Impacts of Non-Lethal High-Temperature Stress on the Development and Reproductive Organs of Bradysia odoriphaga

Hu, Jingrong; Medison, Rudoviko Galileya; Zhang, Seng; Ma, Peifang; Shi, Caihua

doi:10.3390/insects13010074

Cited by 6 publications

(3 citation statements)

References 27 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Here, we found that by the age of 16 days, under normal environmental conditions, both the testes in males and ovaries in females were found to be fully mature, containing well-developed sperm and eggs, respectively. Previously researches revealed that high temperature damaged the development of reproductive organs in many insects, such as Bradysia odoriphaga, Drosophila suzukii and Agasicles hygrophila (Hu et al, 2022;Green et al, 2019;Zhao et al, 2016). In this study, we similarly found that exposing newly emerged adults of M. alternatus to heat stress for a duration of fteen days adversely affected the development of their reproductive organs.…”

Section: Discussionsupporting

confidence: 63%

First evidence that interactions of Heat Shock Protein 20 with reproduction-related proteins aid in fertility recovering from heat stress in Monochamus alternatus

Li,

Yang,

Tan

et al. 2024

Preprint

View full text Add to dashboard Cite

Insects, as ectotherms, are highly susceptible to temperature increases due to global climate change, with heat tolerance being crucial for their survival. Heat Shock Proteins (HSPs) play a vital role in this tolerance, preventing protein denaturation. However, the interaction between HSPs and their native substrate proteins remains underexplored. This study examined the effects of heat stress on Monochamus alternatus, a significant pest in forestry, focusing on its reproductive heat tolerance and recovery. Heat stress was found to reduce fecundity, fertility, mating, and oviposition behaviors, alongside impairing the development and viability of reproductive organs and sperm. Remarkably, all reproductive parameters of M. alternatus recovered within four weeks post-exposure. To investigate the recovery mechanisms, we identified ten reproduction-related proteins as candidate substrate protein of an HSP protein in M. alternatus using immunoprecipitation coupled with mass spectrometry analysis. Heat stress inhibited the transcription of these reproduction-related genes, thereby adversely affecting reproductive parameters. However, the induction of HSP20s transcription in response to heat stress appeared to facilitate the refolding of these critical reproduction-related proteins during the recovery phase, preventing lasting reproductive damage. Overall, this study suggested that while M. alternatus populations might be vulnerable to climate-induced temperature increases, their fertility had the capacity to recover, mediated by HSPs’ interaction with reproduction-related genes. These findings offered profound insights into insect heat tolerance and recovery, expanding our understanding of HSP20 proteins’ biological functions.

show abstract

Section: Discussionsupporting

confidence: 63%

First evidence that interactions of Heat Shock Protein 20 with reproduction-related proteins aid in fertility recovering from heat stress in Monochamus alternatus

Li,

Yang,

Tan

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

“…The reproductive organs of certain insect species undergo gradual development and maturation during the pupal stage. Previous studies have indicated that subjecting the pupae of these insects to non-lethal high-temperature stress has a greater impact on adult reproductive traits compared to applying heat stress to adult insects (Walsh et al 2021;Hu et al 2022). All these ndings make it reasonable to hypothesize that the stage at which insect reproductive organs mature is more susceptible to high temperatures in relation to reproductive traits.…”

Section: Stage-speci C Differences In Detrimental Effects Of Ehts On ...mentioning

confidence: 99%

The pine sawyer beetle alters oviposition strategy in response to extreme high temperatures

Li,

Chen

et al. 2023

Preprint

View full text Add to dashboard Cite

The frequency and intensity of extreme high temperatures (EHTs) are increasing due to the climate warming. Insects have evolved a range of thermotolerance mechanisms to cope with EHTs, whereas there is limited research available on the alteration oviposition strategies under EHTs. This study aims to investigate the impacts of EHTs on the fertility and oviposition strategy of pine sawyer beetle, Monochamus alternatus, a destructive forestry pest. Both male and female adults exhibited a decline in reproductive performance under EHTs. Additionally, M. alternatus females generally laid one egg within one oviposition slit to minimize offspring competition. After EHTs treatments, it was firstly found that the females laid multiple eggs, which was characterized as a novel oviposition strategy. The elicitation of this novel oviposition strategy was negatively correlated with the hatchability of offspring and count of sperms in spermatheca. Furthermore, the hatchability of eggs laid by novel oviposition strategy was significantly lower than that of eggs laid individually. The novel oviposition strategy may help alleviate adverse effects of EHTs on M. alternatus by conserving energy, contributing to the long-term survival of the population. Our findings discovered a novel direction for the behavioral adaptation of insect species in the context of climate warming.

show abstract

“…Previous studies have indicated that subjecting the pupae of these insects to nonlethal high-temperature stress had a greater impact on adult reproductive traits compared to applying heat stress to adult insects. 32,33 All of these findings made it reasonable to hypothesize that the stage at which insect reproductive organs mature was more susceptible to high temperatures about reproductive traits.…”

Section: Stage-and Sex-specific Effects Of Ehts On Reproductive Traitsmentioning

confidence: 99%

Heat stress‐induced oviposition behavioral change correlates with sperm damage in the pine sawyer beetle, Monochamus alternatus

Li,

Chen

et al. 2024

Pest Management Science

View full text Add to dashboard Cite

BackgroundGlobal climate change is causing an increase in extreme high temperatures (EHTs), which subject insects to unprecedented stress. Behavior plasticity in response to EHTs, particularly oviposition behavior, is important for the persistence and outbreak of insect populations. Investigating the plasticity of oviposition behavior and its underlying mechanisms has theoretical importance to pest management, but knowledge gaps still remain.ResultsHerein, we characterized the reproductive traits of Monochamus alternatus, a dominant insect vector of the destructive pine wilt disease, including oviposition behavioral patterns, fecundity, offspring fitness and sperm viability, under simulated heatwave conditions in the laboratory. The results showed that (i) EHTs induced a novel oviposition behavior, whereby females deposited multiple eggs into a single groove rather than laying one egg per groove under normal condition; (ii) EHTs exerted stage‐ and sex‐specific effects on fecundity, offspring fitness and sperm viability; and (iii) there was a significant correlation between frequency of the novel oviposition strategy and sperm viability.ConclusionWe hypothesized that this beetle pest has the ability to flexibly shift towards a low‐cost oviposition strategy to counteract the fitness costs caused by heat stress. Taken together, these findings provide a theoretical foundation for personalized pest management strategies in the context of climate change. © 2024 Society of Chemical Industry.

show abstract

Impacts of Non-Lethal High-Temperature Stress on the Development and Reproductive Organs of Bradysia odoriphaga

Cited by 6 publications

References 27 publications

First evidence that interactions of Heat Shock Protein 20 with reproduction-related proteins aid in fertility recovering from heat stress in Monochamus alternatus

First evidence that interactions of Heat Shock Protein 20 with reproduction-related proteins aid in fertility recovering from heat stress in Monochamus alternatus

The pine sawyer beetle alters oviposition strategy in response to extreme high temperatures

Heat stress‐induced oviposition behavioral change correlates with sperm damage in the pine sawyer beetle, Monochamus alternatus

Contact Info

Product

Resources

About