林业科学
林業科學
임업과학
SCIENTIA SILVAE SINICAE
2009年
10期
100-107
,共8页
钟景辉%张飞萍%江宝福%肖梅%陈家骅
鐘景輝%張飛萍%江寶福%肖梅%陳傢驊
종경휘%장비평%강보복%초매%진가화
松突圆蚧%耐寒性%寄主植物%过冷却点%低温暴露
鬆突圓蚧%耐寒性%寄主植物%過冷卻點%低溫暴露
송돌원개%내한성%기주식물%과냉각점%저온폭로
Hemiberlesia pitysophila%cold tolerance%host plant%supercooling point%exposure to low temperature
通过测定过冷却点和低温暴露试验,比较不同寄主松树上松突圆蚧的耐寒性.寄生黑松和马尾松松突圆蚧雌成虫的过冷却点比寄生湿地松和火炬松的显著较高,2类过冷却点的平均值相差0.9~2.3℃,但寄生黑松和马尾松的雌成虫之间、寄生湿地松和火炬松的雌成虫之间均无显著差异.寄生马尾松2龄性分化后雌若虫的过冷却点比寄生湿地松的显著较高(高2.08℃);而2龄性分化后雄若虫则无显著差异.寄生马尾松的初孵若虫、1龄若虫、2龄性分化前若虫、2龄性分化后雌若虫、2龄性分化后雄若虫、雌成虫及种群总体,对低温暴露致死的起始敏感温度和-20℃低温暴露的死亡率,均比寄生湿地松的相应虫态和种群总体更低;寄生马尾松松突圆蚧种群的致死中有效伤害低温累积(LSIT50)比寄生湿地松种群的低;2种寄主松树松突圆蚧各虫态及种群总体在低温暴露下死亡率的变化规律均符合改进后的双变量逻辑斯谛模型.研究结果说明:寄主松树能够影响松突圆蚧的过冷却点和低温暴露死亡率,寄生湿地松种群的耐寒性比寄生马尾松种群的弱.
通過測定過冷卻點和低溫暴露試驗,比較不同寄主鬆樹上鬆突圓蚧的耐寒性.寄生黑鬆和馬尾鬆鬆突圓蚧雌成蟲的過冷卻點比寄生濕地鬆和火炬鬆的顯著較高,2類過冷卻點的平均值相差0.9~2.3℃,但寄生黑鬆和馬尾鬆的雌成蟲之間、寄生濕地鬆和火炬鬆的雌成蟲之間均無顯著差異.寄生馬尾鬆2齡性分化後雌若蟲的過冷卻點比寄生濕地鬆的顯著較高(高2.08℃);而2齡性分化後雄若蟲則無顯著差異.寄生馬尾鬆的初孵若蟲、1齡若蟲、2齡性分化前若蟲、2齡性分化後雌若蟲、2齡性分化後雄若蟲、雌成蟲及種群總體,對低溫暴露緻死的起始敏感溫度和-20℃低溫暴露的死亡率,均比寄生濕地鬆的相應蟲態和種群總體更低;寄生馬尾鬆鬆突圓蚧種群的緻死中有效傷害低溫纍積(LSIT50)比寄生濕地鬆種群的低;2種寄主鬆樹鬆突圓蚧各蟲態及種群總體在低溫暴露下死亡率的變化規律均符閤改進後的雙變量邏輯斯諦模型.研究結果說明:寄主鬆樹能夠影響鬆突圓蚧的過冷卻點和低溫暴露死亡率,寄生濕地鬆種群的耐寒性比寄生馬尾鬆種群的弱.
통과측정과냉각점화저온폭로시험,비교불동기주송수상송돌원개적내한성.기생흑송화마미송송돌원개자성충적과냉각점비기생습지송화화거송적현저교고,2류과냉각점적평균치상차0.9~2.3℃,단기생흑송화마미송적자성충지간、기생습지송화화거송적자성충지간균무현저차이.기생마미송2령성분화후자약충적과냉각점비기생습지송적현저교고(고2.08℃);이2령성분화후웅약충칙무현저차이.기생마미송적초부약충、1령약충、2령성분화전약충、2령성분화후자약충、2령성분화후웅약충、자성충급충군총체,대저온폭로치사적기시민감온도화-20℃저온폭로적사망솔,균비기생습지송적상응충태화충군총체경저;기생마미송송돌원개충군적치사중유효상해저온루적(LSIT50)비기생습지송충군적저;2충기주송수송돌원개각충태급충군총체재저온폭로하사망솔적변화규률균부합개진후적쌍변량라집사체모형.연구결과설명:기주송수능구영향송돌원개적과냉각점화저온폭로사망솔,기생습지송충군적내한성비기생마미송충군적약.
The super cooling point (SCP) and mortality of the pine scale insect ( Hemiberlesia pitysophila) that hosted on four different pines of Pinus massoniana, P. elliottii, P. taeda and P. thunbergii were investigated when being exposed to a designated and regulated low temperature. Results showed that a significant effect of pines on SCP of female adults was observed, and the SCPs on P. massoniana and P. thunbergii were 0.9 ~ 2.3℃ higher than that on the other two pines. The mean SCP of the second instar female nymph on P. massoniana after sex differentiation was 2.08℃ higher than that on P. elliottii. However, a separate experiment showed no remarkable difference in the SCPs of the second instar male nymph after sex differentiation between on the two pines. Relations between low temperature and mortality of all insect developing stages and the populations on P. massoniana and P. ellwttii all exhibited a revised double-variable Logistic model. Nevertheless, the incipient sensitively low lethal temperature and mortality of these developing stages and the population exposed at - 20℃ were all lower on P. massoniana than that on P. elliottii. The semi-lethal sum of injurious temperature of the population was lower on P. massoniana than on P. elliottii. The results suggested that the SCP and mortality of Hemiberlesia pitysophila exposed to low temperature were significantly affected by host pines, and its cold tolerance on P. elliottii was lower than that on P. massoniana.
