And Cephalonomia Tarsalis (Ashmead) (Hymenoptera: Bethylidae) in Biological Control of Stored Grain Pests

And Cephalonomia Tarsalis (Ashmead) (Hymenoptera: Bethylidae) in Biological Control of Stored Grain Pests

Plant Protect. Sci. Vol. 39, No. 1: 29–34 Compatibility of Cheyletus eruditus (Schrank) (Acari: Cheyletidae) and Cephalonomia tarsalis (Ashmead) (Hymenoptera: Bethylidae) in Biological Control of Stored Grain Pests E�� ŽĎÁRKOVÁ, J�� LUKÁŠ and P���� HORÁK Department of Stored-Product Pest Control, Research Institute of Crop Production, Prague-Ruzyně, Czech Republic Abstract Ž������� E., L���� J., H���� P. (2003): Compatibility of Cheyletus eruditus (Schrank) (Acari: Cheyletidae) and Ce- phalonomia tarsalis (Ashmead) (Hymenoptera: Bethylidae) in biological control of stored grain pests. Plant Protect. Sci., 38: 29–34. A laboratory experiment was carried out on stored wheat infested by the stored product mite Acarus siro and beetle Oryzaephilus surinamensis. The initial infestation was 150 mites of A. siro and 15 beetles of O. surinamensis per 1 kg of wheat. The predatory mite Cheyletus eruditus and parasitoid Cephalonomia tarsalis were added in the ratio 1:20 and 1:12, repectively. Three combinations were tested: (1) mites and (2) beetles separately, and (3) mites and beetles together. The experiment ran for three months at 22°C and 75% RH. The pests were suppressed by their antagonists in all combinations. Synchronous application of both natural enemies resulted in better control of O. surinamensis through an enhanced effect of both antagonists. Keywords: Acarus siro; Oryzaephilus surinamensis; Cheyletus eruditus; Cephalonomia tarsalis; stored wheat; biological control Increasing demand by consumers on food quality The biological control of stored product mites and safety is reflected in changes of the protection by the predatory mite Cheyletus eruditus Schrank measures used on stored products. The use of pes- is well known and it is used in practice preven- ticides is minimised to an essential level, while that tively and repressively (Ž������� 1998; Ž������� of alternative protective methods is maximised. & F��� 1999). Cephalonomia tarsalis Ashmead is con- Biological control plays an indispensable role in sidered to be a promising biological control agent these programmes. Although there is a large spec- of O. surinamensis larvae and pupae. However, the trum of known biological control agents associated influence of the interaction in a synchronous ap- with stored pests (Ž������� 2001), only a small plication of parasitoids/predators on the success of number is used in practice. It is known that stored parasitation/predation has been largely ignored. wheat is in most cases infested by one or two pest P����� (1938) found C. tarsalis to be a parasitoid species (S������� et al. 2002). Typically, one mite of O. surinamensis. He concluded that C. tarsalis species is accompanied by a beetle species, as is is not a suitable biological control agent due to the case by the severe pests of stored wheat Acarus its low parasitic rate. Other bethylid species, like siro L. and Oryzaephilus surinamensis L. Cephalonomia gallicola (Ashmead), parasitising on Supported by the Grant COST OC 842.10 29 Vol. 39, No. 1: 29–34 Plant Protect. Sci. stored product pests are rather known as unusual wheat and 0.5 kg of oat flakes, were used to simu- causes of human allergy (Y������� 1982) than as late a stored grain environment. The barrels were bio-control agents (K����� 1934). Cephalonomia covered by cloth and left at 22°C and 75% RH for a waterstoni (Gahan) (F�������� 1950; F���� 1991; week to balance the moisture content of the wheat. F���� & H������� 1995) and Holepyris sylvanidis Pairs of barrels were infested with mites and beetles (Brethes) (A���� et al. 1997) have also been poorly to give the following six combinations: studied as natural antagonists. On the other hand, I a, b – 1000 mites A. siro there is a well documented case of an applied II a, b – 100 beetles O. surinamensis biological control programme of the coffee berry III a, b – 1000 mites A. siro + 100 beetles O. suri- borer Phymastichus coffea La Salle by the bethylid namensis Cephalonomia stephanoderis Betrem in coffee groves IV a, b – 1000 mites A. siro + 50 predators C. eru- (P����-L������ et al. 2002; D���� & V���� 2002). ditus Although C. tarsalis reportedly uses several different V a, b – 100 beetles O. surinamensis + 4 parasitoids stored product beetles as its hosts, it appears to be Cephalonomia tarsalis primarily associated with the saw-toothed grain VI a, b – 1000 mites A. siro + 50 predators C. erudi- beetle, O. surinamensis (H����� et al. 1998). That tus + 100 beetles O. surinamensis + 4 parasitoids paper reports on some of the sensory modalities Cephalonomia tarsalis. that the female C. tarsalis uses to find, recognise The experiment lasted 3 months, samples and accept a host. It provides an ethogram sequence (100–200 g) were taken at the end of each month. of the parasitoid behaviour from initial searching Berlese funnels were used to count the mites, and until the host