The soldier fly is an endemic pest of sugarcane in Australia. Small numbers of larvae can cause significant damage to roots and reduce the crop yields. Little is known about the composition and function of the soldier fly salivary gland, its secretions, and their roles in insect-plant interactions. In this study, we performed transcriptome analysis of the salivary glands of starved and sugarcane root-fed soldier fly larvae. A total of 31 119 highly expressed assembled contigs were identified in the salivary glands and almost 50% of them showed high levels of similarity to known proteins in Nr databases. Of all the obtained contigs, only 9727 sequences contain an open reading frame of over 100 amino acids. Around 31% of contigs were predicted to encode secretory proteins, including some digestive and detoxifying enzymes and potential effectors. Some known salivary secreted peptides such as serine protease, cysteine proteinase inhibitors, antimicrobial peptides and venom proteins were among the top 100 highly expressed genes. Differential gene expression analysis revealed significant modulation of 850 transcripts in salivary glands upon exposure to plant roots or starvation stress. Here, we identified some venom proteins which were significantly upregulated in the salivary glands of soldier fly larvae exposed to sugarcane roots. In other insects and nematodes some of these proteins have been used to manipulate host plant defense systems and facilitate the invasion of the host plant. These findings provide a further insight into the identification of potential effector proteins involved in soldier fly-sugarcane interactions.
The native banana-spotting bug, Amblypelta lutescens lutescens Distant, is a major polyphagous insect pest of many tropical and subtropical horticultural crops in Australia, including high-valued commodities such as avocado (Persea americana Mill. (Laurales: lauraceae)). The cryptic nature of A. l. lutescens makes it difficult to sample, and much about its ecology and behavior remains poorly understood. A lure based on the main components of the semiochemicals emitted by male A. l. lutescens, which is attractive to adult males, adult females, and nymphs, has been developed and incorporated into a trap, facilitating sampling of A. l. lutescens in the field. A 2-yr study investigated the spatial and temporal dynamics of the pest in two conventionally managed avocado (cv. Shepard) orchards using a grid (36 m × 36 m) of traps across each. In each year of the study, higher numbers of A. l. lutescens were recorded from October to June. In one field, spatial clustering of adults was detected in close proximity to an adjacent lime [Citrus aurantiifolia (Christm.) (Rutales: rutaceae) Swingle] crop that was not managed with insecticides during the study. Spatial clustering of nymphs was detected adjacent to native riparian vegetation in the other field. The results suggest that source populations of A. l. lutescens could originate from neighboring crops that host A. l. lutescens and from riparian vegetation. Focused sampling of trees at the interface with these vegetation types could lead to early pest detection, timely suppression, and therefore improved pest management.
The banana-spotting bug, Amblypelta lutescens lutescens Distant (Hemiptera: Coreidae), is native to Australia and a major polyphagous pest of many tropical and subtropical horticultural crops in the east and north of the country. Different plant structures (flowers, vegetative flush, and different sized fruit) of avocado, lime, and papaya crops and green bean pods (a known suitable host) were evaluated for their suitability as hosts for A. l. lutescens Neonate to imago survivorship, the time taken to complete neonate to imago development, preovipositional period, and fecundity were assessed for each crop. Of all the different phenological stages of the plants investigated, A. l. lutescens could complete development to imago on vegetative flush of papaya and lime, papaya flowers, and green bean pods but on no other structures tested. There was higher survivorship to the second instar when neonates fed on green bean pods or flowers or vegetative flush of avocado, lime, or papaya crops than when neonates fed on small, medium, or large fruit of these crops. Insects that developed to the imago on green bean pods were significantly heavier than insects that developed on papaya flowers or papaya vegetative flush. The mean preoviposition period was shorter, and adult females more fecund, if they completed immature development and then fed as adults on papaya vegetative flush or green beans rather than papaya flowers. The data indicate that avocado is not a suitable host for A. l. lutescens, suggesting that adult populations that cause significant pest damage to the fruit of this crop originate elsewhere.
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