Acta Entomologica Sinica

Research progress of the ecological adaptation mechanisms and control strategies of aphids in China

GUO Hui-Juan, CHEN Ya-zhou, SUN Yu-Cheng

2025, 68(10): 1313-1319. doi:10.16380/j.kcxb.2025.10.001

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Aphids (superfamily Aphidoidea) are a group of globally distributed piercing-sucking insects, of which there are approximately 5 000 species. Some species such as cereal aphids, the cotton aphid Aphis gossypii, and the peach-potato aphid Myzus persicae threaten agricultural and forestry production. Typically, aphids absorb sap from plant phloem that induces a reduction in crop photosynthate accumulation, and are capable of transmitting more than half of known plant viruses. Furthermore, parthenogenetic reproduction and wing dimorphism facilitate rapid expansion and habitat transfer for aphid population. The strong ecological adaptability of aphids is inextricably linked to the population outbreak and infestation. It remains challenging for developing precise and effective control technologies for aphids due to strong resistance to pesticides caused by short generation time and parthenogenetic reproduction of aphids, and the non-target pests for Bt crops. In recent years, Chinese scientists have made a series of breakthroughs in the aphid genome divergence, the regulation of wingform and reproductive plasticity, salivary protein-mediated mechanisms of feeding and virus transmission, and insect-microbe symbiotic co-adaptation, leading to the development of pest control technologies like RNAi-based breeding for aphid resistance and ecological control by natural enemies. In this article, we summarized the latest advancements in this field in China, outlined the core scientific contributions of included papers, and provided a forward-looking perspective on future research directions such as the functional analysis of salivary glands at the single-cell level, the mechanisms of non-persistent virus transmission, epigenetic regulatory networks, and pest control technologies based on insect-microbe symbiosis, aiming to provide theoretical and practical foundations for scientific research and aphid control.

Distribution of Banana bunchy top virus in the digestive system of the transmission vector Pentalonia nigronervosa (Hemiptera: Aphididae) and the virus presence in its honeydew

WANG Wei-Ying, WAN Wen-Qiang, JIA Dong-Sheng, ZHANG Hong-Xiang

2025, 68(10): 1320-1329. doi:10.16380/j.kcxb.2025.10.002

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【Aim】In order to more systematically reveal the transmission mode of banana bunchy top virus (BBTV) in the transmission vector Pentalonia nigronervos. 【Methods】Non-viruliferous P. nigronervos adults were allowed to acquire BBTV by feeding on infected plants of Musa acuminata AAA Groups, Cavendish cv. Baxi for 6, 12, 24, 36, 48 and 72 h. Then the expression levels of coat protein (CP) genes in these P. nigronervos adults were detected using PCR and qPCR to determine the virus acquisition time of non-viruliferous P. nigronervos. The distribution of BBTV in various tissues within the digestive system of P. nigronervos adults was observed through immunofluorescence detection and in situ hybridization, and the presence of BBTV in the honeydew of P. nigronervos and in Solenopsis invicta adults fed on this honeydew was detected by PCR.【Results】The expression of BBTV CP gene could be detected in P. nigronervos adults at 6 h after virus acquisition. Fluorescent labeling result indicated that BBTV was predominantly located in the anterior midgut (specifically in epithelial cells and circular muscles), accessory salivary glands, and excretory ostium of P. nigronervos adults. In situ hybridization result confirmed the presence of BBTV in the foregut, anterior midgut (epithelial cells), and principal salivary glands of P. nigronervos adults. PCR result revealed that the fragments of all six genetic components of BBTV could be detected in the honeydew secreted by viruliferous P. nigronervos as well as in S. invicta adults fed on this honeydew. 【Conclusion】A portion of BBTV acquired by P. nigronervos from banana bunchy top disease (BBTD) infected banana plants is transmitted in a persistent-nonpropagative circulative manner within the salivary glands, foregut, anterior midgut (epithelial cells and circular muscles), and excretory ostium of P. nigronervos adults. Conversely, another portion of BBTV is eliminated from the body of P. nigronervos in the form of honeydew. This study enhances our understanding of BBTV distribution in its transmission vector P. nigronervos and further confirms that BBTV spreads in its vector in a persistent-circulative manner. These findings are crucial for advancing research on the virus transmission mechanisms in P. nigronervos and for developing effective disease prevention and control strategies.

