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<正> 杨圆蚧Quadraspidiotus gigas(Thiemet Gerneck),属于同翅目Homoptera、盾蚧科Diaspididae、圆盾蚧亚科Aspidiotinae、广盾蚧属Quadraspidiotus刺吸类害虫。杨圆蚧分布较广泛,分布于中国、前苏联、意大利等国家;在东北三省、内蒙、山西等省已严重成灾,主要危害杨、柳科树种,它是我国森林植物检 相似文献
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对杨圆蚧的生物学特性及防治技术进行了较为系统的研究。并阐述了杨圆蚧的世代重叠是由于有28.25%的成虫延期产卵而造成的。树干的嫩皮凹陷处,人为或机械的碰撞处,以前蚧虫危害过而现在没有被研寄生处等是固定若虫最容易寄生的场所,杨圆蚧主要危害1-15年生的杨树,平均虫口密度可高达43.5头/cm^2。在我们研究的范围内发现,新疆杨,德杂杨,大官杨是抗扬圆蚧的品种。研究表明,对即将产卵的成虫进行防治,能起 相似文献
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红点唇瓢虫对杨圆蚧捕食作用的研究 总被引:4,自引:0,他引:4
红点唇瓢虫Chilocorus Kuwanae Silvestri是杨圆蚧的主要捕食性天敌。在我国分布范围广,捕食能力强,对蚧虫种群数量有明显的控制作用。但过去尚未有过该虫对我国北方主要蚧虫捕食作用的系统研究。为了正确评价红点唇瓢虫对杨圆蚧的功能反应,我们于1989~1991年进行了此项研究。并通过捕食功能反应试验,寻找出红点唇瓢虫对猎物杨圆蚧的最佳捕食量,为蚧虫生物防治提供理论依据。 相似文献
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林木检疫对象杨圆蚧Quadraspidiotus gigas(Thiem et Gemeck)近年来在我国部分地区相继发生严重为害,而且在有些地区还与其近缘种梨圆蚧Quadra-spidiotus perniciosus(Comstock)交错分布,这两种蚧虫在其分布区内有着共同的寄主,对各种杨树的为害程度因品种而异。 相似文献
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杨圆蚧是近年来我国北方地区杨树人工林毁灭性害虫之一。主要危害中东杨,小叶杨,发生区的树干上部,虫口密度每平方厘米平均达36.5头.1年发生1代,若虫期雌雄均各为2龄,成虫于5月中旬羽化,雌雄性比为1:0.3。此文研究了各虫期起迄日期、发育进度、发育所需要天数,从而可以对成虫发生盛期、产卵盛期、初孵若虫盛期进行预报。杨圆蚧重要天敌红点唇瓢虫日平均捕食量为31.9头(成虫);蚜小蜂寄生率平均为20.5%。用化学药剂石硫合剂及氧化乐果防治初孵若虫,校正死亡率分别为95.2%及76.3%。 相似文献
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杨圆蚧种群空间分布情况调查 总被引:1,自引:0,他引:1
通过对三块不同虫口密度样地杨圆蚧空间分布情况的调查,发现杨圆蚧的种群空间分布是不确定的:当虫口密度较低时,其分布呈均匀分布,当虫口密度处于中等水平,其分布呈聚集分布,当虫口密度较高时,其分布近似于随机分布 相似文献
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杨笠圆盾蚧的研究 总被引:1,自引:0,他引:1
杨盾蚧类,首先发生于新疆,现已由甘肃、青海、宁夏、陕西、山西、内蒙扩至东北地区,毁灭成片的杨树林,在全国受害面积约三千万亩以上,严重地影响了“三北”防护林的建设。我省从七十年代后期才逐渐引起重视。杨盾蚧是一个统称,共有三属八种。据初步调查,在我省寄生于杨树的有两种,即杨笠圆盾蚧(Quadraspidiotus Perniciosus Comst)及杨圆蚧(Q.gigas Thiem et Gerneck)。本文系对杨笠圆盾蚧进行的研究报告。该种属同翅目(Homoptera)盾蚧科(Diaspididae)笠圆盾蚧属(Quadraspidiotus)通称杨笠圆盾蚧,也叫杨盾蚧、杨干蚧、杨圆蚧、树虱子等。由于该虫的虫体甚小,危害初期不易发现,因而常被人们忽视。迄今为止,国内尚未见关于该虫危害杨树的详细研究报告。我们从1979~1980年对其生活史、生活习性进行了观察及各种药剂防治的研究,现将结果整理如下: 相似文献
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杉木营养平衡与苗木干物质的分配关系 总被引:6,自引:3,他引:6
详细研究了不同营养 (N、P、NP)条件下杉木苗木干物质在根冠的分配规律 ,结果表明 ,不同的营养条件可导致苗木光合产物在根冠发生明显再分配 ,苗木的营养状态和根冠干物质分配的关系规律可应用异速生长模型y =axk 来描述和刻划。基于营养与光合产物在根冠的再分配规律及异速生长模型参数k值对营养胁迫反应的敏感性变化规律 ,提出了新的营养平衡理论和营养诊断方法 (称之为苗木群体营养诊断法 )。营养诊断法则为 :(1)在某一营养条件下 ,如果苗木异速生长模型参数k <1时 ,表明根系相对生长速率高于冠层相对生长速率 ,苗木处于营养亏缺状态 ;(2 )当k >1时 ,表明苗木冠层相对生长速率高于根系 ,苗木处于营养过剩状态 ,一般在自然条件下 ,k >1是不会出现的 ;(3)当k =1时 ,表明根系和冠层相对生长速率相等 ,苗木处于营养平衡状态。根据新的营养诊断方法 ,制定了杉木叶片和土壤营养诊断标准 ,并通过大量的杉木幼、中、近熟林施肥试验结果验证了营养平衡理论的正确性。 相似文献
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黄土沟坡刺槐林地土壤水分垂直变化的数学模型 总被引:5,自引:0,他引:5
