江苏进出口园林植物寄生线虫调查及检疫处理技术

1997－1998年，对南京口岸进口的荷兰、加拿大、美国、韩国、台湾和香港等国家和地区41批（次）园林植物检疫中，1次截获鳞球茎类线虫、19交截获咖啡短体线虫、草莓芽叶线虫、克鲁克剑线虫、毛刺尾线虫、南方根结线虫、花生根结线虫、北方根结线虫和其它根结线虫等，进口的园林植物中危险性疫情发生率高达34％。对江苏5个主要出口园林植物生长基地进行的植物寄生线虫种类调查，在59种经常性出口的园林植物中，发现27属植物寄生线虫，其中已鉴定出13种。对红花木莲苗上的南方根结线虫、牡丹苗上的腐烂茎线虫进行的检疫处理试验表明，用几种农药混配的处理液加热后处理植物的根部，可以有效地杀死这两种植物寄生线虫，保证货物安全出口。     

Resistance to foliage-feeding insects in conifers: implications for pest management

The ecological implications of insect resistance in conifers are rarely discussed. It is however a fairly straightforward plant-insect interaction and should be treated as such, making use of the increasing amount of information in this field. Work on tree breeding is usually carried out by silviculturalists who, not surprisingly, rarely consider the insect component of the environment in which the treess are growing. In all fairness, it must be stated that many entomologists, fail to consider the plant component of the interaction. Clonal forestry will almost certainly result in the loss of genetic variability. The use of clonal material has already been cited as a possible source for the diminution of the resistance against pests and diseases and if particular resistance mechanisms against forest pests are sought in the future the reduction in genetic material caused by clonal selection could have serious consequences. The ethics of clonal forestry have been questioned as have the ethics of biotechnological advances in the area of recombinant DNA molecules. The potential of both these techniques should be publicized and brought to the attention of the general public and the scientific community at large and evaluated. To improve our forest environment and to protect the environment as a whole, entomologists, geneticists, physiologists and silviculturalists must work together to produce better trees that require little, if any, chemical aid, be it insecticides, herbicides, fungicides or fertilizers. An increasing awareness of the environmental problems generated by large-scale insecticide applications to forest plantations, coupled with an increasingly chemophobic work-force and the difficulty in obtaining pesticide registration for use in forest environments, means that the forest industry world-wide must look to the use of integrated control measures with more diligence than has been shown in the past. Many recent outbreaks of pests and diseases have been linked with particular seed origins of tree crops. Host plant resistance as part of a suite of other proposed integrated control tools is thus an obvious candidate for development. Despite this, scientists concerned with tree improvement continue to select largely for silvicultural traits rather than for resistance to pests and disease. The different avenues open to plant breeders are examined and the potential of breeding trees resistant to insect attack highlighted. Using resistant trees as part of an integrated pest management system has five very important properties. Firstly, there is no additional pest control cost to the grower, secondly, it operates at all levels of insect incidence and not just when the pest is at high population levels, thirdly, it reduces the insect population cumulatively, fourthly it avoids toxic residues and environmental pollution and, finally, it usually interacts well with the other integrated pest management strategies in existence.     

筛选和利用拮抗细菌防治水稻纹枯病和恶苗病的研究

土壤中存在大量有益的拮抗细菌。将纹枯菌菌核埋入稻田中可富集拮抗菌,经分离、筛选和测定,并通过拮抗细菌悬浮液抑制纹枯菌菌核萌发、种子细菌化处理等试验,获得了91、31-2、23和204等4个较好的拮抗细菌菌株。对纹枯病菌的拮抗带分别为10.0、12.7、6.7和11.0毫米;萌发率分别为22.9％、42.9％、28.6％和60.0％。应用后,水稻植株上的纹枯病的病斑高度,比对照分别低14.0％、22.4％、11.8％和16.4％;恶苗病徒长苗数比对照分别减少55.7％、49.2％、32.8％和50.8％。     

Cropping systems for the management of phytonematodes

Damage caused by nematodes is one of the limiting factors in crop production. Traditional nematode management is based on the use of crop rotations, resistant cultivars, nematicides, or combinations of these methods. For a crop like peanut (Arachis hypogaea), cultivars resistant to root-knot nematodes are not available. There are soybean (Glycine max) cultivars resistant to some of the species of root-knot nematodes (Meloidogyne spp.); however, most fields have nematode infestations composed of mixtures of species. Research at Auburn has shown that tropical crops can be used effectively in rotation to manage nematode problems. Rotations with American jointvetch (Aeschynomene americana), castor (Ricinus communis), hairy indigo (Indigofera hirsuta), partridge pea (Cassia fasciculata), sesame (Sesamum indicum), and velvetbean (Mucuna deeringiana) have resulted in good nematode control and increased yields of peanut and soybean. Some crops (castor, sesame) are considered ‘active’ in that they produce compounds that are nematicidal, whereas others (e.g. corn, sorghum) are simply non-host, that is, ‘passive’.     

