松天牛小首螨的研究Ⅳ：环境及培养条件对寄生率的影响

doi:10.11707/j.1001-7488.LYKX20240249

摘要/Abstract

摘要：

目的: 松天牛小首螨是一种新发现的能够寄生并致死松褐天牛卵的天敌，研究环境条件对该螨寄生松褐天牛卵的影响，评估其在生物防治中的应用前景，为建立人工扩繁体系以及优化野外应用方法提供参考。方法: 通过室内饲养与控制试验，研究松褐天牛卵日龄、螨卵比、温度、湿度和光照等因素对松天牛小首螨寄生松褐天牛卵的影响，并利用随机森林回归模型，构建寄生率预测模型。结果: 1）在螨卵比5∶1、温度25 ℃、相对湿度（RH）85%以及光周期12 L∶12 D下，松天牛小首螨对松褐天牛初产卵的寄生率最高，达74.44%，显著高于产后第4 天卵的44.44%的寄生率；随着天牛卵日龄延长，寄生率显著下降。2）在螨卵比5∶1、温度25 ℃、光周期12 L∶12 D条件下，松天牛小首螨在RH 95%和 90%下，寄生率分别为93.33%和88%，显著高于RH 60%下的寄生率（30%）。3）在螨卵比4∶1、RH 85%、光周期12 L∶12 D条件下，松天牛小首螨在温度21 、25 和29 ℃条件下对松褐天牛卵的寄生率分别为75%、78.8%和83.3%，显著高于17 ℃和33 ℃条件下的10%和21.7%。4）在温度29 ℃、RH 85%、光周期12 L∶12 D条件下，螨卵比4∶1、6∶1和8∶1的寄生率分别为88.3%、83.30%和86.7%，显著高于螨卵比1∶1和2∶1时的36.67%和41.70%。5）在螨卵比为5∶1、温度为25 ℃、RH 85%条件下，光周期24 D、12 L∶12 D和24 L下，松天牛小首螨对松褐天牛卵的寄生率分别为92.50%、73.75%和68.75%，其中全暗环境的寄生率最高。6）随机森林回归模型对不同条件下的寄生率预测表现出较高的精度（MSE = 100.68，R2 = 0.83）。在初产卵、螨卵比为5∶1，温度范围为20~31 ℃、相对湿度高于93%且全暗的条件下，模型预测的寄生率达最大值。结论: 松褐天牛卵日龄、温度、湿度、光照以及螨卵比等环境因素均显著影响松天牛小首螨对松褐天牛卵的寄生率。在生物防治或天敌扩繁的实践中，建议设置螨卵比为5∶1及以上、温度为21~29 ℃、相对湿度高于90%和全暗的环境条件，以提升松天牛小首螨对松褐天牛卵的寄生率。

关键词: 松天牛小首螨, 松褐天牛, 寄生能力, 松材线虫病, 生物防治

Abstract:

Objective: Paracarophenax alternatus is a newly identified parasitic mite exhibiting parasitic efficacy against Monochamus alternatus eggs. This study aims to investigate the effects of environmental factors on the parasitism efficiency of P. alternatus, to evaluate its potential in biological control programs, to optimize artificial rearing systems, and to refine field application strategies. Method: An indoor feeding experiment under controlled laboratory conditions was conducted to assess the impacts of M. alternatus egg age (0–4 days post-oviposition), mite-to-egg ratios (1∶1–8∶1), temperature (17–33 ℃), relative humidity (RH: 60%–95%), and photoperiod (24L, 12L∶12D, 24D) on the parasitism rates of P. alternatus. A predictive model was developed using random forest regression analysis to quantify parasitism rates under varying environmental conditions. Result: 1） Under the conditions (mite-to-egg ratio 5∶1, 25°C, 85% RH, 12L∶12D), the parasitism rate of P. alternatus on newly laid eggs of M. alternatus was the highest, reaching 74.44%, significantly exceeded the parasitism rate of 44.44% on 4-day-old eggs of M. alternatus P<0.05), demonstrating that as the age of M. alternatus eggs increases, the parasitism rate significantly decreases. 2） Under the conditions (5∶1 mite-to-egg ratio, 25 ℃, and 12L∶12D), the parasitism rates of P. alternatus reached 93.33% and 88.00% at 95% and 90% RH, respectively, and were significantly higher than that of 30.00% at 60% RH (P<0.05). 3） Under the conditions (4∶1 mite-to-egg ratio and 85% RH), the parasitism rates of P. alternatus on the eggs of M. alternatu were 75%, 78.8%, and 83.3% at temperatures of 21 ℃, 25 ℃, and 29 ℃, respectively, and significantly (P<0.05) higher than those of 10% and 21.7% at 17 ℃ and 33 ℃. 4） Under the conditions (29°C, 85% RH, 12L∶12D, mite-to-egg ratios of 4∶1–8∶1), the parasitism rates of P. alternatus were 88.3%, 83.30%, and 86.7% at the mite egg ratios of 4:1, 6:1, and 8:1, respectively, and significantly higher than those of 41.70% and 36.67% at the mite egg ratios of 1∶1 and 2∶1 (P<0.05). 5） Under the conditions (mite egg ratio of 5:1, 25 ℃, and RH 85%, 24 D, 12 L: 12 D, and 24 L), the parasitism rates of P. alternatus at continuous darkness (24D) achieved the highest parasitism rate (92.50%), outperforming 12L∶12D (73.75%) and 24L (68.75%, P<0.05). 6） The random forest regression model exhibited robust accuracy (MSE = 100.68, R² = 0.83), and predicted the maximum parasitism rates (>90%) under conditions of freshly laid eggs, 5∶1 mite-to-egg ratio, 20–31 ℃, RH >93%, and 24D photoperiod. Conclusion: Egg age, temperature, humidity, photoperiod, and mite-to-egg ratio significantly influence the parasitism efficiency of P. alternatus on the eggs of M. alternatu. For optimal biological control or mass rearing, conditions should include mite-to-egg ratios ≥5∶1, temperatures of 21–29 ℃, RH ≥90%, and complete darkness. These findings provide critical insights for optimizing mass-rearing protocols and field deployment strategies to enhance the efficacy of P. alternatus in suppressing M. alternatus populations.

Key words: Paracarophenax alternatus, Monochamus alternatus, Bursaphelenchus xylophilus, parasitism rate, biological control

中图分类号:

S763.3

李俊楠,付煜,陈润恺,徐云,蔡梦玲,罗圣洁,张继峰,吴松青,张飞萍. 松天牛小首螨的研究Ⅳ：环境及培养条件对寄生率的影响[J]. 林业科学, 2025, 61(5): 161-170.

Junnan Li,Yu Fu,Runkai Chen,Yun Xu,Mengling Cai,Shengjie Luo,Jifeng Zhang,Songqing Wu,Feiping Zhang. Research on Paracarophenax alternatus Xu et Zhang Ⅳ—Effects of Environmental Factors on Parasitism Rate[J]. Scientia Silvae Sinicae, 2025, 61(5): 161-170.

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