Kline D L, Takken W, Wood J R, Carlson D A
USDA/ARS Insects Affecting Man and Animals Research Laboratory, Gainesville 32604.
Med Vet Entomol. 1990 Oct;4(4):383-91. doi: 10.1111/j.1365-2915.1990.tb00455.x.
Various combinations of six candidate attractants--butanone, carbon dioxide (CO2), honey, octenol, lactic acid and mixed phenols--were tested against natural populations of mosquitoes in Everglades National Park, Florida, U.S.A., using unlighted CDC-baited traps. With few exceptions, the attractancy of these candidate compounds to mosquitoes, when used alone, was less than that of CO2 alone. The exceptions were that octenol and honey extract alone attracted larger numbers of Coquillettidia perturbans (Walker). Addition of lactic acid and/or octenol to CO2 increased trap collections of Aedes taeniorhynchus (Wiedemann), Anopheles atropos D. & K., and An. crucians Wiedemann by 1.4-13.8 times. Culex nigripalpus Theobald collections were increased 2.7 times by the addition of lactic acid, while the addition of octenol produced mixed results. Whereas the addition of lactic acid reduced collections of Cx (Melanoconion) spp., the addition of octenol generally increased collections. The opposite happened for Wyeomyia mitchellii (Theobald). For the biting midge, Culicoides furens (poey), octenol (1.6-23.4 x ) and phenol (2.7 x ) alone attracted larger numbers, and lactic acid alone attracted approximately the same numbers as CO2 alone. The combinations octenol + phenol and octenol + 200 ml/min CO2 increased C. furens collections c. 100 times over CO2 alone. The combination of octenol + CO2 increased (1.6 x ) collections of the tabanid Diachlorus ferrugatus (Fabricius). Butanone appeared to decrease the trap collections of all species when combined with CO2 or octenol + CO2.
在美国佛罗里达州大沼泽地国家公园,使用未带光源的疾控中心诱饵诱捕器,对六种候选引诱剂——丁酮、二氧化碳(CO₂)、蜂蜜、辛醇、乳酸和混合酚——的各种组合针对自然种群的蚊子进行了测试。几乎在所有情况下,这些候选化合物单独使用时对蚊子的引诱力都低于单独使用CO₂。例外情况是,单独的辛醇和蜂蜜提取物吸引了更多数量的骚扰库蠓(沃克)。向CO₂中添加乳酸和/或辛醇,使埃及伊蚊(维德曼)、黑须按蚊D. & K.和十字按蚊维德曼的诱捕捕获量增加了1.4至13.8倍。添加乳酸使致倦库蚊西奥博尔德的捕获量增加了2.7倍,而添加辛醇则产生了不同的结果。添加乳酸减少了Cx(Melanoconion)属蚊子的捕获量,而添加辛醇通常会增加捕获量。米氏维蠓(西奥博尔德)的情况则相反。对于咬蠓,糠蠓(波伊),单独的辛醇(1.6至23.4倍)和苯酚(2.7倍)吸引了更多数量,单独的乳酸吸引的数量与单独使用CO₂时大致相同。辛醇 + 苯酚和辛醇 + 200毫升/分钟CO₂的组合使糠蠓的捕获量比单独使用CO₂增加了约100倍。辛醇 + CO₂的组合使厩螫蝇铁锈色厩螫蝇( Fabricius)的捕获量增加了(1.6倍)。当丁酮与CO₂或辛醇 + CO₂组合时,似乎会减少所有物种的诱捕捕获量。