苏云金素在水中和植株上的衰减与残留

用ＨＰＬＣ检测了苏云金素在鱼塘水和清水中的衰减速率。清水中该物质的半衰期长达４３３小时；在鱼塘水中苏云素的衰减呈双指数消除模型，开始消除半衰期为２．４３－１０．６８小时，终末消除半衰期为１２８．５７－１４２．０１小时。     

Production,survival and evaluation of solid-substrate inocula ofConiothyrium minitans againstSclerotinia sclerotiorum

Coniothyrium minitans grew on all ten solid-substrates (barley, barley-rye-sunflower, bran-vermiculite, bran-sand, maizemed-perlite, millet, oats, peat-bran, rice and wheat) tested, producing high numbers of germinable pycnidiospores (1.9–9.3×10⁸ g^–1 air dry inocula). All solid substrate inocula survived better in the laboratory at 5 and 15 °C than at 30 °C for at least 64 weeks.In pot bioassays carried out in the glasshouse and field, soil incorporations of each inoculum almost completely inhibited carpogenic germination ofS. sclerotiorum. In the field bioassay, no sclerotia were recovered after 38 weeks fromC. minitans-treated pots compared to 56% from control pots. In the glasshouse bioassay, 9–30% of sclerotia were recovered after 20 weeks fromC. minitans-treated pots, but 88–100% of these were infected by the antagonist. The antagonist also spread to infect sclerotia in control pots.In larger scale glasshouse trials, single preplanting soil-incorporations of five inocula (barley-ryesunflower, maizemeal-perlite, peat-bran, rice and wheat) controlled Sclerotinia disease in a sequence of lettuce crops, with only small differences between the types of inocula tested. At harvest,C. minitans reduced sclerotial populations on the soil surface and over 74% of sclerotia recovered fromC. minitans-treated plots were infected by the antagonist.C. minitans survived in soil in all solid-substrate inocula-treated plots for at least 39 weeks at levels of 10⁴–10⁵ colony forming units cm^–3 soil and spread to infect over 36% of sclerotia recovered from control plots.     

农作物重要病原菌颉颃菌的筛选

从全国6省12个地区的26种植物根围采集到土壤样本50份。经室内分离、纯化后得到以芽孢杆菌为主的细菌菌株226个。以水稻、小麦和棉花等6种农作物上主要病原菌(8种真菌,4种细菌)为指示菌对这226个菌株进行平板双培养法抑菌测定,分别筛选到至少对1种病原真菌或细菌有颉颃活性的菌株95个和78个。对进一步研制防治不同作物病害的生物制剂建立了一个颉颃菌资源库。     

使用AoBe处理不同生育期春小麦的增产效应

使用芳氧基乙酸万酯类化合物AoBe处理不同生育期春小麦,在低浓度条件下有促进幼苗生长、提高田间出苗率、刺激增产等生理作用,在高浓度条件下有抑制生长和致死作用。可见,AoBe具有植物生长调节剂的基本作用特性。AoBe刺激增产作用的适宜处理时期和浓度范围是:浸种和挑旗期为0.01ppm,分蘖期为0.1ppm,拔节期为1 ppm,抽穗期为100ppm左右。以0.01ppm浸种和0.1ppm在分蘖期喷施为最佳组合。1000ppm处理春小麦种子则表现为致死作用。     

植物杂种优势利用的一条新途径—细胞核+细胞质雄性不育(GCMS)

本文在综述了植物细胞核雄性不育和细胞质雄性不育优点和缺点基础上提出了植物杂种优势利用的一条新途径——细胞核十细胞质雄性不育,根据细胞核不育基因的显隐性、稳定性和细胞质雄性不育的稳定性不同,可以将该途径进一步分成显性细胞核+细胞质雄性不育、隐性细胞核+细胞质雄性不育、细胞核不育+生态型、细胞质雄性不育和细胞质不育+生态型细胞核雄性不育。     

四川狗尾草属与狼尾草属的研究

四川狗尾草属有10种(包括1个变种),约为我国13种(包括2个变种)的77％。狼尾草属有4种,约为我国9种的44％。本文对两属的分类、分布、生态环境及经济用途等进行了描述。