Effects of Water Immersion and Soil Moisture Content on Larval and Pupal Survival of Bactrocera minax (Diptera: Tephritidae)

Effects of Water Immersion and Soil Moisture Content on Larval and Pupal Survival of Bactrocera minax (Diptera: Tephritidae)

, one of the most devastating citrus pests in Asia, has two developmental stages (mature larva and pupa) that complete their life cycle in the soil. Currently, southern China has a climate with abundant autumn rains, and soil moisture can be a major factor affecting the survival of larvae and pupae...

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Bibliographic Details
Published in:Insects (Basel, Switzerland) Vol. 10; no. 5; p. 138
Main Authors: Li, Zaiyuan, Chambi, Consolatha, Du, Tianhua, Huang, Cong, Wang, Fulian, Zhang, Guifen, Li, Chuanren, Juma Kayeke, Mohamed
Format: Journal Article
Language:English
Published: Switzerland MDPI AG 14-05-2019
MDPI
Subjects:
Bactrocera minax
Carbon dioxide
Citrus fruits
Developmental stages
Geographical distribution
Grain size
Humidity
Immersion
Insects
Larvae
Life cycles
Moisture content
Mortality
Pests
Pupae
Pupation
Respiration
respiration rate
Soil moisture
Soil water
soil water content
Soils
Submerging
Survival
Water content
Water immersion
China
soil water content
water immersion
Bactrocera minax
respiration rate
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Summary:, one of the most devastating citrus pests in Asia, has two developmental stages (mature larva and pupa) that complete their life cycle in the soil. Currently, southern China has a climate with abundant autumn rains, and soil moisture can be a major factor affecting the survival of larvae and pupae of . In the present study, we evaluated the effects of water immersion and high soil moisture content on the development of mature larvae and pupae of . When immersed in water for 1 d, 100% of mature larvae of were knocked out. When larvae were immersed for less than 6 d, however, more than 92% of knocked-out larvae recovered within 24 h. The days of water immersion with 50% and 90% recovery ratios (indicated as RD and RD ) were 10.3 d and 6.4 d, respectively. When larvae were immersed less than 6 d, the mortality ratios of larvae were not significantly different from those that were not immersed at all. The days of immersion causing 50% and 90% mortality of larvae (MD and MD , respectively) were 7.6 d and 11.1 d, respectively. The pupation ratios of larvae were also observed to be not significantly different compared to non-immersion, and the days of immersion causing 50% and 90% pupation (PD and PD , respectively) were 6.6 d and 0.8 d, respectively. Larval respiration rates were reduced after water immersion as a strategy for larval survival. High water content was not detrimental to pupae of . Adult emergence did not significantly decrease in soil with high water content, even though pupae were under those conditions for 161-175 d. The respiration rates of pupae were lower in soil with different moisture levels and were not significantly different, which ensured the survival of pupae in high water content. Reduced respiration rate is a strategy for survival of larvae and pupae, and remarkable tolerance to high moisture conditions could explain the high rate of spread and geographical distribution of . The results of this study provide a reference for the occurrence and control of .
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Zaiyuan Li and Consolatha Chambi contributed equally to this work.
ISSN:2075-4450
2075-4450
DOI:10.3390/insects10050138