Effect of packaging chickpeas with CO2 modified atmospheres on mortality of Callosobruchus chinensis (Coleoptera: Chrysomelidae)

Bourne-Murrieta, Luz Raquel; Iturralde-García, Rey D.; Wong‐Corral, Francisco Javier; Castañé, Cristina; Riudavets, Jordi

doi:10.1016/j.jspr.2021.101894

Cited by 3 publications

(3 citation statements)

References 23 publications

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“…In our study, we found a reduction in body weight and body size under different high CO 2 conditions (Figure 2); we suspect that this is an adaptation to hypoxia/hypercarbia. Studies have reported that the adults, pupae, and larvae of T. castaneum died after 1.2, 6.4, and 3.3 days of treatment with up to 99% CO 2 [40], despite the larvae and pupae of most storage pests being resistant to high CO 2 [1,41]. In this experiment, four different concentrations of CO 2 were used to treat eighth-instar T. castaneum, and the results showed that the 50% mortality time of 75% CO 2 larvae of T. castaneum was approximately 6 days, while that of 95% CO 2 -treated larvae was only approximately 3 days, similar to the results of Husain et al [35].…”

Section: Discussionmentioning

confidence: 99%

“…Trehalose can be used not only as an energy source but also as a chemical chaperone or metabolic regulator to protect insects from stress [44,45]. Glycogen is an important metabolic and energy storage substance [40,41], mainly synthesized and stored in the fat body, and it can be rapidly converted in trehalose and glucose into other tissues when insects require energy [46]. In T. castaneum treated with four different concentrations of CO 2 , we found that glucose decreased significantly at 25% CO 2 , suggesting that glucose was fully utilized as a stressor to adapt to adversity at this concentration (Figure 3B).…”

Section: Discussionmentioning

confidence: 99%

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The Endogenous Metabolic Response of Tribolium castaneum under a High Concentration of CO2

et al. 2022

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High carbon dioxide concentrations can effectively control most storage pests. To estimate the toxicity effect of high concentrations of CO2, four different concentrations of CO2 (25% CO2, 50% CO2, 75% CO2, and 95% CO2) were used to treat Tribolium castaneum, and the biochemical (carbohydrate content and gene expression level) and physiological (mortality, pupation, eclosion rate, and weight) features of insects submitted to different treatments with CO2 were evaluated. The T. castaneum mortality rate was 50% in approximately 2 days when exposed to a treatment with 95% CO2. When the CO2 concentration exceeded 75%, the pupation rate and eclosion rate of T. castaneum seriously declined. Higher than 25% CO2 concentrations resulted in a lower weight and shrunken body size of T. castaneum. It was further found that different CO2 concentration treatments all influenced the levels of the three carbohydrate contents in T. castaneum. In addition, according to the detection of trehalose metabolism pathway-related genes, T. castaneum mainly responds to stress factors via high expression of TPS, TRE1-2, and TRE1-3. Our results enrich the evaluation of the toxicity effect of CO2 treatment on grain storage pests, providing a basis for further improving the method of regulating grain storage to control insect pests.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

The Endogenous Metabolic Response of Tribolium castaneum under a High Concentration of CO2

et al. 2022

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“…Research is also being done on the effectiveness of modified atmospheres (MO), such as packaging containing carbon dioxide, in preventing Callosobruchus sp. infestations (Cheng et al, 2013;Sagar and Pareek, 2020;Bourne-Murrieta et al, 2021). Additionally, research is being done to determine whether agricultural waste might act as an insect repellent (Ashamo et al, 2022).…”

Section: Introductionmentioning

confidence: 99%

Growth Retarder Effects of Prosopis Cineraria Extracts on Pre-Adult Stages of Adzuki Bean Weevil Callosobruchus Chinensis

Rawat

2023

JBiopest

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A study was conducted to evaluate the possible effects of Prosopis cineraria botanical extracts on Callosobruchus chinensis development. To stop the test pest from invading green gram seeds, extracts from the bark, fruit, and leaves of the plant P. cineraria were investigated as remedial treatments. In this study, the term "rate of development" refers to the amount of time it takes for a pest insect to emerge as an adult. The effectiveness of the botanical preparations was assessed in terms of the adult insects' delayed emergence from the infected seeds. When compared to control groups, which had a mean rate of development of 26 days, the treatment with plant extracts dramatically accelerated C. chinensis pace of development. A 39.67-day maximum was recorded when using 10% bark aqueous extract. The rate of insect development was also slowed down by all 10% preparations, 5% aqueous leaf extract, 5% aqueous suspension, and 5% aqueous bark extract. Based on the promising study results, it was determined that this tree's leaf extract, which is widely accessible in the dry regions of the Indian subcontinent, might be utilized as a cheap, safe, and convenient grain protectant, particularly for domestic usage.

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Advances in utilization of carbon-dioxide for food preservation and storage

Fadeyibi¹

2023

Green Sustainable Process for Chemical and Environmental Engineering and Science

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Effect of packaging chickpeas with CO2 modified atmospheres on mortality of Callosobruchus chinensis (Coleoptera: Chrysomelidae)

Cited by 3 publications

References 23 publications

The Endogenous Metabolic Response of Tribolium castaneum under a High Concentration of CO2

The Endogenous Metabolic Response of Tribolium castaneum under a High Concentration of CO2

Growth Retarder Effects of Prosopis Cineraria Extracts on Pre-Adult Stages of Adzuki Bean Weevil Callosobruchus Chinensis

Advances in utilization of carbon-dioxide for food preservation and storage

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