretch out and unwind. This process is irreversible and distinguishes the ovary of a parous female from that of a nulliparous one. This therefore permits an assessment of the nulliparous-to-parous ratio (
Detinova, 1962). From knowledge of the proportion of parous females and the duration of the gonotrophic cycle, the probability of daily survival of mosquitoes can be calculated and their average longevity estimated (
WHO, 1975).
This study objective is to compare the probability of daily survival of Anopheles sinensis, the vector mosquitoes of vivax malaria in malarious areas where an outbreake of malaria cases is occurring and non-malarious areas where malaria transmission has not been recently observed. The study was conducted in July-August of the malaria transmission season in 2000.
MATERIALS AND METHODS
Study areas
In malarious areas of Kyonggi-do, three locations were selected: Tongilchon, Paju-si; Jangpa-ri, Jindong-myon, Paju-shi; Donjung-ri, Wangjin-myon, Yonchon-gun. In non-malarious areas, the following three locations were selected: Juksan-ri, Gunsan-shi, Chollabuk-do; Sinchang-ri, Asan-shi, Chungchongnam-do; Taerak-ri, Jinchon-gun, Chungchongbuk-do.
Age determination
Anopheline mosquitoes resting on walls of a cowshed before and/or after feeding were collected using an aspirator and a torch. The mosquitoes were put into a cage (30×30×30 cm) giving sugar solution and kept in the laboratory until early next morning. The mosquitoes were anesthetized with chloroform and identified under a stereo-microscope. An. sinensis females were dissected for ovaries. The ovaries were dissolved in distilled water and dried on a slide, and the tracheoles covering the ovaries were observed for parity or nulliparity under a microscope (100×).
The probability of daily survival was calculated by the formula: the cube root of the proportion of parous females in the population sample, because the gonotrophic cycle takes place in 3 days in July-August in Korea (
Ree et al., 2000).
RESULTS
Ovaries of the unfed, nulliparous females clearly showed tight skeins (coiles) of tracheoles (
Fig. 1A), whereas those of the unfed, parous females showed completely stretched tracheoles (
Fig. 1C). In case of the blood-fed, nulliparous females which were elapsed 10 hours after feeding, the coiles of tracheoles were considerably stretched from distal part. Nevertheless, the skeins were still clearly observed, though the size became smaller (
Fig. 1B). Ovaries from the females elapsed more than 12 hours after feeding made it impossible to distinguish nulliparous/parous state. It is of importance to note that ovaries of even blood-fed mosquitoes were able to use for distinguishing the difference between nulliparity and parity, if the fed-females were not longer than 10 hours after feeding.
The result of ovary dissection is shown in
Table 1. In malarious areas, total 915 females of
An. sinensis from three different locations were dissected for ovaries and the parous rate was 64.6% in average (51.9-72.8%). In non-malarious areas, 758 females of
An. sinensis from three different locations were dissected for ovaries, with 61.5% of the parous rate in average (52.6-64.9%). Total average of the parous rate in six locations was 61.5%. The probability of survival through one day was 0.864 and 0.850 in malaria endemic areas and non-malarious areas, respectively, which was not statistically different between two areas (p=0.79).
DISCUSSION
The parous rate of
An. sinensis was 52.0% at Okku, Chollabuk-do in 1965, 76.7% at Yangpyong, Kyonggi-do in 1964, and 81.3% at Asan, Chungchongnam-do in 1965 (
Paik et al., 1965). The parous rate (61.5%) obtained in this study was higher than that of Okku (plain area), but significantly lower than those of Yangpyong and Asan (hilly areas). In case of other
Anopheles species, the probability of daily survival was 0.89 for
An. pharoensis and 0.80 for
An. multicolor in Egypt (
Kenawy, 1991), 0.80-0.83 for
An. pulcherrimus in Iran (
Zaim et al., 1993), 0.88 for
An. pseudopunctipennis in Southern Mexico (
Fernandez-Salas et al., 1994), 0.80-0.88 for
An. gambiae s.l. in Sudan (
Constantini et al., 1996), and 0.45-0.68 for
An. vestitipennis in southern Mexico (
Arredondo-Jimenez et al., 1998).
The importance of the probability of daily survival of vectors for efficient transmission of infection is obvious. If the survival rate is less than 0.65 per day, then less than 1% of the females are likely to survive 10-12 days needed for completion of the sporogonic cycle of
Plasmodium vivax (
Gilles and Warrell, 1993). Mean temperature at Dongducheon, Kyonggi-do in July and August, 1999 was 24.9℃ (
Korea Meteorological Administration, 1999), and duration of sporogonic cycle of
P. vivax is 10 days at 25℃ (
Detinova, 1962). Therefore, the probability of survival through 10 days was 0.232 in malarious areas and 0.161 in non-malarious areas, which means that 2.3% and 1.6% of the female mosquitoes respectively may live long enough to transmit malaria.
