Quantifying parasitoid and predator controls on rice hopper eggs using a dynamic stage‐structured model and field data

Abstract: 1. Rice hoppers can cause devastation to rice crops in SE Asia via disease spread and direct feeding. Current regulation is through pesticides; however, a more sustainable approach is to use the natural enemies of the hoppers. Here, we show how the combination of a process-based model and field data can give insights into natural pest control, beyond those obtained through direct analysis of the field data.2. We use a stage-structured host-parasitoid model based on time-delay ordinary differential equations (u… Show more

“…The presence of natural enemy's such as SPD, GMB, and LBB is crucial in regulating PH populations within their ecosystem [ [40] , [41] , [42] ]. The decline in populations of the WBPH during crop maturation is influenced by the regulation exerted by natural enemies, as noted by Kettle et al [ 43 ], and the changes in rice susceptibility as the plants mature, as observed by Horgan et al [ 44 ].…”

Effective multidimensional treatment identification of different chemical fertilizers: Response of insect dynamics and rice production

“…The presence of natural enemy's such as SPD, GMB, and LBB is crucial in regulating PH populations within their ecosystem [ [40] , [41] , [42] ]. The decline in populations of the WBPH during crop maturation is influenced by the regulation exerted by natural enemies, as noted by Kettle et al [ 43 ], and the changes in rice susceptibility as the plants mature, as observed by Horgan et al [ 44 ].…”

Effective multidimensional treatment identification of different chemical fertilizers: Response of insect dynamics and rice production

“…Our results suggest that competition between nymphs at optimal temperatures contributes to WBPH population stability in rice and to the declines observed as the crop matures. Population regulation by natural enemies [ 37 , 47 , 48 ] and ontogenic changes in rice susceptibility [ 46 ] also contribute to the decline of WBPH populations during crop maturation. Our results indicate that current ambient temperatures in tropical Asia, that frequently surpass 30°C during extended periods [ 18 , 41 ], will reduce the potential for WBPH to attain outbreak densities.…”

Intraspecific competition counters the effects of elevated and optimal temperatures on phloem-feeding insects in tropical and temperate rice

A predator-parasitoid mathematical model to describe the biological control of the tomato leafminer Tuta absoluta