Background <p>Phoretic mites and their carriers represent a dynamic system shaped by ecological and evolutionary processes. In highly specific phoresy, which involves long-term or permanent associations, profound consequences for phoretics, including cospeciation or the transition to phoretic parasitism, can occur. Mites within the complex of cryptic species of <i>Uroobovella nova</i> are carried exclusively on burying beetles (<i>Nicrophorus</i> spp.). Nevertheless, compared with the <i>Poecilochirus</i> mite-<i>Nicrophorus</i> system, this type of interaction remains poorly understood. In this study, we investigated whether different species of burying beetles play the same role in the local dispersal of <i>U. nova</i> deutonymphs. To achieve this, we compared the infestation patterns of deutonymphs among field-collected beetle species, while accounting for sex and body size.</p> Results <p>Our results revealed species-specific patterns in deutonymph infestations, with <i>Nicrophorus vespillo</i> being the most frequently infested species, followed by <i>N</i>. <i>humator</i> and <i>N</i>. <i>interruptus</i>. Furthermore, <i>Nicrophorus vespillo</i> and <i>N</i>. <i>humator</i> hosted the greatest number of deutonymphs, whereas in <i>N</i>. <i>interruptus,</i> the number of carried mites was significantly lower. The infestation pattern of <i>U. nova</i> demonstrated significant sexual bias, with males exhibiting higher mite prevalence and intensity than females. Interestingly, the variation in host body size was not a significant predictor of <i>U. nova</i> infestation. Although more mites were attached to the anterior than to the posterior parts of the beetle body in all the examined species, species- and sex-specific patterns in the distribution of deutonymphs were evident.</p> Conclusions <p>Species-specific infestation patterns indicate that, at the local scale, individual burying beetle species play different roles in the dispersal of <i>U</i>. <i>nova</i> mites. Sex-specific infestation patterns suggest that biological differences between females and males may be key determinants of deutonymph infestations. Body size does not drive the prevalence, intensity, or distribution of deutonymphs. The assumption that larger hosts carry more symbionts does not hold universally in ecology.</p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

Males have a greater mite burden than females, and size does not matter: species- and sex-specific infestation patterns of mites (Uropodina) on burying beetles (Nicrophorus spp.)

  • Daria Bajerlein,
  • Piotr Zduniak,
  • Aleksandra Wyszyńska,
  • Edward Baraniak,
  • Marek Przewoźny,
  • Tomasz Grzegorczyk,
  • Arkadiusz Urbański

摘要

Background

Phoretic mites and their carriers represent a dynamic system shaped by ecological and evolutionary processes. In highly specific phoresy, which involves long-term or permanent associations, profound consequences for phoretics, including cospeciation or the transition to phoretic parasitism, can occur. Mites within the complex of cryptic species of Uroobovella nova are carried exclusively on burying beetles (Nicrophorus spp.). Nevertheless, compared with the Poecilochirus mite-Nicrophorus system, this type of interaction remains poorly understood. In this study, we investigated whether different species of burying beetles play the same role in the local dispersal of U. nova deutonymphs. To achieve this, we compared the infestation patterns of deutonymphs among field-collected beetle species, while accounting for sex and body size.

Results

Our results revealed species-specific patterns in deutonymph infestations, with Nicrophorus vespillo being the most frequently infested species, followed by N. humator and N. interruptus. Furthermore, Nicrophorus vespillo and N. humator hosted the greatest number of deutonymphs, whereas in N. interruptus, the number of carried mites was significantly lower. The infestation pattern of U. nova demonstrated significant sexual bias, with males exhibiting higher mite prevalence and intensity than females. Interestingly, the variation in host body size was not a significant predictor of U. nova infestation. Although more mites were attached to the anterior than to the posterior parts of the beetle body in all the examined species, species- and sex-specific patterns in the distribution of deutonymphs were evident.

Conclusions

Species-specific infestation patterns indicate that, at the local scale, individual burying beetle species play different roles in the dispersal of U. nova mites. Sex-specific infestation patterns suggest that biological differences between females and males may be key determinants of deutonymph infestations. Body size does not drive the prevalence, intensity, or distribution of deutonymphs. The assumption that larger hosts carry more symbionts does not hold universally in ecology.