Modelling the Temperature Sensitivity of Some Physiological Parameters of Epidemiologic Significance

Ecosystem Health Pub Date : 2008-06-28 DOI:10.1046/j.1526-0992.1998.00079.x

Eduardo Massad, Oswaldo Paulo Forattini

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引用次数: 24

Abstract

ABSTRACT

Anthropogenic emissions of greenhouse gases are enhancing the natural greenhouse effect. It is almost universally accepted that this will lead to a warming of the earth’s surface. It is also accepted that this warming will lead to a spread of the insects that transmit several infections, currently restricted to the tropics, such as malaria, leishmaniasis, yellow fever, and dengue fever, among others. We calculated the expected increase in the density of female adult forms of anopheline mosquitoes by assuming temperature-dependent functions on the rates of the mosquitoes life cycles. Other mosquito characteristics, such as the feeding interval, were also calculated as functions of environmental temperature. The resultant increase in the density of adult females as a function of the increase in temperature was related to an increase in malaria risk by the calculations of the basic reproductive ratio and the vectorial capacity, which permitted the application of the mathematical model for malarial transmission.

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一些具有流行病学意义的生理参数的温度敏感性建模

人为排放的温室气体正在增强自然的温室效应。人们几乎普遍认为这将导致地球表面变暖。人们还认为，这种变暖将导致传播几种传染病的昆虫的传播，这些传染病目前仅限于热带地区，如疟疾、利什曼病、黄热病和登革热等。我们通过假设温度依赖于蚊子生命周期速率的函数，计算出雌性成年疟蚊密度的预期增长。蚊子的其他特征，如取食间隔，也被计算为环境温度的函数。根据基本生殖比率和媒介能力的计算，成年雌蚊的密度随着温度升高而增加，这与疟疾风险增加有关，这使疟疾传播的数学模型得以应用。

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