樟树新害虫——窃达刺蛾的研究

窃达刺蛾是樟树新害虫,在福建一年发生3代,以幼虫在叶背越冬。翌年3月上旬化蛹,4月上旬成虫出现并产卵,4月中旬幼虫孵出,5月中旬陆续化蛹．6月上旬成虫羽化,6月中旬第二代幼虫开始出现,8月下旬第三代幼虫出现。在幼虫三龄前,喷洒5％辛硫磷,40％氯化乐果乳剂或80%敌敌畏乳剂1000倍液,均可收到良好效果。     

柿绒粉蚧的发生规律及防治

柿绒粉蚧(柿绵蚧)Eriococcus kaki Kuwana在广西灌阳县1年发生6代,以若虫和成虫在树干裂皮缝、缝隙,1、2年生枝条轮痕、芽基、芽鳞片及干柿蒂上越冬,次年柿树萌芽期开始活动。第1代～第6代低龄若虫高峰期分别为3月下旬～4月上旬初、5月下旬末～6月上旬初、6月下旬末～7月上旬初、8月上旬～中旬初、9月上旬初～中旬初及10月中旬初～11月上旬初。卵期7～18d,若虫期22～136d,成虫期6～140d。柿芽萌动前用99.1%机油乳剂180倍液(敌死虫)或20%松脂酸钠(融杀蚧螨)150倍液清园喷杀,防治效果分别达88%、79.8%。第1代低龄若虫高峰期用40%毒死蜱乳油1000倍液加25%噻嗪酮(扑虱灵)可湿性粉剂1500倍液喷雾,防治效果99.6%,80%敌敌畏乳油800倍液加10%吡虫啉可湿性粉剂2000倍液防治效果达99.1%,3%啶虫脒可湿性粉剂(3%金世纪)2500倍液防治效果99.5%。     

宽索鳃金龟的研究

宽索鳃金龟是为言猕猴挑的重要食叶害虫．该虫在福建建宁县一年发生一代,以成虫在土中越冬,翌年4月上旬开始出土为害,4月下旬至5月下旬为害盛期,成虫可整夜取食猕猴桃叶片和花器,成虫出土及人土的时间较为整齐．5月上旬雌虫开始在土中产卵,5月下旬开始孵化．幼虫3龄,在土中1-20cm处活动,以8-10cm处占绝大多数,幼虫取食土壤中腐植质和根皮,截根．9月上旬开始化蛹,10月中旬成虫开始羽化。但当年不出土,逗留在土中。并越冬．采用50％辛硫磷1000—2000倍液防治幼虫：80％敌敌畏乳油1000倍．帅％乐果800-1000倍、25％溴氰菊酯5000倍等药液毒杀成虫均有良好效果,亦可人工捕杀和灯光诱杀成虫．     

黄檀丑舟蛾生物学特性及防治的研究

黄檀丑舟蛾是南岭黄檀的重要食叶害虫,该虫在福建南平一年发生6代,以蛹在疏松土壤中越冬,翌年5月初成虫开始羽化。雌虫产卵于嫩叶上,成块。每雌产卵82-306粒。幼虫5龄,各代幼虫的危害盛期;第一代5月下旬至6旬上旬。第二代6月下旬,第三代7月下旬,第四代8月中旬,第五代9月下旬,第六代11月上旬至中旬。试验表明,20%杀灭菊酯4000倍液或80%敌敌畏2000倍液对幼虫均有良好的毒杀效果。     

金绿宽盾蝽的生物学特性

金绿宽盾蝽Poecilocoris lewisi Distant在北京1年1代,以5龄若虫在侧柏(Platycladus orientalis Franco)附近的落叶和石块下越冬,翌年4月上中旬陆续从越冬处爬出,取食侧柏嫩叶。5月中旬5龄若虫开始羽化,6月初为羽化高峰期,6月中下旬羽化期结束,5月到8月为成虫期,7月底到8月中旬交配产卵,8、9月份若虫由1龄发育至5龄,9月中下旬为5龄若虫高峰期,11月5龄若虫开始转移越冬。     

