Mangal T D, Paterson S, Fenton A
Department of Biological Sciences, University of Liverpool, Biosciences Building, Crown Street, Liverpool L69 7ZB, UK.
J Parasitol Res. 2010;2010. doi: 10.1155/2010/186792. Epub 2010 Jun 8.
The effects of snail density on Biomphalaria alexandrina parasitized with Schistosoma mansoni were investigated. Laboratory experiments were used to quantify the impact of high density on snail growth, fecundity, and survival. Density-dependent birth rates of snails were determined to inform mathematical models, which, until now, have assumed a linear relationship between density and fecundity. The experiments show that the rate of egg-laying followed a negative exponential distribution with increasing density and this was significantly affected by exposure to parasitic infection. High density also affected the weight of snails and survival to a greater degree than exposure to parasitic infection. Although snail growth rates were initially constrained by high density, they retained the potential for growth suggesting a reversible density-dependent mechanism. These experimental data can be used to parameterise models and confirm that snail populations are regulated by nonlinear density-dependent mechanisms.
研究了蜗牛密度对感染曼氏血吸虫的亚历山大双脐螺的影响。通过实验室实验来量化高密度对蜗牛生长、繁殖力和存活率的影响。确定了蜗牛的密度依赖性出生率,为数学模型提供信息,而到目前为止,这些模型一直假定密度与繁殖力之间存在线性关系。实验表明,随着密度增加,产卵率呈负指数分布,并且受到寄生虫感染的显著影响。高密度对蜗牛体重和存活率的影响程度大于寄生虫感染。虽然蜗牛生长率最初受到高密度的限制,但它们仍保留生长潜力,表明存在可逆的密度依赖性机制。这些实验数据可用于为模型设定参数,并证实蜗牛种群受非线性密度依赖性机制调控。