A Novel Rate Model of Temperature-Dependent Development for Arthropods

Briere, Jean-Francois; Pracros, Pascale; Roux, A.; Pierre, Jean‐Sébastien

doi:10.1093/ee/28.1.22

Cited by 676 publications

(555 citation statements)

References 19 publications

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“…Available functional forms that have been used to describe the relationship between malaria development rate (r) and temperature (T) are either not valid near the temperature limits of development [Detinova's formula (12)] or, we feel, do not accurately mimic the pattern generally observed in cold-blooded species (63). Therefore we fitted the temperature-development function proposed by Briè re et al (20) to a set of empirical data (64 -69) and the appropriate linear range derived from the Detinova function (12) (Fig. S1) to give:…”

Section: Methodsmentioning

confidence: 99%

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Understanding the link between malaria risk and climate

Paaijmans

Read

Thomas

2009

Proc. Natl. Acad. Sci. U.S.A.

387

373

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The incubation period for malaria parasites within the mosquito is exquisitely temperature-sensitive, so that temperature is a major determinant of malaria risk. Epidemiological models are increasingly used to guide allocation of disease control resources and to assess the likely impact of climate change on global malaria burdens. Temperature-based malaria transmission is generally incorporated into these models using mean monthly temperatures,

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Section: Methodsmentioning

confidence: 99%

“…Our approach utilizes a common thermodynamic model (20), which characterizes the nonlinear influence of temperature on biological processes such as growth or development (see Methods and Fig. S1).…”

mentioning

confidence: 99%

Understanding the link between malaria risk and climate

Paaijmans

Read

Thomas

2009

Proc. Natl. Acad. Sci. U.S.A.

387

373

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“…the thermal constant k) is given by 1/b. Development rate was also modeled as a function of temperature using the Briére model (Briére et al 1999), given by the following equation:…”

Section: Mathema Cal Modelsmentioning

confidence: 99%

Temperature Effects on the Immature Development Time of Culex eduardoi Casal & García (Diptera: Culicidae)

Loetti¹,

Schweigmann²,

Burroni³

2011

Neotrop. entomol.

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The effect of constant temperatures on the development time from irst instar to adult emergence was studied in Culex eduardoi Casal & García reared at 7, 10, 15, 20, 25, 30 or 33°C. Data were adjusted to the linear degree-day model and the nonlinear Briére model. According to the linear model, the development time was inversely related to the rearing temperatures between 7°C and 25°C. Maximum mortality (100%) was recorded at temperatures ≥ 30°C. According to the linear model, the development threshold temperature and thermal constant were 5.7°C and 188.8 degree days, respectively. The lower and upper threshold temperatures and the optimum temperature for the nonlinear model were -2.3, 30.0 and 28.1°C, respectively.

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“…The extensive data on egg-larval and pupal development in Brière and Pracros (1998) were used to estimate the developmental rate at temperature T. We aggregated the egg-larval data to reduce the variability introduced by the fact that a daily observation interval at higher temperatures is long relative to the developmental times of the egg stage. Parsimonious Eqn (1) (cf Brière et al, 1999) was fitted to the developmental rate data R s (T) = 1/d(T) at temperature T for the egg-larval (subscript e-l) and pupal (p) stages (s = e-l, p), where d(T) is the average developmental time in days (d) on diet at temperature T ( Fig. 2a):…”

Section: Methodsmentioning

confidence: 99%

Climate warming effects on grape and grapevine moth (Lobesia botrana) in thePalearcticregion

Gutiérrez

Ponti

Gilioli³

et al. 2017

Agri and Forest Entomology

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is the principal native pest of grape in the Palearctic region. In the present study, we assessed prospectively the relative abundance of the moth in Europe and the Mediterranean Basin using linked physiologically-based demographic models for grape and L. botrana. The model includes the effects of temperature, day-length and fruit stage on moth development rates, survival and fecundity. 2 Daily weather data for 1980-2010 were used to simulate the dynamics of grapevine and L. botrana in 4506 lattice cells across the region. Average grape yield and pupae per vine were used as metrics of favourability. The results were mapped using the grass Geographic Information System (http://grass.osgeo.org). 3 The model predicts a wide distribution for L. botrana with highest populations in warmer regions in a wide band along latitude 40 ∘ N. 4 The effects of climate warming on grapevine and L. botrana were explored using regional climate model projections based on the A1B scenario of an average +1.8 ∘ C warming during the period 2040-2050 compared with the base period (1960)(1961)(1962)(1963)(1964)(1965)(1966)(1967)(1968)(1969)(1970). Under climate change, grape yields increase northwards and with a higher elevation but decrease in hotter areas. Similarly, L. botrana levels increase in northern areas but decrease in the hot areas where summer temperatures approach its upper thermal limit.

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A Novel Rate Model of Temperature-Dependent Development for Arthropods

Cited by 676 publications

References 19 publications

Understanding the link between malaria risk and climate

Understanding the link between malaria risk and climate

Temperature Effects on the Immature Development Time of Culex eduardoi Casal & García (Diptera: Culicidae)

Climate warming effects on grape and grapevine moth (Lobesia botrana) in thePalearcticregion

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