is released in preparation for oviposi- the beetles were sifted out and counted. At the tion. The major host-recognition cues are chemical, end of the experiment all wheat from the barrels primarily on the cuticle of the host and perceived was sifted out and beetles and parasitoids were through the antennae of the parasitoid, as well as counted. movement by the host once contacted. S������� The mites and their predator came from cultures et al. (1998) sampled shelled maize in metal grain reared in the laboratory at 25°C and 75% RH on storage bins between June and September 1990 in wheat germs, the predators were reared on lettuce Kentucky to identify, enumerate, and determine seed with A. siro as prey. O. surinamensis beetles the spatial distribution of pest and beneficial in- were reared in plastic boxes on a diet consisting sects. Eight species of parasitoids were identified of wheat germs, yeast and oat flakes in the ratio from the samples, among others C. tarsalis. Other 10:2:10 and at 25°C and 75% RH. C. tarsalis was experiments were conducted to determine the reared in clear plastic boxes with the last instar compatibility of C. tarsalis as ectoparasitoid and of O. surinamensis larvae and pupae and at 25°C Beauveria bassiana (Deuteromycotina, Hyphomycetes) and 75%RH. as entomogenous fungus, both being known as biological control agents of O. surinamensis (L��� 2001). He found that wasp larvae are susceptible to B. bassiana-infected host larvae and the adult wasp 10 000.0 was also negatively affected by a higher dose of the 1 000.0 entomopathogenic fungus. However, knowledge about synchronous control of mites and beetles by 100 biological control means is missing. 10 The goal of this paper was to examine whether 1 the predatory mite C. eruditus and the parasitoid 0.1 C. tarsalis are suitable for synchronous application Log number of specimens 0 1 2 3 in biological control programs of pests in stored Samples per one month grains. IV. Acarus IV. Cheyletus I. Acarus MATERIALS AND METHODS Figure 1. Changes of abundance of Acarus siro in the Twelve cardboard barrels (22 cm in diameter, presence of Cheyletus eruditus compared to untreated height 50 cm), each loaded with 7 kg of clean sterile control of A. siro 30 Plant Protect. Sci. Vol. 39, No. 1: 29–34 Figure 2. Changes of abundance of Oryzaephilus surinamensis in the presence of Cephalonomia tarsalis compared to untreated control of O. surinamensis Log number of specimens 0 1 2 3 Sampling per month V. Oryzaephilus V. Cephalonomia II. Oryzaephilus RESULTS AND DISCUSSION surpassed 13 000 after 3 months, the predators eliminated the mites close to the zero level. There- Biological control of the storage mite A. siro by after, the abundance of the predators decreased. the predator C. eruditus was very efficient (Fig- The number of mites was re-calculated to 100 g ure 1). Whereas the number of mites in the control of substrate. 10 000.0 1 000.0 100 10 Log number of specimens 1 0.1 0 1 2 3 Samples in one month interval VI. Acarus VI. Cheyletus VI. Oryzaephilus VI. Cephalonomia III. Acarus III. Oryzaephilus Figure 3. Changes of abundance of Oryzaephilus surinamensis (hatched filled bars) and Acarus siro when Cepha- lonomia tarsalis and Cheyleus eruditus are present concurrently, respectively, compared to untreated control of synchronous presence of O. surinamensis and Acarus siro 31 Vol. 39, No. 1: 29–34 Plant Protect. Sci. Plant Protect. Sci. Vol. 39, No. 1: 29–34 C. tarsalis was able to effectively control O. wasps in the experiment had an average mortality surinamensis (Figure 2). After a steady state of of 60% while in the control their mortality was only 1 month the abundance of the beetles declined. 1.7% (L��� 2001). Likewise, competition between Its final population density was 1/10th of that the parasitoids Anisopteromalus calandrae (Howard) without the presence of parasitoid. The number and Choetospila elegans Westwood exposed to im- of beetles and parasitoids was re-calculated to mature rice weevils, Sitophilus oryzae (L.), had a 1 kg of substrate. negative effect on the populations of both species of Surprisingly, synchronous application of both parasitoids. Competition reduced their emergence natural enemies resulted in more effective con- (W�� & B����� 1995). Another example is the in- trol of O. surinamensis than treatment with either traguild predation of Phytoseiulus persimilis Athias biological agent alone; the number of beetles was and Neoseiulus californicus McGregor, both predators only 1/40th of that in the control (Figure 3). The of Tetranychus cinnabarinus Boisduval (Tetranychi- predator reduced A. siro to 7 specimens compared dae). Release of only P. persimilis led to most rapid suppression of the spider mite. Nonetheless, in perennial greenhouse-grown crops, P. persimilis and N. californicus could have complementary ef- fects and a combination of the two predators could enhance the long-term biological control of spider mites under certain conditions, which have to be farther studied (S����������� & W����� 2001).

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