Effects of Cucumber mosaic virus infection on the defense responses of watermelon plants and the fitness of Aphis gossypii (Hemiptera: Aphididae)

ZHANG Yue, GUO Hong-Gang

2025, 68(10): 1330-1338. doi:10.16380/j.kcxb.2025.10.003

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【Aim】 This study aims to explore the effects of cucumber mosaic virus (CMV) infection on the aphid resistance of watermelon plants, with a focus on the roles of leaf epidermal resistance, mesophyll tissue resistance, and phloem resistance in regulating CMV-melon aphid (Aphis gossypii) interactions. 【Methods】 The differences in leaf epidermal resistance, such as the density of trichomes, wax content and stomatal number of the CMV-infected (CMV+) and CMV-non-infected (CMV-) watermelon plants were observed with microscope. The differences in the salicylic acid (SA) content, callose content, callose synthase activity and relative expression levels of phenylalanine ammonia-lyase gene ClPAL, pathogenesis-related protein gene ClPR, and callose synthase gene ClCalS7 in the leaves of CMV+ and CMV- watermelon plants were analyzed by high-performance liquid chromatography (HPLC), biochemical method, fluorescence spectrophotometry and real-time fluorescence quantitative PCR, respectively. Furthermore, the impact of CMV infection on the aphid fitness was determined by comparing the numbers of A. gossypii on the CMV+ and CMV- watermelon plants and analyzing their feeding behaviors via electrical penetration graph (EPG) in the laboratory. 【Results】 There were no significant differences in the leaf epidermal structural traits of CMV+ and CMV－ watermelon plants, including wax content in leaves, trichome number per mm² on the abaxial leaf surface and stomatal number per mm² on the abaxial leaf surface. However, CMV infection activated the SA pathway of watermelon plants, causing a 1.09-fold increase in SA content and a 4.77-fold up-regulation of the expression level of ClPR in watermelon leaves. CMV infection also increased the callose content in watermelon leaves by 2.51-fold and callose synthase activity by 3.07-fold, and significantly upregulated the expression level of ClCalS7 by 3.19-fold, respectively. Further experiments showed that CMV infection significantly reduced the number of A. gossypii by 46.14% and shortened the total duration of phloem feeding by 38.78%, while increased the number of potential drop (pd) waveform events by 54.30% and prolonged the total duration of saliva secretion by 31.48%. 【Conclusion】 Taken together, we speculated that CMV infection inhibited the feeding and population growth of A. gossypii by activating the SA signaling pathway and enhancing the callose deposition of watermelon plants, rather than altering the leaf epidermal structural traits. These findings revealed the key resistance pathways in regulating CMV-watermelon plant-melon aphid interactions, providing a scientific basis for understanding their co-evolutionary mechanisms and developing integrated management strategies against CMV and aphids.

Resistance monitoring of the field populations of Rhopalosiphum padi (Hemiptera: Aphididae) from the Guanzhong Region of Shaanxi Province, nothwestern China to pyrethroid insecticides and detection of the M918L mutation in the voltage-gated sodium channel gene

ZHANG Si-Qian, ZHANG Yu-Ying, GAO Ping, ZHOU Yu-Rong, PENG Xiong, WANG Kang, CHEN Mao-Hua

2025, 68(10): 1339-1350. doi:10.16380/j.kcxb.2025.10.004

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【Aim】 To ascertain the resistance levels of the field populations of Rhopalosiphum padi from the Guanzhong Region of Shaanxi Province, nothwestern China to five pyrethroid insecticides and analyze the correlations between the mutation frequencies of the voltage-gated sodium channel (VGSC) gene (the target gene of pyrethroid) of various field populations and resistance levels. 【Methods】Nine field populations of R. padi were collected from the Guanzhong Region of Shaanxi Province during April-June in 2023 and 2024 and the susceptibility of the apterous adults to five pyrethroid insecticides (bifenthrin, permethrin, lambda-cyhalothrin, deltamethyrin and fenvalerate) was tested by leaf-dipping method. PCR was used to detect the types and frequencies of VGSC gene mutation of various field populations of R. padi. The correlation between the mutation frequency and the resistance level (resistance ratio, RR) was analyzed. 【Results】Bioassay results revealed that the apterous adults of various field populations of R. padi exhibited varying degrees of resistance to five pyrethroid insecticides. The apterous adults of the population collected from Xingping County, Xianyang City in 2023 (XP-2023) showed the highest resistance levels to type Ⅰ pyrethroid insecticides (bifenthrin and permethrin), with the RRs of 76.1 and 52.3, respectively. The apterous adults of the populations collected from Fufeng County, Baoji City in 2024 and 2023 (FF-2024 and FF-2023) and the population collected from Liquan County, Baoji City in 2023 (LQ-2023) showed the highest resistance levels to type Ⅱ pyrethroid insecticides (lambda-cyhalothrin, deltamethrin and fenvalerate), with the RRs of 60.7, 97.5 and 42.6, respectively. Detection of VGSC gene mutations revealed that, except for the populations collected from Wugong County, Xianyang City and Qishan County, Baoji City, respectively, in 2023 (WG-2023 and QS-2023), all the field populations carried heterozygous mutation (M918L) in the VGSC gene, with the mutation frequencies ranging from 5.0% to 47.5%. The mutation frequency of M918L was significantly correlated with the level of resistance to pyrethroid insecticides. 【Conclusion】The M918L heterozygous mutation in the VGSC gene is significantly correlated with the resistance levels of the field populations of R. padi to pyrethroid insecticides, indicating that this target mutation plays an important role in the resistance of the field populations of R. padi to these insecticides. It is recommended to minimize or avoid the use of pyrethroid insecticides in field control of R. padi and to continuously monitor the resistance levels of field populations.