2004,2005年4-10月,在位于黄土高原半湿润水分生态区的陕西省长武县,采用中子仪对刺槐人工林土壤水分垂直变化进行监测,运用隔室模型和2004年的实测数据建立降水在土壤中的入渗平衡模型:WC=a(e-kh-1)+c(1-e-k1h)+f,其中a>0,c>0,f>0,k1>k>0,k1和k分别为土壤入渗水的吸附速率和衰减速度.k,k1在特定取值条件下,模型可表达黄土高原刺槐林下不同的土壤水分生态环境.采用2005年5月实测数据对模型的拟合验证结果表明:拟合优度R2符合统计学要求,能很好地反映刺槐人工林地土壤水分垂直变化特征. 相似文献
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Dr. G. Santharam D. Rose Victoria R. J. Rabindra S. Jayaraj 《Journal of pest science》1994,67(5):103-106
Results of two field experiments, one on SA 1 pigeonpea in rainfed and the other on Co.5 pigeonpea in irrigated conditions revealed thatBacillus thuringiensis var.kurstaki (B.t.k.) (Delfin), its combinations with nuclear polyhedrosis virus ofHeliothis armigera andChrysoperla carnea were as effective as endosulfan in reducing the pod borers,Heliothis armigera andExelastis atomosa. However,B.t.k. 1.25 kg+endosulfan 175 g/ha orB.t.k. 2.5 kg+HaNPV, 250 LE/ha gave better control of damage to flowers and pods thanB.t.k. applied alone on SA 1 pigeonpea. The yield differences between these treatments were not significant. A combination of HaNPV 250 LE/ha+endosulfan 175 g/ha was superior toB.t.k. Similar trend was seen on Co.5 pigeonpea. Release ofC. carnea second instar larvae 1 lakh/ha was not effective in increasing the yield of pigeonpea. 相似文献
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An analysis is made of the animal stocking rate used in commercial Pinus caribaea plantations 2.5–8.5 yr old. Pines were planted at 2.5 × 2.5 m and programmed for clear-cut harvest at 10 yr rotations (pulpwood). Cattle grazing was introduced to reduce weeding costs.Stocking rate in 1983–1985 was 0.67 AU/ha/yr (AU = animal units 350 kg live weight). A quadratic model calculated using 1984 data (S = 0.0108 + 0.385A–0.0418A2) describes the relationship between animal stocking rate (S) and stand age (A 9.5 in yr).The model predicts a maximum of 0.89 AU/ha/yr at plantation age 4.5 yr. Grazing started at plantation ages 2.5 yr; no plantations older than 9.5 yr are grazed. 相似文献
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Barclay HJ 《Tree physiology》1998,18(3):185-193
Three definitions of leaf area index (LAI) in the literature have no predictable relationship with each other. Factors were derived for converting total LAI to projected LAI of horizontal leaves and to projected LAI for inclined leaves of lodgepole pine (Pinus contorta Dougl. var. latifolia Engelm.) and coastal Douglas-fir (Pseudotsuga menziesii (Mirb.) Franco) to allow comparison of results from different studies. An algorithm was derived to allow determination of these factors based on twig angles and the angles that the foliage subtends with the twig. Allowances were made for both the vertical and horizontal components of projection. The value of the factor for converting total LAI to projected LAI for inclined leaves was 0.229 + 0.0032 for lodgepole pine and 0.230 + 0.0037 for Douglas-fir. Sensitivity analysis established that this conversion factor was more sensitive to differences in vertical angles of the twigs than to twig rotation or foliar arrangement on the twig. 相似文献