白翅叶蝉的生物学特性和防治适期

白翅叶蝉(Thaia subrufa Motschulsky)在浙江省东阳县,一年大部发生二代。第一、二代成虫分别于6月下旬至7月上、中旬和8月下旬至9月中旬盛发于早稻和双季晚稻,第二代成虫大部分越冬,少数早发的才能发生第三代。第一、二和三代卵历期分别为17—19、11—12和15一19天,若虫历期分别为19、16和24天。成虫4℃开始活动,10℃开始取食,15℃开始羽化和产卵。卵开始发育温度在20℃左右。成虫无孤雌生殖现象,产卵前期在第一、二代分别为23和17天,越冬成虫则长达6—8月之久。每雌产卵量以越冬代最高,以后各代急剧下降。越冬后成虫在4月下旬几乎全部集中于早、中稻秧田,产卵盛期在5月即早稻本田分蘗期。繁殖寄主仅限于水稻。 因白翅叶蝉具有这些生物学特性,所以防治适期为早季秧田。1964—1965年在东阳县早季秧田大面积防治结果,可减低早、中稻本田虫口90%以上,且能压低双季晚稻田的虫口密度。     

糖槭蚧的初步研究

糖槭蚧Parthcnolecanium corni (Bouche)近年来在新疆为害葡萄、苹果、桃、杏、核桃、酸梅、巴旦、械、白蜡、杨、柳等多种植物,并猖獗漫延。 此蚧虫一年发生1-2代,通常以2—3龄若虫在嫩枝或树皮裂缝处越冬。翌年4月下旬或5月上旬为雄虫羽化期,5月中旬雌成虫产卵,卵于5月底或6月初孵化,孵化盛期为6月中旬,6月下旬孵化     

卫矛矢尖盾蚧及其防治

卫矛矢尖盾蚧在沈阳地区主要为害卫矛,一年2代,少数3代,以受精雌成虫在枝干上越冬。化学防冶的最适时机是越冬代初孵若虫期(5月中旬～7月上旬),可喷洒菊乐台剂2000～2500倍液,或40％氧化乐果乳油1500倍液,每隔10～12天喷洒1次,连续2～3次。     

紫薇毡蚧种群生物学特性研究

该文报道紫薇毡蚧EriococcusLagerostroemiae Kuwana的种群生物学特性。该虫80年末传入贵州,在贵阳地区每年发生3-4代,世代重叠极重,越冬代是第3、4两代的混合群体,越冬虫态有卵、若虫和蛹。分别估测了卵、雄若虫、蛹、雌若虫和雌成虫的发育起点温度(T₀)和有效积温(K)。周年虫口变动有两个高峰：6月中旬至7月上旬和8月上旬至9月上旬。11月至翌年4月,因寄主休眠和低温导致虫口缓慢下降。雌成虫产卵量与寄主生长势好坏有关。控制紫薇毡蚧虫口最有效的天敌是红点唇瓢虫Chilocoruskuwanae Silverstri。药液涂干并辅之具内吸作用的杀虫药液灌根是目前较好的药剂防治方法。     

福州地区桑白蚧发生动态和药剂防治试验

桑白蚧在福州地区一年发生4代．以雌成虫在寄主枝干上越冬．越冬代(第4代)一雌虫产卵量多的达278粒．少的36粒,平均171粒,比第2代产卵量多2．6倍．比第3代多4．5倍．药剂防治试验结果,在2龄幼蚧高峰期,用25％扑虱灵可温性粉剂1500倍液,40％氧化乐果乳油800-1000倍液和95%机油乳剂50—100倍液喷雾．防治效果可达90％左右．用25％扑虱是可湿性粉剂1000-1500倍液．喷酒幼蚕触杀试验和喷洒桑叶喂蚕胃毒试验结果．对幼蚕安全．用扑虱灵防治桑树上的桑白蚧,对养蚕业无不良影响。     

Recent advances in the study of Kaposi's sarcoma-associated herpesvirus replication and pathogenesis

It has now been over twenty years since a novel herpesviral genome was identified in Kaposi's sarcoma biopsies. Since then, the cumulative research effort by molecular biologists, virologists, clinicians, and epidemiologists alike has led to the extensive characterization of this tumor virus, Kaposi's sarcoma-associated herpesvirus(KSHV; also known as human herpesvirus 8(HHV-8)), and its associated diseases. Here we review the current knowledge of KSHV biology and pathogenesis, with a particular emphasis on new and exciting advances in the field of epigenetics. We also discuss the development and practicality of various cell culture and animal model systems to study KSHV replication and pathogenesis.     