Monitoring of resistance of Sitobion avenae and Rhopalosiphum padi (Hemiptera: Aphididae) to six insecticides and field efficacy evaluation of eleven insecticides against wheat aphids in the wheat growing area of northwestern Shandong, North China

HAN Bing, WU Ming-Fei, PEI Yan-Ting, WANG Hong-Dong, LIU Wen-Hai, WANG Xiang-Jun, ZHAO Wen-Lu

2025, 68(10): 1351-1360. doi:10.16380/j.kcxb.2025.10.005

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【Aim】This study aims to master the occurrence patterns of aphids in the wheat growing areas of northwestern Shandong, North China, explore their resistance levels to commonly used insecticides, and evaluate the field control efficacy of these insecticides against wheat aphids, so as to provide theoretical support for rational insecticide application and resistance management in wheat aphid control. 【Methods】The resistance levels of the wingless adults of Sitobion avenae and Rhopalosiphum padi to six commonly used chemical insecticides of four categories［lambda-cyhalothrin (pyrethroid), imidacloprid, thiamethoxam and acetamiprid (neonicotinoids), pymetrozine (pyridine), and emamectin benzoate (semi-synthetic antibiotic)］ were determined using the residual film method in glass tube. Concurrently, the population dynamics of wheat aphids in the field in northwestern Shandong were monitored from 2022 to 2024. The field control efficacy of the above six chemical insecticides and five biopesticides (Bacillus thuringiensis, rotenone, matrine, azadirachtin and veratrine) against wheat aphids was evaluated in May 2023. 【Results】 Bioassay results indicated that S. avenae exhibited moderate levels of resistance to acetamiprid and imidacloprid, and the median lethal concentraltion (LC₅₀) values of acetamiprid and imidacloprid against the wingless adults of S. avenae in 3 h were 2.800 and 3.871 μg/cm², respectively. R. padi showed decreased sensitivity to acetamiprid and pymetrozine, moderate level of resistance to lambda-cyhalothrin，and high level of resistance to imidacloprid, and the LC₅₀values of acetamiprid, pymetrozine, lambda-cyhalothrin and imidacloprid against the wingless adults of S. avenae in 3 h were 0.022, 0.593, 3.065 and 2.782 μg/cm², respectively. Both aphid species remained sensitive to the other tested insecticides. Field surveys revealed a parabolic trend in aphid occurrence in the wheat growing area of northwestern Shandong, with peak populations typically observed in mid-to-late May followed by decline in aphid number. Field efficacy trials demonstrated that biopesticides generally exhibited lower control efficacy against wheat aphids than chemical insecticides. Thiamethoxam, lambda-cyhalothrin, acetamiprid, B. thuringiensis and rotenone exhibited rapid action, achieving >75% control efficacy against wheat aphids at 3 d after application, significantly higher than the other six agents. Thiamethoxam, pymetrozine, lambda-cyhalothrin and acetamiprid showed sustained control efficacy against wheat aphids (>85% at 10 d after application). Azadirachtin had slower initial action but good persistence, reaching 84.14% control efficacy against wheat aphids at 10 d after application. 【Conclusion】 Based on the aphid occurrence patterns and resistance levels in the wheat growing area of northwestern Shandong, controlling aphid populations during wheat heading and flowering stages is recommended. Rotational application of pyrethroid, neonicotinoid and pyridine insecticides is advised for wheat aphid management. Given their slower initial action but prolonged efficacy, pyridine insecticides should be applied during the early outbreak stage of aphids.

Effects of Cnidium monnieri planting on the conservation of natural enemy ladybirds and their aphid control effects in fields in wheat-maize rotation cropping system

LIANG Xiao-Yi, ZHANG Xing-Rui, ZHAO Chuan-Lin, YAN Li-Yuan, ZHANG Xiao-Ning, CHANG Chun-Yan, JIANG Xin, LI Zhuo, GE Feng