ACKNOWLEDGEMENTS
This study was supported by a Faculty Research Grant from Yonsei University College of Medicine (1999). We wish to thank Dr. H. Park, Department of Parasitology, Wonkwang University College of Medicine for his assistance in collecting mosquitoes.
References
- 1. Arredondo-Jimenez JI, Rodriguez MH, Washino RK. Gonotrophic cycle and survivorship of Anopheles vestitipennis (Diptera: Culicidae) in two different ecological areas of southern Mexico. J Med Entomol 1998;35:937-942.
- 2. Constantini C, Li SG, Della-Torre A, Sagnon N, Coluzzi M, Talor CE. Density, survival and dispersal of Anopheles gambiae complex mosquitoes in a west African Savana village. Med Vet Entomol 1996;10:203-219.
- 3. Detinova TS. Age-grouping methods in Diptera of medical importance. 1962, World Health Organization. p 216.
- 4. Fernandes-Salas I, Rodrigues MH, Roberts DR. Gonotrophic cycl and survivorship of Anopheles pseudopunctipennis (Diptera: Culicidae) in the Tapachura foothills of Southern Mexico. J Med Entomol 1994;31:340-347.
- 5. Gilles HM, Warrell DA. Bruce-Chwatt's essential malariology. 1993, 3rd ed. London. Edward Arnold, Hodder and Stoughton.
- 6. Kenawy MA. Development and survival of Anopheles pharoensis and An. multicolor from Faiyum, Egypt. J Am Mosq Control Assoc 1991;7:551-555.
- 7. Korea Meteorological Administration. Annual climatological report, 1999. 1999, Donjin Munwhasa. p 241 (in Korean).
- 8. Lee JS, Lee WJ, Cho SH, Ree HI. An outbreak of vivax malaria in areas adjacent to the Demilitalized Zone (DMZ), South Korea in 1998. Am J Trop Med Hyg 2000;56:(in press).
- 9. Paik YH, Song JH, Ree HI, Hong HK. Epidemiological studies on the malaria situation in Korea. Part 1. On the bionomics of Anopheles sinensis and its relation to malaria in Korea. New Med 1965;8:1043-1049. (in Korean).
- 10. Ree HI. Unstable vivax malaria in Korea. Korean J Parasitol 2000;38:119-138.
- 11. Ree HI, Hwang UW, Lee IY, Kim TE. Daily survival and human blood index of Anopheles sinensis, the vector species of malaria in Korea. J Am Mosq Control Assoc 2000;16:(in press).
- 12. WHO. Manual on practical entomology in malaria, Part 1. 1975, World Health Organization. p 160.
- 13. Zaim M, Zahirria AH, Manouchehri AV. Survival rate of Anopheles culicifacies s.l. and Anopheles pulcherrimus in sprayed and unsprayed in Ghassreghand District, Buluchistan, Iran, 1991. J Am Mosq Control Assoc 1993;9:421-425.
Fig. 1Dried ovaries of Anopheles sinensis. A, nulliparous of an unfed female, showing tight skeins of tracheoles; B, nulliparous of a blood-fed female which was elapsed 10 hr after feeding (skein partially stretched); C, parous, showing completely stretched skeins of tracheoles.
Table 1.Parous rate and probability of daily survival of Anopheles sinensis in malarious and non-malarious areas in Korea in July-August 2000
Table 1.
|
Locality |
No. dissected |
No. of parous |
Parous rate (%) |
Probability of daily survival |
|
Malarious area: |
|
|
|
|
|
Tongilchon, Paju, Kyonggi-do |
260 |
152 |
58.5 |
0.836 |
|
Jangpa-ri, Paju, Kyonggi-do |
474 |
345 |
72.8 |
0.900 |
|
Dongjung-ri, Yonchon, Kyonggi-do |
181 |
94 |
51.9 |
0.804 |
|
Subtotal |
915 |
591 |
64.6 |
0.864 |
|
Non-malarious area: |
|
|
|
|
|
Juksan-ri, Gunsan, Chollabuk-do |
352 |
185 |
52.6 |
0.807 |
|
Sinchang-ri, Asan, Chungchongnam-do |
195 |
116 |
59.5 |
0.841 |
|
Taerak-ri, Jinchon, Chungchongbuk-do |
211 |
137 |
64.9 |
0.866 |
|
Subtotal |
758 |
438 |
57.8 |
0.833 |
|
|
Total |
1,673 |
1,029 |
61.5 |
0.850 |
Citations
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