Disturbance and competition drive diversity effects in cabbage–aphid–onion systems with intra-specific genetic variation

Guilbaud, Camille S. E.; Khudr, Mouhammad Shadi

doi:10.1017/s0007485319000373

Cited by 2 publications

(1 citation statement)

References 77 publications

(105 reference statements)

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“…Losses are caused directly by sucking the cell sap and indirectly by transferring different types of viruses, which may result in complete crop failure (Saleem and Shah 2010;Razaq et al 2016;Kumar et al 2017). Moreover, the pest has a very high reproduction rate (~43 generations/year) and adaptability in changing environmental conditions (Saleem and Shah 2010;Guilbaud and Khudr 2020;Javed and Qiu 2020;Li et al 2020).…”

Section: Introductionmentioning

confidence: 99%

Studies on Inducer Mediated Resistance Responses against Biological Fitness of Brevicoryne brassicae (Homoptera: Aphididae) on Brassica napus

Javed¹

2021

IJAB

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Cabbage aphid, Brevicoryne brassicae is among the notorious insect pests of Canola (Brassica napus) and other Brassica spp., with a reported loss of up to 75%. It has gained resistance against conventional chemical insecticides. So, to activate inducer mediated plant resistance is among the workable solutions against this pest. Henceforth, inducer-mediated resistance based on categorizes of induced-resistance (IR), nutrient-deterrence (ND) and sulphur-integration (SI), was applied in 18 treatments. Their responses against aphid development period, reproduction time, progeny production, immature becoming adults, percent survival and mortalities, were noted-down. In the IR category, all the biological parameters were affected significantly by 1 mM (1 and mM should be in the same line) mM salicylic acid-T4 treatment, whereas in ND, silicon 50 kg ha-1-T10 was more effective. Likewise, during SI studies, bio-sulphur-T15 remained an efficient one. Overall, the developmental period of B. brassicae nymphs was delayed by T10 (Si 50 kg ha-1), followed by T4 (1 mM SA), while Compost-T16 expedited their development. Besides these, reproduction time was reduced at the most by T4, followed by T15. Aphid progeny production was again decreased significantly by T4 and T10, while T16 (Compost) presented the maximum progenies. Associatively, the least number of nymphs becoming adults were shown in T4, T10 followed by T7 (1 mM CA). The highest percent nymph survival was shown in T1 (control) and T16 (compost) with the highest nymph percent mortality in T4 and T7. Hence, salicylic acid, silicon, and bio-sulphur showed maximum effective resistance responses but in concentration-dependent manner. These findings can be used in future integrated pest management programs of aphids and other specialists on related hosts. © 2021 Friends Science Publishers

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