2025, 68(10): 1361-1371. doi:10.16380/j.kcxb.2025.10.006

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【Aim】 To elucidate the effects of Cnidium monnieri on ladybird conservation and aphid control during the whole growth period of wheat and maize. 【Methods】 The occurrence amounts of ladybirds and aphids in wheat and maize fields with C. monnieri planted and the control with pure crops planted were systematically investigated and counted by visual observation throughout the year, and the spatio-temporal correspondence between ladybirds and aphids was clarified. 【Results】 Planting C. monnieri significantly increased the occurrence amounts of natural enemy ladybirds in wheat and maize fields, which in turn significantly reduced the occurrence amount of aphids. In 2020 and 2022, the peak numbers of ladybirds in wheat fields with C. monnieri planted were 25.33 and 9.00 individuals/m², respectively, which were significantly higher than those in the control wheat fields (11.73 and 5.33 individuals/m², respectively). Concurrently, the peak total numbers of aphids in wheat fields with C. monnieri planted were 786.00 and 817.33 individuals/100 plants, respectively, which were significantly lower than those in the control wheat fields (932.67 and 1 133.33 individuals/100 plants, respectively). During the same period, the peak numbers of ladybirds in maize fields with C. monnieri planted were 77.53 and 109.33 individuals/100 plants, respectively, which were significantly higher than those in the control maize fields (50.67 and 77.33 individuals/100 plants, respectively). In 2020, no significant difference was shown in the peak number of Rhopalosiphum maidis in maize fields between treatment and the control. However, on one week after the peak period of R. maidis, the individual number of R. maidis per 100 plants in maize fields with C. monnieri planted was 2 209.33, significantly lower than that in the control maize fields (5 926.67). In 2022, the individual number of R. maidis per 100 plants in maize fields with C. monnieri planted was 13 533.30, significantly lower than that in the control maize fields (30 600.00). 【Conclusion】 Planting C. monnieri in wheat-maize rotation cropping system can conserve natural enemy ladybirds throughout the year, effectively suppressing the occurrence of wheat aphids and R. maidis, thereby exerting a good ecological pest control effect.

Ecological adaptation of the yellow morph of Acyrthosiphon pisum (Hemiptera: Aphididae): Comparative analyses with the red and green morphs

LI Yang, ZHANG Yu-Ling, JING Shi-Yi

2025, 68(10): 1372-1383. doi:10.16380/j.kcxb.2025.10.007

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【Aim】In recent years, extreme weather events have increased markedly in frequency in China and globally, with many regions experiencing substantially prolonged periods of elevated summer temperatures. During field surveys, we unexpectedly discovered a rare wild yellow morph of Acyrthosiphon pisum, but its biological characteristics remain uncharacterized. This study aims to investigate the ecological adaptability and survival risks of this novel color morph of A. pisum under intensified climate change, with the goal of providing a theoretical foundation for elucidating the evolutionary mechanisms of A. pisum and informing future population management and biological control strategies.【Methods】The competitive abilities of the wild yellow morph of A. pisum against those of the red and green morphs of A. pisum on three host plants (Vicia faba, Vicia sativa, and Medicago sativa) were first compared, and the starvation tolerance of apterous viviparous adults across all the three morphs of A. pisum under conditions of food deprivation were evaluated. The three color morphs of A. pisum were subsequently subjected to repeated high-temperature stress (35 ℃ for 2 h per day until adult stage) beginning at the 1st instar nymphal stage, and the changes in their population decline rates and fecundity were detected at the adult stage. Finally, the predation risk of the 3rd instar nymphs of each color morph of A. pisum by adult female Coccinella septempunctata was assessed, and the color differences (ΔE) between the body surfaces of the 3rd instar nymphs of various morphs of A.pisum and the leaves of V. faba leaves were analyzed.【Results】The yellow morph of A. pisum showed significantly lower competitive abilities than the red and green morphs of A. pisum on V. faba and M. sativa, but occasionally attained a competitive advantage over the red morph of A. pisum on V. sativa. Compared with the other color morphs of A. pisum, the yellow morph of A. pisum demonstrated greater starvation tolerance. After heat shock treatment (35 ℃ for 2 h per day), the numbers of aphids produced by the yellow morph of A. pisum in 6 d on its native host V. sativa and the high-nutrient host V. faba were 23.83 and 31.67 individuals, respectively, which represented relatively low values as compared with those of the other two morphs of A. pisum. Specifically, these values were lower than those observed in the green morph of A. pisum on V. sativa and the red morph of A. pisum on V. faba (28.67 and 41.67 individuals, respectively). In contrast to its disadvantage in fecundity, the yellow morph of A. pisum exhibited population decline rates of 32.78% and 26.11% on V. sativa and V. faba, respectively, after heat shock treatment, both of which were lower than those recorded for the red morph of A. pisum (67.22% and 38.89% on V. sativa and V. faba, respectively) and the green morph of A. pisum (44.43% and 42.22% on V. sativa and V. faba, respectively). The color difference (ΔE) between the body surfaces of the 3rd instar nymphs of the yellow morph of A. pisum and the leaves of V. faba was 52.26, significantly greater than those between the body surfaces of the 3rd instar nymphs of the red morph of A. pisum and the leaves of V. faba (37.69), and between the body surfaces of the 3rd instar nymphs of the green morph of A. pisum and the leaves of V. faba (17.76). The yellow morph of A. pisum was more vulnerable to predation by C. septempunctata adults, with the population decline rates exceeding 49.00%.【Conclusion】The yellow morph of A. pisum exhibits distinct ecological adaptation strategies. Although the yellow morph of A. pisum is disadvantaged in competition and more vulnerable to predation, its enhanced starvation tolerance and thermal resistance may provide a fitness advantage under increasingly frequent extreme weather events.

