Caputo Beniamino, Nwakanma Davis, Jawara Musa, Adiamoh Majidah, Dia Ibrahima, Konate Lassana, Petrarca Vincenzo, Conway David J, della Torre Alessandra
Istituto Pasteur-Fondazione Cenci-Bolognetti, Dipartimento di Scienze di Sanità Pubblica, Università La Sapienza, Piazzale Aldo Moro 5, 00185, Rome, Italy.
Malar J. 2008 Sep 22;7:182. doi: 10.1186/1475-2875-7-182.
The geographic and temporal distribution of M and S molecular forms of the major Afrotropical malaria vector species Anopheles gambiae s.s. at the western extreme of their range of distribution has never been investigated in detail.
Collections of indoor-resting An. gambiae s.l. females were carried out along a ca. 400 km west to east transect following the River Gambia from the western coastal region of The Gambia to south-eastern Senegal during 2005 end of rainy season/early dry season and the 2006 rainy season. Specimens were identified to species and molecular forms by PCR-RFLP and the origin of blood-meal of fed females was determined by ELISA test.
Over 4,000 An. gambiae s.l. adult females were collected and identified, 1,041 and 3,038 in 2005 and 2006, respectively. M-form was mainly found in sympatry with Anopheles melas and S-form in the western part of the transect, and with Anopheles arabiensis in the central part. S-form was found to prevail in rural Sudan-Guinean savannah areas of Eastern Senegal, in sympatry with An. arabiensis. Anopheles melas and An. arabiensis relative frequencies were generally lower in the rainy season samples, when An. gambiae s.s. was prevailing. No large seasonal fluctuations were observed for M and S-forms. In areas where both M and S were recorded, the frequency of hybrids between them ranged from to 0.6% to 7%.
The observed pattern of taxa distribution supports the hypothesis of a better adaptation of M-form to areas characterized by water-retaining alluvial deposits along the Gambia River, characterized by marshy vegetation, mangrove woods and rice cultivations. In contrast, the S-form seems to be better adapted to free-draining soil, covered with open woodland savannah or farmland, rich in temporary larval breeding sites characterizing mainly the eastern part of the transect, where the environmental impact of the Gambia River is much less profound and agricultural activities are mainly rain-dependent. Very interestingly, the observed frequency of hybridization between the molecular forms along the whole transect was much higher than has been reported so far for other areas.
The results support a bionomic divergence between the M and S-forms, and suggest that the western extreme of An. gambiae s.s. geographical distribution may represent an area of higher-than-expected hybridization between the two molecular forms.
在主要分布于非洲热带地区的冈比亚按蚊(Anopheles gambiae s.s.)分布范围的最西端,其M型和S型分子形式的地理和时间分布从未得到过详细研究。
在2005年雨季末期/旱季初期以及2006年雨季期间,沿着冈比亚河从冈比亚西部沿海地区到塞内加尔东南部,进行了一次约400公里自西向东的样带调查,收集室内栖息的冈比亚按蚊复合种(An. gambiae s.l.)雌蚊。通过PCR-RFLP对标本进行种类和分子形式鉴定,通过ELISA试验确定已吸血雌蚊血餐的来源。
共收集并鉴定了4000多只冈比亚按蚊复合种成年雌蚊,2005年和2006年分别为1041只和3038只。M型主要在样带西部与梅氏按蚊(Anopheles melas)同域分布,S型在样带西部与阿拉伯按蚊(Anopheles arabiensis)同域分布。发现S型在塞内加尔东部的苏丹-几内亚农村稀树草原地区占优势,与阿拉伯按蚊同域分布。在雨季样本中,梅氏按蚊和阿拉伯按蚊的相对频率通常较低,此时冈比亚按蚊s.s.占主导。未观察到M型和S型有大的季节性波动。在同时记录到M型和S型的地区,它们之间的杂交频率在0.6%至7%之间。
观察到的分类群分布模式支持这样一种假设,即M型更适应冈比亚河沿岸具有保水冲积沉积物的地区,这些地区以沼泽植被、红树林和水稻种植为特征。相比之下,S型似乎更适应排水良好的土壤,覆盖着开阔的林地稀树草原或农田,有丰富的临时幼虫孳生地,主要是样带东部的特征,在那里冈比亚河的环境影响要小得多,农业活动主要依赖降雨。非常有趣的是,在整个样带上观察到的分子形式之间的杂交频率远高于迄今其他地区的报道。
结果支持M型和S型在生态习性上的差异,并表明冈比亚按蚊s.s.地理分布的最西端可能是这两种分子形式杂交程度高于预期的地区。
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