Abstract

The potential use of steinernematid and heterorhabditid nematodes against the beetleMaladera matrida Argaman (Coleoptera: Scarabaeidae) was determined under laboratory and greenhouse conditions. Infective juveniles (IJโ€™s) of the nematodeHeterorhabditis sp., Hp88 strain, mixed with soil at a concentration as low as 50 IJโ€™s/cm3 soil, resulted in 86% control. No increase in control was obtained with higher nematode concentrations. Soil surface application of the nematodes at concentrations of 160 and 640 IJโ€™s/cm2 was sufficient to obtain 87% and 86% mortality, respectively, even at a depth of 40 cm below the soil surface. TheHeterorhabditis sp. Hp88 strain was found to be the most pathogenic to the beetle grubs at 25ยฐC. Lower control levels of 30-47% were achieved byHeterorhabditis sp. HL81 strain,S. feltiae โ€˜Allโ€™ strain and 5.bibionis CR strain. The nematodeHeterorhabditis sp. BS strain did not have any effect on insect mortality. However, at a temperature of 16ยฐC, the HL81 strain ofHeterorhabditis sp. was the most effective. Grubs 3-5 wk old were found to be the most susceptible developmental stage of infection ofHeterorhabditis sp. Hp88 strain. Pupae, which were exposed to the nematodes in the same experimental regime, were not affected. The results obtained in the present study suggest thatM. matrida is an attractive candidate for biological control by entomoparasitic nematodes.

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