Effects of diurnal temperature fluctuation and population density on the life history traits and population dynamics of Rhopalosiphum padi (Hemiptera: Aphididae)

XING Kun, ZHANG Ya-Zhi, WANG Si-Yu, XU Zhi-Ping, LI Wei-Wei, ZHAO Fei

2025, 68(10): 1384-1394. doi:10.16380/j.kcxb.2025.10.008

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【Aim】 As the main factors, the amplitude of temperature fluctuation and the change of population density affect life history traits and population dynamics of insects, and have received widespread attention. Previous studies have shown that there is a complex and significant interaction between temperature and population density, but most studies focus on constant temperature, which cannot reflect the effects of actual temperature changes in nature on insect populations. Therefore, we focused on Rhopalosiphum padi as one of major wheat pests worldwide in this study and explored the effects of temperature amplitudes and population density on the life history traits and population parameters of R. padi through the indoor simulation of field temperature fluctuations and population density. 【Methods】R. padi nymphs newly born within 4 h were treated under the conditions of different temperature amplitudes［(22±0), (22±6) and (22±12) ℃］ and population densities (1, 2, 4 and 8 individuals/tube), the development, survival, longevity and fecundity were observed daily, and the population parameters such as intrinsic rate of increase, net reproductive rate and generation time were calculated. 【Results】 At the low population density (1 individual/tube), compared with the constant temperature ［(22±0) ℃］, high temperature amplitude (22±12) ℃ prolonged the nymphal duration by 1.24 d, reduced the adult fecundity (total number of offspring produced per adult) by 19.1 individuals/adult, and decreased the intrinsic rate of increase and net reproductive rate by 0.10 d-1and 18.7, respectively, and prolonged the generation time by 1.86 d. Under the constant temperature ［(22±0) ℃］, compared with the low population density (1 individual/tube), the high population density (8 individuals/tube) reduced the adult fecundity by 24.2 individuals/adult, and the intrinsic rate of increase, net reproductive rate and generation time by 35.3 d-1, 0.05 and 0.22 d, respectively. As population density increased, the high temperature amplitude ［(22±12) ℃］ exerted a stronger inhibition effect on the nymphal development, intensively shortened the adult longevity, and intensively reduced the intrinsic rate of increase and net reproductive rate. However, high population density not only reversed some of the adverse effects of high temperature amplitude on the fecundity but also enhanced the nymphal survial. 【Conclusion】 The results of this study show the complex effects of temperature amplitude and population density on the life history traits and population dynamics of R. padi, suggesting that previous insect survival models based on constant temperature cannot accurately describe the real status of insects under temperature variations in nature. The results will improve the accuracy of predicting and forecasting the population dynamics of field pests and formulating control strategies under climate change.

Effects of two uridine diphosphate-glycosyltransferase inhibitors on the reproduction switch of Rhopalosiphum padi (Hemiptera: Aphididae) with holocyclic life history

WANG Su-Ji, HUANG Wen-Jie, WANG Ni, LI Meng-Tian, PENG Xiong, CHEN Mao-Hua

2025, 68(10): 1395-1404. doi:10.16380/j.kcxb.2025.10.009

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【Aim】 Uridine diphosphate-glycosyltransferases (UGTs) are important detoxification enzymes in insects, playing important roles in various biological processes. In China, Rhopalosiphum padi has two main life history types: holocyclic i. e. cyclical parthenogenesis (CP) and anholocyclic i. e. obligate parthenogenesis (OP). In R. padi lineages with CP life history, the parthenogenetic individuals can switch from asexual reproduction to sexual reproduction, while the R. padi lineages with OP life history do not undergo reproduction switch and reproduce exclusively through parthenogenesis throughout the year. This study aims to explore the roles of UGTs in the reproduction switch of R. padi with CP life history using two UGT inhibitors (5-nitrouracil and sulfinpyrazone). 【Methods】 After injecting two UGT inhibitors (5-nitrouracil and sulfinpyrazone)(5×10^-10 mol/individual) into wingless adults from the lineage of R. padi with CP life history, the changes in UGT contents in the aphids were measured, and the numbers of virginoparae, gynoparae and males produced by cyclical parthenogenetic R. padi adults, and the start time, end time and total time of producing virginoparae, gynoparae and males were observed and analyzed. 【Results】 The UGT contents in the wingless adults of R. padi injected with 5-nitrouracil and sulfinpyrazone were significantly lower than those in their corresponding controls (injected with ddH₂O and acetone, respectively), reduced by 35.06 and 33.98 ng/L, respectively. The individual numbers of virginoparae and gynoparae in the offspring significantly decreased by 21.00 and 20.00, when the wingless adults of R. padi were injected with 5-nitrouracil, while the individual numbers of virginoparae and males in the offspring significantly decreased by 16.10 and 6.70, when the wingless adults of R. padi were injected with sulfinpyrazone. Both inhibitors significantly delayed the start time of producing gynoparae by 1.30 d, compared to the control. Injection of 5-nitrouracil had no significant effect on the start time of producing males, while injection of sulfinpyrazone significantly delayed the start time of producing males by 2.10 d, compared to their corresponding controls. Injection of 5-nitrouracil and sulfinpyrazone both significantly advanced the end time of producing virginoparae by 2.10 and 3.20 d, respectively, and significantly delayed the end time of producing gynoparae, compared to their corresponding controls. Both UGT inhibitors significantly shortened the total time of producing virginoparae but had no significant effect on the total time of producing males, compared to their corresponding controls. Injection of 5-nitrouracil did not significantly affect the total time of producing gynoparae, whereas injection of sulfinpyrazone significantly prolonged the total time of producing gynoparae, compared to their corresponding controls. 【Conclusion】 UGTs may play an important role in the reproduction switch of R. padi with holocyclic life history.

