Erban Tomas, Rybanska Dagmar, Hubert Jan
Crop Research Institute, Biologically Active Substances in Crop Protection, Drnovska 507/73, Prague 6-Ruzyne, CZ-16106, Czechia.
Crop Research Institute, Biologically Active Substances in Crop Protection, Drnovska 507/73, Prague 6-Ruzyne, CZ-16106, Czechia. Czech University of Life Sciences, Faculty of Agrobiology, Food and Natural Resources, Department of Plant Protection, Prague 6-Suchdol, CZ-16521, Czechia.
Environ Entomol. 2015 Dec;44(6):1599-604. doi: 10.1093/ee/nvv129. Epub 2015 Aug 7.
Tyrophagus putrescentiae (Schrank, 1781) is a cosmopolitan generalist feeder that prefers foodstuffs of high-fat and high-protein content. Our aim was to investigate the population growth of T. putrescentiae after long-term nutritional adaptation to two distinct diets that are commonly infested in the synanthropic environment. Crushed dry dog food kernels provided a high-fat, high-protein, and low-carbohydrate diet, whereas wholemeal spelt flour provided a low-protein, low-fat, and high-carbohydrate diet. After >6 mo of nutritional adaptation, each of the two populations were used in two 28-d population growth tests: one that mites remained on their adaptation diet (homogenous diet treatment) and one that mites underwent a dietary switch (dietary switch treatment). Dietary treatment, nutritional adaptation, and their interaction all significantly influenced population growth. The homogenous diet treatment showed 7.5 times higher growth on the dog food diet than on flour. In the dietary switch, flour-adapted mites switching to dog food experienced five times greater population growth than the flour-adapted mites remained on flour, whereas the dog food-adapted population showed a 2.8-fold decrease in population growth when transferred to the flour. A comparison of means between the two dietary switch treatments showed a 1.9-fold higher population growth after flour-adapted mites were shifted to dog food than when the dog food-adapted mites were shifted to flour. We demonstrated that T. putrescentiae is able survive and reproduce for many generations on dry dog food and flour with different levels of success. High-fat and -protein food accelerated T. putrescentiae population growth compared with the high-carbohydrate diet.
腐食酪螨(Tyrophagus putrescentiae,施兰克,1781年)是一种世界性的多食性食腐动物,偏好高脂肪和高蛋白含量的食物。我们的目的是研究腐食酪螨在长期适应两种不同饮食后的种群增长情况,这两种饮食在人类居住环境中很常见。碾碎的干狗粮颗粒提供了高脂肪、高蛋白和低碳水化合物的饮食,而全麦斯佩尔特面粉提供了低蛋白、低脂肪和高碳水化合物的饮食。经过6个月以上的营养适应后,将两个种群分别用于两个为期28天的种群增长试验:一个试验中螨虫继续食用其适应的饮食(同质饮食处理),另一个试验中螨虫经历饮食转换(饮食转换处理)。饮食处理、营养适应及其相互作用均对种群增长有显著影响。同质饮食处理显示,狗粮饮食上的螨虫生长速度比面粉上的高7.5倍。在饮食转换试验中,从面粉适应型转换到狗粮适应型的螨虫种群增长比留在面粉上的面粉适应型螨虫快5倍,而狗粮适应型种群转移到面粉上时,种群增长下降了2.8倍。两种饮食转换处理之间的均值比较显示,面粉适应型螨虫转移到狗粮上后的种群增长比狗粮适应型螨虫转移到面粉上后的种群增长高1.9倍。我们证明,腐食酪螨能够在干狗粮和面粉上存活并繁殖多代,但成功率不同。与高碳水化合物饮食相比,高脂肪和高蛋白食物加速了腐食酪螨的种群增长。
