Sentence examples for maximum egg production from inspiring English sources

Poultry breeding is an outstanding example of the application of basic genetic principles of inbreeding and crossbreeding as well as of intensive mass selection to effect faster and cheaper gains in meat and maximum egg production for the egg-laying strains.

These experiments revealed that A. tonsa readily ingested P. minimum cells, up to the equivalent of 200% of body carbon day−1, but egg production was relatively low, with a maximum egg production rate of 22% of body carbon day−1.

Prey egg density in the balanced design was chosen to allow maximum egg production of each predator female within the 24 h experimental period (Vanas et al. 2006).

Females should be less willing to re-mate when a single mating is sufficient for maximum egg production than when multiple matings are needed.

Phytoseiulus persimilis females need a single mating for maximum egg production but re-mate occasionally (Enigl & Schausberger, 2004), whereas N. californicus and A. andersoni females need multiple matings (Amano & Chant, 1978b; Gotoh & Tsuchiya, 2008).

A single mating per lifetime is sufficient for maximum egg production of P. persimilis, whereas multiple matings are necessary for N. californicus females (Amano & Chant, 1978b; Gotoh & Tsuchiya, 2008).

We also observed that there was a more marked decline in DAG levels in 28-day-old Spiroplasma-infected relative to uninfected flies, where Spiroplasma titers have nearly reached their maximum levels and egg production declines (David et al., 1975; Partridge et al., 1987).

Here, N ( t ) is the size of the population at time t, p is the maximum per capita daily egg production, 1 a is the size at which the population reproduces at its maximum rate, δ is the per capita daily adult death rate, and τ is the generation time.

In [1], (x t)) is the size of the population at time t; p is the maximum per capital daily egg production, (frac{1}{gamma }) is the size at which the population reproduces at its maximum rate, δ is the per capita daily adult death rate, and τ is the generation time.

Here (x t)) is the size of the population at time t, a is the maximum per capita daily egg production rate, (1/b) is the size at which the population reproduces at the maximum rate, c is the per capita daily adult death rate, and τ is the generation time, the positive equilibrium (x_{ast}=(1/b ln(a/c)).

Parameter p is the maximum per capita daily egg production rate, (frac{1}{a}) is the size at which the blowfly population reproduces at its maximum rate, δ is the per capita daily adult death rate, and r is the generation time.