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松针内含物与马尾松毛虫生存发育关系的研究 总被引:10,自引:4,他引:10
本文用不同松树松针饲养马尾松毛虫,其结果与松针内含物的关系,经计算得出累计死亡率、化蛹率、羽化率、每个雌虫平均产卵率、周限增长率以及硬脂酸、油酸等14种。同时得出:维生素B_6(x_(13))对马尾松毛虫的化蛹、羽化和周限增长率的影响是第一位的重要因素,低沸点物质(x_8)包括萜烯类物质是影响马尾松毛虫化蛹、羽化的第二因子,苏氨酸(x_(21))是第三个因子。异亮氨酸(x_(22))是影响马尾松毛虫产卵量的第一重要因子,蛋氨酸(x_(20))是第二重要因子,维生素B_6是第三个重要因子。 相似文献
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本文根据毛白杨树干解析木资料,应用灰色系统理论中的GM(1,1)模型和Vcrhulst模型,对毛白杨生长进行了预测分析。结果表明,GM(1,1)模型优于Verhulst模型;根据树木生长变化规律,分段建模,效果很好;提出了毛白杨树高、胸径及材积的总生长量、平均生长量、连年生长量的动态模型。 相似文献
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1984~1988年,在江西省分宜县山下林场的亚热带人工杉木林和马尾松林中,对土壤的水分—物理性质及其水分含量的变化进行了测定,结果表明:本试验区土壤为重壤土,其水分—物理性质较差,有林地土壤含水量较无林地高,且变幅较小。土壤含水率与当地的主要气象要素(气温、空气湿度、降雨量、蒸发量)呈多元回归相关。据回归分析,杉木林土壤水分含量受气候变化影响的土层深度较浅,达0~20cm,而皆伐迹地受气候影响的土层较深,达0~40cm。 相似文献
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Calibration of a recently developed water flow and storage model based on experimental data for a young diffuse-porous beech tree (Fagus sylvatica L.) and a young ring-porous oak tree (Quercus robur L.) revealed that differences in stem wood anatomy between species strongly affect the calibrated values of the hydraulic model parameters. The hydraulic capacitance (C) of the stem storage tissue was higher in oak than in beech (939.8 versus 212.3 mg MPa(-1)). Model simulation of the elastic modulus (epsilon) revealed that this difference was linked to the higher elasticity of the stem storage tissue of oak compared with beech. Furthermore, the hydraulic resistance (R (x)) of beech was about twice that of oak (0.1829 versus 0.1072 MPa s mg(-1)). To determine the physiological meaning of the R (x) parameter identified by model calibration, we analyzed the stem wood anatomy of the beech and oak trees. Calculation of stem specific hydraulic conductivity (k (s)) of beech and oak with the Hagen-Poiseuille equation confirmed the differences in R (x) predicted by the model. The contributions of different vessel diameter classes to the total hydraulic conductivity of the xylem were calculated. As expected, the few big vessels contributed much more to total conductivity than the many small vessels. Compared with beech, the larger vessels of oak resulted in a higher k (s) (10.66 versus 4.90 kg m(-1) s(-1) MPa(-1)). The calculated ratio of k (s) of oak to beech was 2, confirming the R (x) ratio obtained by model calibration. Thus, validation of the R (x) parameter of the model led to identification of its physiological meaning. 相似文献