Distribution and feeding behaviors of Semiaphis heraclei (Hemiptera: Aphididae) on the adaxial and abaxial leaf sides of Lonicera japonica (Caprifoliaceae) and the control efficacy of imidacloprid and pyrethrin applications

YANG Tian, WANG Ting-Ting, JING Tian-Hua, GUO Kun, XU Chang-Qing

2025, 68(10): 1405-1415. doi:10.16380/j.kcxb.2025.10.010

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【Aim】 This study aims to clarify the distribution pattern and feeding behaviors of Semiaphis heraclei on the adaxial and abaxial sides of Lonicera japonica leaves, and explore the control efficacy of spraying pesticides on the adaxial and abaxial sides of L. japonica leaves against S. heraclei, so as to provide a scientific basis for optimizing the control strategies of S. heraclei. 【Methods】 From April to May 2023, the occurrence amounts of S. heraclei on the adaxial and abaxial sides of L. japonica leaves at different leaf positions in the experimental field in Beijing were investigated every 5 d, the electrical penetration graph (EPG) technique was used to record the feeding behaviors of the 1-3-day-old adults of S. heraclei on the adaxial and abaxial sides of mature L. japonica leaves aged 30 d, and 0.027 mg/cm² imidacloprid and 0.020 mg/cm² pyrethrin were sprayed on the adaxial and abaxial sides of mature L. japonica leaves aged 30 d, respectively, and the mortality rates of the 1-3-day-old adults of S. heraclei on leaves were determined. 【Results】 S. heraclei adults were distributed on the adaxial side of L. japonica leaves at the first leaf position early and later shifted to the abaxial side. The abaxial sides of the middle part of almost all leaves consistently had significantly higher aphid numbers than the adaxial leaf sides throughout. A small number of aphids were found on individual leaves of basal leaf position, primarily on the abaxial leaf side. When S. heraclei adults fed on the abaxial leaf side of L. japonica, the probability of occurrence of aphid’s stylet salivation waveform in the phloem (E1 waveform) was significantly higher than that on the adaxial leaf side, being 2.00-fold as high as that on the adaxial leaf side, the total duration of E1 waveform was significantly longer than that on the adaxial leaf side, being 3.24-fold as long as that on the adaxial leaf side, and the probability of occurrence of phloem sap ingestion waveform (E2 waveform) was 2.25-fold as high as that on the adaxial leaf side. When S. heraclei adults fed on the xylem on the abaxial leaf side of L. japonica, the probability of occurrence of xylem sap ingestion waveform (G waveform) was significantly higher than that on the adaxial leaf side, being 1.29-fold as high as that on the adaxial leaf side, and the total duration of G waveform was significantly longer than that on the adaxial leaf side, being 2.00-fold as long as that on the adaxial leaf side, while the total duration of E2 waveform of S. heraclei adults fed on the adaxial and abaxial leaf sides exhibited no significant difference. The control efficacy of spraying 0.027 mg/cm² imidacloprid and 0.020 mg/cm² pyrethrin on the abaxial leaf side against S. heraclei adults was significantly higher than that on the adaxial leaf side, causing the corrected mortality rates of S. heraclei on the abaxial leaf side to be 2.00 and 1.79-fold as high as those on the adaxial leaf side, respectively. 【Conclusion】 S. heraclei adults are mainly distributed and cause damage on the abaxial side of L. japonica leaves, where it is more favorable for them to absorb water, and the control efficacy of spraying pesticides on the abaxial side of L. japonica leaves against S. heraclei adults is higher than that on the adaxial side.

