Abstract

 Aphids generally attack vegetative plant parts, preferably leaves, and devitalize the plant by sucking the cell sap. Thorough knowledge of pest-predator ecology and their interaction is requisite to initiate timely pest management strategies. Therefore, we aimed to study the population dynamics of aphids and their predators on tomato in Hisar, Haryana during Rabi, 2016-17 and 2017-18. We observed two dominant aphid species viz., Aphis gossypii and Myzus persicae and three aphidophagous predator groups viz., coccinellids, spiders and syrphid fly maggots in the tomato agroecosystem. Aphid infestation started during the 9th standard meteorological week (SMW) and attained a peak during the 12th SMW (22.65 aphids per three leaves per plant). Aphid population exhibited highly significant negative correlation with minimum temperature (r= -0.917**), maximum temperature (r= -0.895**) and wind speed (r= -0.809**). However, it was positively correlated with morning relative humidity (r= 0.933**) and evening relative humidity (r= 0.856**). We used Principal component analysis (PCA) to reduce the dimensions of data and variables were transformed into principal components (PC) to explain the nature and extent of the relationships among different variables. PC1 and PC2 capture 57.6 and 20.3% of the variability in the data, respectively. Aphid predators exhibited a significant positive correlation with the prey population suggesting a positive density-dependent response.
Highlights
Tomato (Solanum lycopersicum Mill) is the second most important vegetable crop after potato (FAOSTAT, 2018)
Aphids are being widely studied in several crops, but little is known about population dynamics and its predatory complex in tomato
The tomato crop was infested by two dominant aphid species viz., Aphis gossypii and Myzus persicae
Summary
Tomato (Solanum lycopersicum Mill) is the second most important vegetable crop after potato (FAOSTAT, 2018). Tomato production stands at 182.26 million tonnes (mt) from 4.76 million hectares (mha) (FAOSTAT, 2018). Population dynamics studies are imperative for proper knowledge of pest ecology in key agricultural crops. Favourable weather conditions help in population build-up and increases pest infestation. Aphids are being widely studied in several crops, but little is known about population dynamics and its predatory complex in tomato. We aimed to utilize these research gaps and study the population dynamics of the aphid complex and its predators in tomato. This study explains the trends in aphid and their predators’ population and helps us to predict the crop stages when pest management tactics can be initiated
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