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I. Bouwen D. Z. Maat 《European journal of plant pathology / European Foundation for Plant Pathology》1992,98(2):141-156
Two viruses, detected frequently in the Netherlands in pelargonium, were identified by serology and test plant reactions. Antisera were prepared and an ELISA procedure was developed to detect the viruses in pelargonium.One of the viruses, PFBV-N, proved to be pelargonium flower-break virus. With the antiserum to PFBV-N, it could be detected reliably throughout the year inPelargonium zonale Springtime Irene.The other virus, PLPV-N, was serologically closely related to pelargonium line pattern virus (PLPV) and to pelargonium ring pattern virus (PRPV), as were an old virus isolate from Saturnus, collected in the Netherlands in 1971 (L128), and PLPV isolates from Yugoslavia (PLPV-Y) and Denmark (PLPV-D). There were only minor differences in host-plant reactions between the virus isolates. Based on these tests, PLPV and PRPV are considered as isolates of the same virus, for which, for practical reasons, the name pelargonium line pattern virus is proposed.PLPV could be reliably detected by ELISA inP. zonale Springtime Irene and Amanda throughout the year with only a few exceptions. InPelargonium peltatum Tavira, however, reslts were erratic due to uneven distribution of virus in the plant. Best results were obtained when petioles of fully expanded leaves were tested. 相似文献
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Glyphosate [N-(phosphonomethyl) glycine] is currently the most important non-selective, wide-spectrum herbicide used worldwide. Introduced in 1974, glyphosate was initially a non-crop herbicide and plantation crop herbicide, although it is now widely used in no-till crop production and, more recently, for weed control in herbicide-resistant transgenic crops, such as maize, soybean and cotton ( Baylis 2000 ; Caseley & Copping 2000 ). Despite its widespread and long-term use, no case of evolved resistance to glyphosate was documented until 1996 ( Pratley et al . 1996 ). Since then, a few other cases have been reported. To date, evolved resistance to glyphosate has been identified and documented in Lollium rigidum in Australia ( Powles et al . 1998 ; Pratley et al . 1999 ), Eleusine indica in Malaysia ( Lee & Ngim 2000 ), and L. rigidum in South Africa and California (USA), and Conyzia canadensis in Delawere (USA) ( Van Gessel 2001 ). Also, accessions of L. rigidum from South Africa and California have been reported to resist glyphosate ( Heap 2001 ). In Chile, the first case of glyphosate-resistance in Lolium multiflorum was reported in 1999 and documented in 2003 ( Pérez & Kogan 2003 ). This case was the result of an intensive selection pressure caused by the continuous applications of glyphosate in fruit orchards over 8–10 years. The present study is a first approach to elucidating the mechanism involved in the resistance of one biotype of L. multiflorum selected in Chilean orchards. 相似文献
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基于图像旋转投影的导航路径检测算 总被引:8,自引:6,他引:2
提出一种农业车辆视觉导航路径识别算法--旋转投影算法.该算法通过角度枚举对图像ROI实施旋转变换,由旋转后图像的列均值与枚举角度构成旋转投影矩阵R,对其行向量实施差分运算得到差分旋转投影矩阵Rd,由Rd的极值可确定图像导航路径,即航向偏差θ与航位偏差d,进而可以求得世界坐标系下的导航路径参数.同理可以对田头线进行检测.为了提高算法的实时性,提出设定合理的ROI、实施线性压缩、旋转角度先粗分再细分的二步法以及充分利用前帧信息4种处理方法,使处理一帧用时6.2ms左右.通过对不同条件下成熟小麦图像测试表明,该算法识别导航路径准确率达到95%. 相似文献
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D. M. Granatstein D. F. Bezdicek V. L. Cochran L. E. Elliott J. Hammel 《Biology and Fertility of Soils》1987,5(3):265-270
Summary Three mollisols, typical of the Palouse winter wheat region of eastern Washington and northern Idaho, were analyzed for microbial biomass, total C and total N after 10 years of combined tillage and rotation treatments. Treatments included till, no-till and three different cereal-legume rotations. All crop phases in each rotation were sampled in the same year. Microbial biomass was monitored from April to October, using a respiratory-response method. Microbial biomass, total C and total N were highest under no-till surface soils (0–5 cm), with minimal differences for tillage or depth below 5 cm. Microbial biomass differences among rotations were not large, owing to the relative homogeneity of the treatments. A rotation with two legume crops had the highest total C and N. Microbial biomass was significantly higher in no-till surface soils where the current crop had been preceded by a high-residue crop. The opposite was true for the tilled plots. There was little change in microbial biomass over the seasons until October, when fresh crop residues and rains had a strong stimulatory effect. The seasonal pattern of biomass in no-till surface soils reflected the dry summer/winter rainfall climate of the region. The results of this study show that numerous factors affect soil microbial biomass and that cropping history and seasonal changes must be taken into account when microbial biomass data are compared.Scientific paper no. 7634 相似文献
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1-3日龄“浙农1号”意蜂工蜂幼虫的个体呼吸商约为0.933,平均生长饲料比为1.569,蜂王幼虫在移虫后40-80h的呼吸商约为0.91,生长饲料比为1.48.根据估测的年出蜂数,计算工蜂个体平均吐浆量,从而得出“浙农1号”生产性哺乳率为2.35-3.36. 相似文献