Host selection behaviors and propagation of Myzus persicae (Hemiptera：Aphididae) on six Brassica napus cultivars with different glucosinolate and erucic acid contents

LI Lin-Kui, XIONG Zhen-Hong, LIAO Jia-Li, DENG Lin, WU Yu, ZENG Ling-Jiao, ZHANG Meng-Ni, SHAMA Wu-Jia, TIAN Mi

2025, 68(10): 1416-1425. doi:10.16380/j.kcxb.2025.10.011

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【Aim】 Brassica napus is one of the most important oilseed crops, and the average planting area is relative large in many provinces in China. Glucosinolate is the specific secondary metabolite in Brassicaceae plants. This study aims to ascertain whether the B. napus seeds with different glucosinolate and erucic acid contents affect the host location and propagation of pests on B. napus leaves. 【Methods】 Leaf-disc bioassay, cage experiment, and Y-tube olfactory test were used to analyze the host selection preference of Myzus persicae on six B. napus cultivars ［the high erucic acid-high glucosinolate cultivar ZY821 (control), and the low erucic acid-low glucosinolate cultivars (double-low cultivars) including ZS11, XN18, AGY558, AYK999 and MXY78］, and potted plant test was used to observe and determine the changes in individual number of M. presicae on plants of different B. napus cultivars. 【Results】There were no significant differences in the numbers of M. persicae adults and newborn nymphs on the six B. napus cultivars in cage experiment. In leaf-disc choice bioassay, more M. persicae adults fed on leaves of XN18 ［(25.50±2.21) individuals］ and ZS11 ［(24.70±1.57) individuals］, which were higher than the numbers of M. persicae adults on ZY821, AGY558, MXY78 and AYK999 leaves［(20.90±3.56), (14.80±1.78), (16.60±2.43) and (19.50±1.12) individuals, respectively］. In Y-tube olfactory test, M. persicae adults did not show host selection preference for six B. napus cultivars. In potted plant test, there was no significant difference in the total individual number of M. persicae after ten adults were released on plants of six B. napus cultivars on the 7th and 14th day. On the 21st day, the total individual numbers of M. persicae on plants of five double-low B. napus cultivars ZS11, XN18, AGY558, AYK999 and MXY78 (244.50±15.39, 235.67±50.60, 163.60±28.67, 237.40±16.57 and 237.20±12.35), respectively］ were higher than that in the control group［ZY821: (156.00±35.12)］, but the total individual number of M. persicae on ZS11 plants was significantly higher than that on ZY821 plants. 【Conclusion】 Double-low B. napus cultivars can affect the population dynamics of M. persicae at the seedling stage, but they have relatively limited effects on the host location behavior of M. persicae.

Sequencing and phylogenetic analysis of the complete mitochondrial genomes of Chaitophorinae (Hemiptera: Aphididae)

LI Cai-Ling, JIANG Li-Yun, QIAO Ge-Xia, CHEN Jing,

2025, 68(10): 1426-1437. doi:10.16380/j.kcxb.2025.10.012

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【Aim】 This study aims to sequence the complete mitochondrial genomes of representative species of Chaitophorinae, so as to analyze the mitochondrial genome architecture and explore the phylogenetic relationships of Chaitophorinae.【Methods】High-throughput sequencing of five species (Chaitophorus populeti, Chaitophorus populifolii, Chaetosiphella stipae, Periphyllus lyropictus and Sipha flava) from four genera within Chaitophorinae was performed using Illumina platform, mitochondrial genome assembly and annotation were then carried out. Comparative analyses were conducted along with previously reported Chaitophorinae mitochondrial genomes of six species (Periphyllus diacerivorus, Periphyllus koelreuteriae, Chaitophorus saliniger, Chaetosiphella stipae, Periphyllus acerihabitans and Laingia psammae) from four genera in NCBI. Phylogenetic trees were reconstructed for Chaitophorinae and its relatives based on 37 gene sequences of 27 complete mitochondrial genomes using maximum likelihood (ML) approach and Bayesian inference (BI). 【Results】 The mitochondrial genomes of Chaitophorinae are 15 787-17 770 bp in size, including 13 protein-coding genes (PCGs), 22 tRNA genes, 2 rRNA genes, a non-coding control region, and a non-coding repeat region. No gene rearrangement was observed. The nucleotide composition of the Chaitophorinae mitochondrial genomes displays a strong bias toward A+T. All PCGs initiate with standard ATN codons. cox1 and nad4 terminate with T--, except for cox1 in Periphyllus lyropictus, which terminates with TAA, and other PCGs use TAA or TAG as stop codons. atp8 has undergone positive selection and displays the fastest evolutionary rate, whereas cox1 exhibits the slowest evolutionary rate. Except for trnSAGN, which lost the dihydrouridine (DHU) arm, all tRNA genes can form the typical clover-leaf secondary structures. The control region located between rrnS and trnI varies in length from 606 to 1 710 bp, and some species of Chaitophorinae contain repeat sequences in this region. The repeat region situates between trnE and trnF, ranging from 544 to 1 876 bp in length and is composed of species-specific repeat units. The structural composition of the repeat sequences within the control region and the repeat region differs, and the sequence similarity of the repeat units within these two regions is low. Phylogenetic analyses supported the monophyly of Chaitophorinae and its two tribes, Siphini and Chaitophorini. Within Siphini, Sipha flava was placed at the most basal position of this clade. Within Chaitophorini, the monophyletic Chaitophorus and Periphyllus formed a sister group.【Conclusion】In this study, the complete mitochondrial genomes of representative species of Chaitophorinae were sequenced and analyzed. All examined species have the species-specific repeat region between trnE and trnF, which may be a common feature of the Chaitophorinae mitochondrial genomes. Mitochondrial genomes are effective in resolving the phylogenetic relationships within Chaitophorinae. Our study provides valuable molecular data resources for a better understanding of the characteristics of Chaitophorinae mitochondrial genomes, as well as the phylogenetic relationships and evolutionary history of this group.

