Immersion in hot water as a phytosanitary treatment for Thaumatotibia leucotreta (Lepidoptera: Tortricidae) in bell pepper (Capsicum annuum L.)

Research output: Contribution to journalArticleResearchpeer review

Authors

  • Nelson L. Mwando
  • Shepard Ndlela
  • Rainer Meyhöfer
  • Sevgan Subramanian
  • Samira A. Mohamed

External Research Organisations

  • International Centre of Insect Physiology and Ecology Nairobi
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Details

Original languageEnglish
Article number112026
JournalPostharvest biology and technology
Volume192
Early online date9 Jul 2022
Publication statusPublished - Oct 2022

Abstract

The False codling moth (FCM), Thaumatotibia leucotreta is a major quarantine pest that hampers Capsicum production and trade in sub-Saharan Africa (SSA) and may need a postharvest treatment to meet quarantine standards of lucrative overseas markets. In this study, we evaluated the efficacy of hot water treatment (HWT) as a potential nonchemical quarantine control option against T. leucotreta in bell pepper and its effect on the quality parameters of the peppers. Infested bell pepper harboring different immature stages of T. leucotreta were subjected to a hot water treatment of 50 ± 0.2 °C for eight different time-points to determine heat susceptibility of immature stages of T. leucotreta. The third-instar was the least heat susceptible, followed by second-and first-instar larva and the egg stage, respectively. The immersion time of 44.23 min (95% CL 43.22 – 45.24) was estimated to be the minimum time required to attain 99.9968% control level. In the large scale confirmatory experiment, there were no survivors from the 20,325 third instar individuals treated in bell pepper (180 – 220 g). Additionally, none of the 25,384 third instars exposed to 50 ± 0.2 °C for 32 min survived. The impact of the HWT schedule on bell pepper fruit quality parameters was assessed and there were no significant effects on weight loss, moisture content, total soluble solids, titratable acidity, dry matter and pH post treatment. These results provide strong evidence that the HWT schedule is an effective phytosanitary treatment for control of T. leucotreta, and may be adopted to facilitate access to overcome the phytosanitary barriers imposed by importing countries to capsicum from SSA.

Keywords

    False codling moth, Heat treatment, Phytosanitation, Quarantine treatment

ASJC Scopus subject areas

Cite this

Immersion in hot water as a phytosanitary treatment for Thaumatotibia leucotreta (Lepidoptera: Tortricidae) in bell pepper (Capsicum annuum L.). / Mwando, Nelson L.; Ndlela, Shepard; Meyhöfer, Rainer et al.
In: Postharvest biology and technology, Vol. 192, 112026, 10.2022.

Research output: Contribution to journalArticleResearchpeer review

Mwando NL, Ndlela S, Meyhöfer R, Subramanian S, Mohamed SA. Immersion in hot water as a phytosanitary treatment for Thaumatotibia leucotreta (Lepidoptera: Tortricidae) in bell pepper (Capsicum annuum L.). Postharvest biology and technology. 2022 Oct;192:112026. Epub 2022 Jul 9. doi: 10.1016/j.postharvbio.2022.112026
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title = "Immersion in hot water as a phytosanitary treatment for Thaumatotibia leucotreta (Lepidoptera: Tortricidae) in bell pepper (Capsicum annuum L.)",
abstract = "The False codling moth (FCM), Thaumatotibia leucotreta is a major quarantine pest that hampers Capsicum production and trade in sub-Saharan Africa (SSA) and may need a postharvest treatment to meet quarantine standards of lucrative overseas markets. In this study, we evaluated the efficacy of hot water treatment (HWT) as a potential nonchemical quarantine control option against T. leucotreta in bell pepper and its effect on the quality parameters of the peppers. Infested bell pepper harboring different immature stages of T. leucotreta were subjected to a hot water treatment of 50 ± 0.2 °C for eight different time-points to determine heat susceptibility of immature stages of T. leucotreta. The third-instar was the least heat susceptible, followed by second-and first-instar larva and the egg stage, respectively. The immersion time of 44.23 min (95% CL 43.22 – 45.24) was estimated to be the minimum time required to attain 99.9968% control level. In the large scale confirmatory experiment, there were no survivors from the 20,325 third instar individuals treated in bell pepper (180 – 220 g). Additionally, none of the 25,384 third instars exposed to 50 ± 0.2 °C for 32 min survived. The impact of the HWT schedule on bell pepper fruit quality parameters was assessed and there were no significant effects on weight loss, moisture content, total soluble solids, titratable acidity, dry matter and pH post treatment. These results provide strong evidence that the HWT schedule is an effective phytosanitary treatment for control of T. leucotreta, and may be adopted to facilitate access to overcome the phytosanitary barriers imposed by importing countries to capsicum from SSA.",
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note = "Funding Information: This work was financially supported by the following organizations and agencies: BioInnovate Africa , grant number: BA-C1-2017-06_icipe ; and the Norwegian Agency for Development Cooperation , the section for research, innovation and higher education grant number RAF-3058 KEN-18/0005 ; the Swedish International Development Cooperation Agency (Sida); the Swiss Agency for Development and Cooperation (SDC); the Federal Democratic Republic of Ethiopia; and the Government of the Republic of Kenya . The views expressed herein do not necessarily reflect the official opinion of the donors. We also wish to thank icipe{\textquoteright}s African Fruit Fly Programme (AFFP) project staff for their technical assistance in the Postharvest laboratory.",
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T1 - Immersion in hot water as a phytosanitary treatment for Thaumatotibia leucotreta (Lepidoptera: Tortricidae) in bell pepper (Capsicum annuum L.)

AU - Mwando, Nelson L.

AU - Ndlela, Shepard

AU - Meyhöfer, Rainer

AU - Subramanian, Sevgan

AU - Mohamed, Samira A.

N1 - Funding Information: This work was financially supported by the following organizations and agencies: BioInnovate Africa , grant number: BA-C1-2017-06_icipe ; and the Norwegian Agency for Development Cooperation , the section for research, innovation and higher education grant number RAF-3058 KEN-18/0005 ; the Swedish International Development Cooperation Agency (Sida); the Swiss Agency for Development and Cooperation (SDC); the Federal Democratic Republic of Ethiopia; and the Government of the Republic of Kenya . The views expressed herein do not necessarily reflect the official opinion of the donors. We also wish to thank icipe’s African Fruit Fly Programme (AFFP) project staff for their technical assistance in the Postharvest laboratory.

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