The structure, reproduction and taxonomy of Vidalia and Osmundaria (Rhodophyta, Rhodomelaceae)

Comprises species occurring mostly in subtidal habitats in tropical, subtropical and warm-temperate areas of the world. An analysis of the type species, V. spiralis (Sonder) Lamouroux ex J. Agardh, a species from Australia, establishes basic characters for distinguishing species in the genus. These characters are (1) branching patterns of thalli, (2) flat blades that may be spiralled on their axis, (3) width of the blade, (4) primary or secondary derivation of sterile and fertile branchlets and (5) position of sterile and fertile branchlets on the thalli. Application of the latter two characters provides an important basic method for separation of species into three major groups. Osmundaria , a genus known only in southern Australia, was studied in relation to Vidalia , and its separation from the Vidalia assemblage is not accepted. Species of Vidalia therefore are transferred to the older genus name, Osmundaria. Two new species, Osmundaria papenfussii and Osmundaria oliveae are described from Natal. Confusion in the usage of the epithet, Vidalia fimbriala Brown ex Turner has been clarified, and Vidalia gregaria Falkenberg, described as an epiphyte on Osmundaria pro/ifera Lamouroux, is revealed to be young branches of the host, Osmundaria prolifera.     

New or rare chromosome counts in Artemisia L. (Asteraceae, Anthemideae) and related genera from Kazakhstan

Fifteen chromosome counts of six Artemisia taxa and one species of each of the genera Brachanthemum, Hippolytia, Kaschgaria, Lepidolopsis and Turaniphytum are reported from Kazakhstan. Three of them are new reports, two are not consistent with previous counts and the remainder are confirmations of very scarce (one to four) earlier records. All the populations studied have the same basic chromosome number, x = 9, with ploidy levels ranging from 2x to 6x. Some correlations between ploidy level, morphological characters and distribution are noted.     

肝癌中HBV和HCV基因和抗原的分布及意义

采用原位分子杂交方法检测HCV RNA及HBV X基因;采用免疫组织化学方法研究HCV核心抗原,非结构区C33c抗原及HBxAg在肝细胞肝癌中的定位及分布.结果表明(1)HCV RNA、HBV X基因在肝细胞肝癌组织检出率分别为40%(55/136)和82%(112/136).HCV RNA定位于癌细胞的胞浆内,阳性细胞呈散在、灶状及弥漫分布三种形式;HBV X基因在肝癌细胞中的分布呈胞浆型、核型及核浆型,阳性细胞也呈上述三种分布形式;(2)HCV C33c抗原、核心抗原在肝细胞肝癌中的阳性率为81%(133/164)及86%(141/164).C33c抗原定位于癌细胞及肝细胞的胞浆内;核心抗原既定位于癌细胞核中,又可定位于胞浆中.C33c抗原阳性细胞以灶状分布为主;而核心抗原阳性细     

Selection with two alleles and complete dominance

For a plant selection model with frequency-independent viabilities, fertilities and selfing rates, it is shown that apart from global fixation, for certain parameter combinations a protected polymorphism and facultative fixation (either allele may become fixed according to initial frequencies) may both occur. Facultative fixation requires different selling rates for the dominant and recessive type. Protection of the polymorphism requires resource allocation for male and female function. In this connection the problem of purely genetically caused population extinction is discussed.
For general frequency dependence and regular segregation, the chances for establishment of a completely recessive gene are compared to those of a completely dominant gene. It is proven that the process of establishment of the recessive gene, despite a fitness advantage, may be considerably endangered by drift effects if random mating prevails. The recessive gene may reach the same effectivity in establishment as a dominant gene, only if the recessive homozygote mates exclusively with its own type during the period of establishment.