Research progress on aphid symbiont diversity

QIN Man, JIANG Li-Yun, QIAO Ge-Xia, CHEN Jing

2025, 68(10): 1438-1453. doi:10.16380/j.kcxb.2025.10.013

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Mutualism between microorganisms and animals plays a crucial part in the adaptation and evolution of hosts. Phloem-feeding aphids engage in intimate symbiotic associations with a variety of symbionts. Many aphid species cause enormous damage to crops, fruit trees, forest trees and medicinal plants, and some of them are important worldwide quarantine pests. Studies on aphid symbionts will advance our knowledge of symbiotic relationships between organisms and provide theoretical guidance for green pest management. Almost all aphid species harbour the primary symbionts to supply nutrients such as essential amino acids and vitamin B lacking in their diets. Secondary symbionts are closely related to the ecological adaptation of aphids. In this review, we outlined the species, tissue localization, transmission modes, and functions of aphid symbionts, and systematically summarized the species composition of symbiont communities in different groups of Adelgidae, Phylloxeridae and Aphididae. To date, most studies on aphid symbiont diversity have focused on different biotic and abiotic factors influencing the symbiont community structure, including aphid species, biological characteristics, evolutionary history, host plants, geographical distribution, and environmental factors (e.g., temperature). In the future, research should undertake extensive surveys of symbiont diversity across a greater variety of aphid taxa, enhance attention to gut symbionts, explore the relative contributions of stochastic and deterministic processes in the assembly of aphid symbiont communities, identify core symbionts and their biological functions, and focus on the potential application of key symbionts in RNAi-based biopesticides, so as to facilitate the development of efficient and environmentally friendly aphid pest management strategies.

Adaptation, evolutionary changes and functions of the primary endosymbiont Buchnera in aphids

LING Xiao-Yu, DI Jian, GUO Hui-Juan, SUN Yu-Cheng

2025, 68(10): 1454-1464. doi:10.16380/j.kcxb.2025.10.014

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Aphids, a group of widely distributed piercing-sucking insects, rely on the symbiotic relationship with the primary endosymbiont Buchnera to acquire essential nutrients for survival and reproduction. During the long-term coevolution, aphids have developed specialized bacteriocytes to mediate nutrient exchange with Buchnera while avoiding immune activation. This intracellular symbiosis is maintained through vertical transmission dependent on endocytosis and exocytosis mechanisms, ensuring persistent infection of Buchnera within aphid populations. However, the stable nutrient supply in endosymbiotic environment leads to extensive genome degeneration in Buchnera. On the one hand, the systematic loss of genes related to redundant nutrient metabolism and environmental stress response has resulted in the loss of over 90% of the genes of Buchnera genomes, leading to drastic genome reduction. On the other hand, the physical barrier formed by bacteriocytes prevents Buchnera from acquiring new genes from external bacteria, at the same time, the absence of key genes involved in DNA repair leads to the loss of mutation repair ability. These factors collectively result in extreme AT content and continuous functional gene loss in the genome of Buchnera. The genomic degeneration of Buchnera compromises its metabolic functions, manifesting as reduced essential amino acid synthesis, loss of key genes involved in inorganic salt metabolism, and dysregulation of heat shock protein expression. These deficiencies accelerate aphid speciation and reduce their adaptability under heat stress. To compensate for these obligate symbiotic constraints, aphids employ strategies such as acquiring secondary symbionts or replacing primary symbionts. Some lineages have even evolved dual primary symbionts, alleviating adverse effect of genomic degradation through functional complementation. In this review, we summarized the evolutionary paradox in aphid-Buchnera symbiosis. Although the degeneration of Buchnera genome improved the efficiency of nutrient supply, it restricted the adaptation of aphid hosts to the environmental changes. We further proposed novel compensatory strategies developed by aphids to overcome obligate symbiotic constraints, offering new perspectives for understanding relationship between insects and endosymbionts, and laying theoretical foundations for aphid control strategies targeting symbionts.

Contents of Vol. 68 Issue 10

2025, 68(10): 1465-1465.

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