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Table 1.

Bioassay on different stages of T. cinnabarinus treated with SYP-9625.

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Table 1 Expand

Table 2.

Effect of SYP-9625 on the survival rate of eggs and adult females of N. californicus.

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Table 2 Expand

Table 3.

Effects of sublethal exposure to SYP-9625 on the fecundity and longevity of treated females of Tetranychus cinnabarinus.

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Table 3 Expand

Fig 1.

Female age-specific fecundity (fx5) and the age-specific survival rate (lx) of female adults T. cinnabarinus treated with sublethal concentrations of SYP-9625.

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Fig 1 Expand

Fig 2.

Age-specific survival rate (lx), female age-specific fecundity (fx5), age-specific fecundity of the total population (mx), and age-specific maternity (lxmx) of T. cinnabarinus eggs treated with sublethal concentrations of SYP-9625.

(A) Control, (B) LC10, (C) LC30.

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Fig 2 Expand

Table 4.

Population life table parameters for offspring from females of Tetranychus cinnabarinus treated with sublethal concentrations of SYP-9625.

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Table 4 Expand

Table 5.

Development time, longevity, and total life span of Neoseiulus californicus eggs treated with the application concentration of SYP-9625.

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Table 5 Expand

Table 6.

The reproduction and fecundity of Neoseiulus californicus eggs treated with the application concentration of SYP-9625.

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Table 6 Expand

Fig 3.

Age-specific survival rate (lx), female age-specific fecundity (fx5), age-specific fecundity of the total population (mx), and age-specific maternity (lxmx) of N. californicus (McGregor) eggs treated with sublethal concentrations of SYP-9625.

(A) Control, (B) SYP-9625.

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Fig 3 Expand

Table 7.

Population life table parameters of Neoseiulus californicus eggs treated with the application concentration of SYP-9625.

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Table 7 Expand

Fig 4.

Age-specific survival rate (lx) and female age-specific fecundity (fx5) of N. californicus (McGregor) adult females treated with sublethal concentrations of SYP-9625.

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Fig 4 Expand

Fig 5.

Age-specific survival rate (lx), female age-specific fecundity (fx5), age-specific fecundity of the total population (mx), and age-specific maternity (lxmx) of offspring from adult female N.californicus (McGregor) treated with sublethal concentrations of SYP-9625.

(A) Control, (B) SYP-9625.

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Fig 5 Expand

Table 8.

Population life table parameters of offspring from Neoseiulus californicus females treated with the application concentration of SYP-9625.

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Table 8 Expand

Fig 6.

Age-stage specific survival rate (sxj) of offspring from adult female N. californicus (McGregor) fed on T. cinnabarinus treated with sublethal concentrations of SYP-9625.

(A) Control, (B) LC10, (C) LC30.

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Fig 6 Expand

Table 9.

Population life table parameters of offspring from Neoseiulus californicus fed on Tetranychus cinnabarinus treated with sublethal levels of SYP-9625.

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Table 9 Expand

Table 10.

Daily consumption by Neoseiulus californicus exposed to the application concentration of SYP-9625.

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Table 10 Expand

Table 11.

Functional response models and parameters of Neoseiulus californicus exposed to the application concentration of SYP-9625.

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Table 11 Expand

Table 12.

Daily consumption of Neoseiulus californicus fed on Tetranychus cinnabarinus treated with sublethal acaricide.

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Table 12 Expand

Table 13.

Functional response model and parameters of Neoseiulus californicus fed on Tetranychus cinnabarinus treated with sublethal acaricide.

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Table 13 Expand