Authors:A. Soleymanzade, F. Khorrami, and M. Forouzan
Plutella xylostella has become particularly notorious for its
resistance to various insecticides. The toxicities of abamectin, hexaflumuron
and indoxacarb to third instar larvae of the pest were assayed using the
leaf-dipping method. The results showed that abamectin and indoxacarb with the
lowest LC50 values exhibited stronger toxicity to larvae than hexaflumuron. To
determine the synergism of PBO, DEM, DEF and TPP on the toxicity of tested
insecticides and demonstrating possible biochemical mechanisms, an abamectin-, a
hexaflu-muron- and an indoxacarb-resistant strain of P.
xylostella were selected under laboratory conditions. After 10
generations of selection, the selected strains developed 14.21, 7.08, and
32.36-fold higher resistance to these insecticides, respectively. Abamectin
resistance in abamectin-selected strain was suppressed with the synergists such
as DEM and PBO, suggesting the involvement of monooxygeneses and glutathione
S-transferase in the development of resistance in P.
xylostella. Treatment with PBO and DEF significantly decreased the
toxicity of hexaflumuron in the hexaflumuron-selected strain. Also, in
indoxacarb-selected strain, the maximum synergism was occurred using PBO and
DEF, followed by DEM and TPP. Hexaflumuron and indoxacarb synergism studies
indicated in hexaflumuron resistance, monooxygenases and esterases, and in
indoxacarb resistance, monooxygenases, esterases and glutathione S-transferae
may be involved in the resistance mechanisms
Authors:F. Khorrami, K. Ojaghi Aghbash, A. Soleymanzade, M. Forouzan, and Y. Ghosta
Phthorimaea operculella is a significant insect pest of cultivated potatoes in tropical and subtropical regions such as Iran. Since the potato is one of the most valuable sources of human food, non-chemical control of potato pests is essential. Application of medicinal plant extracts is a low-risk alternative method to synthetic chemical insecticides. Hence, the present study was conducted to investigate a potential strategy to improve the insecticidal activity of plant extracts for efficient management of P. operculella. The insecticidal efficacy of pure methanolic extract (PME) and Fe3O4@methanolic extract (FME) of Cuminum cyminum were evaluated against the potato tuber moth under laboratory conditions. The morphological characteristics of Fe3O4@Cumin were investigated by scanning electron microscope. Magnetic properties of the samples were determined using a vibration sample magnetometer. XRD was used to prove the crystalline structure of Fe3O4@Cumin. SEM, FTIR, XRD, and VSM analyses confirmed that the methanolic extract was loaded on Fe3O4. The toxicity of PME and Fe3O4@Cumin were evaluated on one-day-old eggs and penetration the first instar larvae of P. operculella into potato tubers and leaves. The LC50 values of Cumin extract and Fe3O4@ Cumin were 961.07 and 601.48 and 496.84 and 268.82 ppm for penetrating neonate larvae to tubers and leaves, and 874.90 and 595.16 ppm for eggs, respectively. Bioassays revealed that Fe3O4@Cumin was more toxic than non-formulated Cumin methanolic extract against eggs and neonate larvae of P. operculella. The formulated methanolic extract was significantly more repellent against the pest. Our results suggested that the prepared nanocomposite could be used as a new effective tool for P. operculella management strategies to protect potatoes.