The impact of predatory, agroecosystem-nesting ant species on the larval stages of the two major lepidopteran pests, the diamondback moth (DBM), Plutella xylostella and the black cutworm (BC), Agrotis ipsilon, in cauliflower agroecosystem in Uttar Pradesh, India, was investigated in farmersÕ fields. Field observations revealed that six ant species, the most important being Pheidole sp., preyed on the crop-damaging stages of DBM and BC. Bait experiments with larvae of DBM and BC, placed randomly on the ground, demonstrated significant active retrieval by Pheidole sp. Investigations on larval density of both the insect pests on cauliflower crops, located within 1-5 m distances from nests of Pheidole sp., revealed a significant increase in the level of infestation of the crop plants with increasing distance from the ant nests. While a significant negative correlation was found between infested plants with low larval densities, a positive correlation was found between plants with high larval densities with regard to the distance of crop plant location from the ant nest. Ant-inclusion and -exclusion experiments under field conditions further confirmed the role of predatory ants, with Pheidole sp. having the major impact in the direct retrieval of the lepidopteran larvae from the crop plants. A significant difference was found in the leaf area damaged by BC larvae between the ant-included andexcluded potted plants during the 6-h observation period. Thus, this study provides direct evidence of the role of ants in actively searching and directly preying on the larval stages of DBM and BC, on cauliflower plants. Moreover, we demonstrate that in ephemeral, annual cropping agroecosystems, predatory ants are important natural enemies of lepidopteran pests, playing a significant role in plant protection.
Among the 10 ant species visiting the extrafloral nectaries of sponge gourd plants [Luffa cylindrica L. (Cucurbitaceae)], Camponotus compressus (Fabricius) (Hymenoptera: Formicidae) appears to be the ecologically dominant species, due to its abundance and the high frequency of deterrent encounters with the major insect herbivore, Raphidopalpa foveicollis Lucas (Coleoptera: Chrysomelidae). A significant positive linear correlation was found between the number of extrafloral nectaries per leaf, calyx, bract, and bracteole and the patrolling time of C. compressus, Camponotus paria (Emery), Pheidole spec., and Tetramorium spec. (all Hymenoptera: Formicidae) at the corresponding plant parts. Many one‐to‐one deterrent interactions between the ant visitors and adult R. foveicollis were recorded, with C. compressus being involved in most encounters on the calyx and bracts, Pheidole spec. on the leaves, and Pachycondyla tesserinoda (Emery) (Hymenoptera: Formicidae) on the bracteoles. Tapinoma melanocephalum (Fabr.) (Hymenoptera: Formicidae) exhibited significant deterrent effects on adult herbivores on the corolla when in groups larger than 15 ants. Ant exclusion and inclusion experiments revealed a significant reduction in the residence time, as well as dose‐ and time‐dependent reduction in the frequency of visits of the herbivore on crop plants with C. compressus, C. paria, Pheidole spec., and T. melanocephalum ants, compared to the control. Results support the optimal defence hypothesis, as the plant structures most closely linked to plant fitness bear the extrafloral nectaries and are defended by the visiting ant species. This is a valuable, indirect plant‐protection strategy of an annual crop plant.
1. Field investigation of the association between sponge gourd, Luffa cylindrica plants and its ant visitors revealed that five of the six most frequent species: Camponotus compressus, C. paria, Pheidole sp., Pachycondyla tesserinoda and Tetramorium sp. mainly visited the extrafloral (EF) nectaries present on the leaves, bracts, bracteoles and calyx of the plant. Tapinoma melanocephalum was the only ant species observed at the floral as well as the EF nectaries.2. A bioassay of ant behaviour revealed aversion to young and mature unisexual flowers of sponge gourd in the five predominantly EF nectary-visiting ant species, while floral preference was demonstrated in T. melanocephalum. A significant difference was not found in the number of insect pollinators visiting T. melanocephalum occupied and un-occupied flowers, suggesting the absence of deterrent effect of this tiny ant species on the pollinators.3. Further behavioural assays showed preference for 2-and 4-day-old leaves and also 2-day-old buds, while the 4-day-old buds induced avoidance in all the species. Androecium and gynoecium had significantly higher repellent effects in comparison to the petals. Thus floral repellents, probably help to reduce nectar theft and prevent loss of pollen function.4. This aversion was not demonstrated in the case of old flowers. A significantly greater number of insect pollinators visited young and mature flowers compared with old flowers, suggesting that selective exclusion of medium-and large-sized EF nectaryvisiting ant species from the flowers, as a result of aversion to floral repellents, serves to avoid the threat of attack to insect pollinators of sponge gourd.
The present study focuses on the abundance, heavy metal content, and the impact of ecosystem engineering activities of two coal mine site-inhabiting ant species, Cataglyphis longipedem and Camponotus compressus. The abundance of Ct. longipedem increased while that of C. compressus decreased, with increasing soil pollution. Correspondence analysis reveals a close association between soil heavy metal concentrations and Ct. longipedem abundance, but this association is lacking in the case of C. compressus. Cataglyphis ants which occupy stress-characterized niches appear to be pre-adapted to tolerate heavy metal pollution. Higher concentrations of Zn and Mn in Ct. longipedem may contribute to the strengthening of the cuticular structures, necessary for nest excavation in the hard, arid soil and for single load carrying. C. compressus ants appear to be pollution sensitive. Their higher Fe content may be related to metal uptake via plant-derived liquids and species-specific regulatory mechanisms. The metal pollution index and biota-to-soil accumulation factors, calculated by using the ant body metal content of the two species, indicate an overall decrease of soil heavy metal concentrations with increase of the site age, which reflects the degree of pollution related to the mine site age. The concentrations of total and available heavy metals (Fe, Zn, Mn, Pb, and Cu) were significantly lower in the ant nest debris soil as compared to the reference soil. The results of the present study highlight the role of ants as bioindicators and in bioremediation of contaminated soil.
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