Various combinations and concentrations of cholesterol (C) and stigmasterol (S) were added into a base diet developed for Eldana saccharina. Survival of inoculated neonate was high on all diets (>92% at day 20 and >95% at day 27). Fastest larval development occurred on the minimum specification (MS) (+1.0 gS) and MS (+0.2 gC: 0.2 gS) diets (72 and 70% pupation respectively at day 20). Significantly slower development (15% pupation) occurred on the control diet at day 20. Female pupal weight increased when larvae fed on the MS (+0.1 gC), (+0.1 gS) and (+0.2 gC:0.2 gS) diets (0.2143 ± 0.00 g, 0.2271 ± 0.01 g and 0.2252 ± 0.01 g, respectively) as compared with the control diet (0.1886 ± 0.00 g). Adult emergence was significantly higher (100%) from the MS (+0.1 gS) and MS (+0.2 gC:0.2 gS) diets, as compared with the remaining sterol (95%) and control diets (97%). To potentially increase E. saccharina’s cold tolerance, inclusion of cryoprotectants L-proline (P) and trehalose (T) into the MS diet was investigated. Males from the MS (0.2 gP:0.2 gT), MS (0.5 gP:0.5 gT) and MS (1.0 gT) diets recovered fastest from chill coma treatment (204 ± 44 s, 215 ± 7 s and 215 ± 9 s, respectively) than those from the remaining cryoprotectant diets (305 ± 22 s). The addition of cryoprotectants severely reduced female fertility (<44%) when mated with non-chill coma exposed males. In contrast, eggs from females not exposed to chilling treatment were 84% fertile when mated with males from the same source. The MS (0.2 gC:0.2 gS) diet is the preferred choice to replace the currently used diet, reducing the larval growth period by 60% without negative effects on key life cycle parameters of E. saccharina.
The carcass milling technique (CMT) formulates specific diets from nutrient analyses of species to be reared and their natural host plants. The first of four diets developed used the minimum ingredient specifications (MS) of published diets for Eldana saccharina. The remaining were based on the ideal amino acid composition and profile (IAAP) of its second (IAAP2), third/fourth (IAAP3/4) and fifth/sixth (IAAP5/6) instar larvae. The control was a modified Ostrinia nubilalis diet. Survival to pupae of inoculated E saccharina neonates was high on all CMT formulations (>92% at day 20 and >97% at day 27). Larvae developed fastest on the IAAP3/4 and MS diets (25% and 17% prepupae and pupae on day 20, respectively). Pupal weights were not significantly influenced by CMT diets (0.1121 g male; 0.1864 g female). The control group produced heavier male and female pupae (0.1204 g; 0.2085 g, respectively). Adult emergence was highest from the MS (98%), then the IAAP3/4 (97%) and control (96%) diets. Sex ratio of adults from all diets was close to one. Males from the IAAP5/6 diet mated with significantly more females (six), and females from the MS diet mated with more males (three) than those from remaining formulations. All females produced in excess of 870 eggs, more than 90% were fertile after mating. The pH (4.79); moisture content (81.43%) and water activity (0.92 aw) of the diets were not significantly different, maintaining quality and stability throughout the larval period, ensuring optimal growth and development. The MS diet formulation was the preferred choice to replace the current E. saccharina diet.
BACKGROUND This study determined the nutrient requirements of Eldana saccharina Walker (Lepidoptera: Pyralidae), a serious sugarcane pest in South Africa, to develop a more efficient artificial diet for mass‐rearing purposes for sterile moth production. Diets tested consisted of a minimum specification (MS) diet representing a diet formulated according to the minimum specification of a summary of published diets, which yielded satisfactory results; an ideal amino acid profile (IAAP) diet, where amino acid composition was based on the profile of amino acids in the 2nd (IAAP2) and 5th/6th (IAAP5/6) instar larvae; and lastly two diets based on the nutrient composition of the natural diet of the insects, papyrus (PAP) and sugarcane (SC). Six treatments with 50 replications were randomly allotted to 300 25 mL plastic screw‐top vials. The diet (15 mL) was dispensed into each vial and inoculated with two freshly hatched larvae. Larvae, pupae, and moths were harvested at 28 days after inoculation. Overall survivability, pupal weight, sex ratio, and rate of development was determined and compared with the diet currently in use at the South African Sugarcane Research Institute (CON). Physical characteristics of the diets such as the pH and the water‐holding capacity of the diets were also determined. RESULTS The natural diets (PAP and SC) were not viable as they did not yield any results. Survivability was significantly higher (78%) for the MS diet whilst IAAP2 and IAAP5/6 yielded the second highest survivability (74%) compared to CON (68%). There were no differences in male pupal weights between all treatment diets, as was the case for female pupae. Within dietary treatments, female pupae were heavier than male pupae for all treatment diets. CON (1.0: 1.6) produced significantly less male than female pupae with MS (1.0: 1.2), IAAP2 (1.0: 1.0) and IAAP5/6 (1.0: 1.1) all producing equal amounts of male and female pupae. The MS diet (16%) yielded fourfold the number of moths after 28 days compared to CON (4%) and IAAP2 (4%) diets. IAAP5/6 yielded no moths after 28 days. The life stages thus developed fastest in the MS diet. The pH of all treatment diets remained stable for the entire duration of the trial. No biological contamination was observed through all diets. Differences in water‐holding capacity were observed between most diets with PAP and SC losing the most moisture whilst the MS and IAAP2 diets retained the most moisture. CONCLUSION The MS diet most closely represented the nutrient requirements of E. saccharina, leading to its faster development on this formulation, which could be readily applied for large‐scale production of this lepidopteran pest as an aid in the mass rearing of sterile males as part of the integrated pest management plan. © 2020 Society of Chemical Industry
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