纖麗瓢蟲對豆蚜的捕食功能反應

鄧嘉茹; 劉誌偉; 霍立誌; 孫龍華

doi:10.16768/j.issn.1004-874X.2024.11.011

纖麗瓢蟲對豆蚜的捕食功能反應

Predatory Functional Response of Harmonia sedecimnotata to Aphis craccivora

摘要

摘要:
目的明確纖麗瓢蟲（Harmonia sedecimnotata）對豆蚜（Aphis craccivora）的捕食能力，為纖麗瓢蟲田間防控豆蚜的應用提供理論依據。
方法以纖麗瓢蟲和豆蚜為研究對象，設置不同蟲態纖麗瓢蟲與不同密度梯度的高齡豆蚜組合，采用室內捕食的方法，結合數據模型擬合，明確纖麗瓢蟲各蟲態對豆蚜的捕食功能反應、搜尋效應和自身密度幹擾反應。
結果纖麗瓢蟲1~4齡幼蟲和雌雄成蟲對豆蚜的捕食功能反應均符合Holling Ⅱ模型，捕食量隨獵物密度增加而增加，且增加速率逐漸減小；1~4齡幼蟲和雌雄成蟲對豆蚜的瞬時攻擊率分別為0.824、0.808、1.364、1.139、1.499、1.626，處理時間分別為0.060、0.014、0.006、0.003、0.004、0.005 d，日最大捕食量分別為16.667、71.428、166.667、333.333、250.000、200.000頭；纖麗瓢蟲1~4齡幼蟲和成蟲的捕食能力由強到弱分別為4齡幼蟲、雌成蟲、雄成蟲、3齡幼蟲、2齡幼蟲和1齡幼蟲；幼蟲捕食量隨齡期升高而增加，4齡幼蟲的單頭獵物處理時間最短（0.003 d）、捕食能力最強（379.667）、日最大捕食量最高（333.333頭）。纖麗瓢蟲對豆蚜的搜尋效應隨獵物密度增加而降低，雌成蟲的搜尋效應均大於雄成蟲。纖麗瓢蟲自身密度對豆蚜的捕食作用影響符合Hassell模型，雌雄成蟲個體間存在種內幹擾，幹擾方程分別為E=0.465P^-0.515和E=0.366P^-0.505，平均捕食效率隨獵物密度增加而降低，分攤競爭強度隨獵物密度增加而升高，平均單頭捕食量隨捕食者密度增大而減少，當捕食者密度達5頭/ 皿時，纖麗瓢蟲雌雄成蟲捕食效率最低、分別為0.198和0.172，分攤競爭強度最大、分別為0.548和0.558。
結論纖麗瓢蟲對豆蚜具有較強的捕食能力，是豆蚜生物防治的重要天敵昆蟲，在實際應用中應根據豆蚜發生密度，采用適宜的纖麗瓢蟲蟲態和數量進行投放。

Abstract:
Objective The study was conducted to clarify the predation capacity of Harmonia sedecimnotata on Aphis craccivora, with a view to providing a theoretical basis for field control of A. craccivora by H. sedecimnotata.
Method H. sedecimnotata and A.craccivora were taken as experimental subjects. H. sedecimnotata at different stages and different density gradients of late instar nymphs of A.craccivora were prepared to determine the predatory functional response, search effect and intraspecific interference response of H.sedecimnotata to A.craccivora by indoor predation method and numerical model.
Result The predatory functional response of 1-4^th instar of larvae and adults of H. sedecimnotata conformed to Holling Ⅱ model. The predation amount increased with the increase of prey density. The instant attack rates (a) of 1-4^st larvae, female and male adults were 0.824, 0.808, 1.364, 1.139, 1.499, 1.626, the handling time (Th) were 0.060, 0.014, 0.006, 0.003, 0.004, 0.005 d, and the maximum daily predation amounts were 16.667, 71.428, 166.667, 333.333, 250.000 and 200.000, respectively. The predation capacity of 1-4^th instar larvae and adults of H. sedecimnotata ranked as (from strong to weak): 4^th instar, female adult, male adult, 3^rd instar, 2^nd instar and 1^st instar, respectively. The predation amount of larvae increased with the increase of age. For the 4^th larvae, the handling time (Th) was the shortest, the predation capacity(a/Th) was the highest, and the maximum daily predation was the highest. which were 0.003 d, 379.667 and 333.333 aphids, respectively. The search effect of H. sedecimnotata on A.craccivora was decreased with the increase of prey density. The search effect of female was greater than that of male. The effect of the H. sedecimnotata's density on the predatory effect of A. craccivora was consistent with the Hassell model. There was intraspecific interference among adult H.sedecimnotata, and the interference equations of female and male adults were E=0.465P^-0.515 and E=0.366P^-0.505, respectively. The average predation rate decreased with the increase of prey density, the intensity of scramble competition increased with the increase of prey density, and the prey killed by per predator decreased with the increase of predator density. When the predator density reached 5 individuals per plate, the predation rates of female and male adults was the lowest, which were 0.198 and 0.172, and the intensity of scramble competition was the highest, which were 0.548 and 0.558, respectively.
Conclusion H. sedecimnotata, with a strong predatory ability on the A. craccivora, is an important natural enemy in the biological control of A. craccivora. In practical application, suitable insect state and quantity should be adopted according to the occurrence density of A. craccivora.

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