河南省小麦根腐线虫病的发生危害及病原鉴定

为明确河南省小麦根腐线虫病的发生危害情况及其病原线虫种类,对14个县(市)45个采样点小麦根腐线虫进行了分离调查,分别通过人工接种测定其致病性和杀线剂处理研究其危害性,并采用形态学和分子生物学方法鉴定其病原。结果显示:小麦根腐线虫在河南省的分布具有一定的区域性,中北部的10个县(市)34个沙质土壤采样点均分离出小麦根腐线虫,而在南部土壤粘重地区的小麦根内和土壤中均没有分离出根腐线虫;15%涕灭威颗粒剂处理土壤后小麦的穗粒数、千粒重和单位面积产量较对照明显上升,产量增加13.6%;该线虫能够侵染小麦,并明显抑制小麦生长;河南省小麦根腐线虫以敏捷短体线虫Pratylenchus agilis为主。     

Use of real-time PCR to examine the relationship between disease severity in pea and <Emphasis Type="Italic">Aphanomyces euteiches</Emphasis> DNA content in roots

Aphanomyces euteiches causes severe root rot of peas. Resistance is limited in commercial pea cultivars. Real-time fluorescent PCR assay specific for A. euteiches was used to study the relationship between disease severity and pathogen DNA content in infected peas. Five pea genotypes ranging in levels of resistance were inoculated with five isolates of A. euteiches. Plants were visually rated for disease development and the amount of pathogen DNA in roots was determined using the PCR assay. The susceptible genotypes Genie, DSP and Bolero tended to have significantly more disease and more pathogen DNA than the resistant genotypes 90-2079 and PI 180693. PI 180693 consistently had less disease, while 90-2079 had the lowest amount of pathogen DNA. The Spearman correlation between pathogen DNA quantity and disease development was positive and significant (P < 0.05) for three isolates, but was not significant for two other isolates. This suggests that the real-time PCR assay may have limited application as a selection tool for resistance in pea to A. euteiches. Its utility as a selection tool would be dependent on the correlation between disease development and pathogen DNA content for a given pathogen isolate. The accuracy and specificity of the real-time PCR assay suggests considerable application for the assay in the study of mechanisms of disease resistance and the study of microbial population dynamics in plants.     

98％棉隆微粒剂防治黄瓜根结线虫田间药效试验

以10％灭线磷GR为对照药剂,设98％棉隆MG 35、40、45 g/m2处理土壤防治黄瓜根结线虫.结果表明:98％棉隆MG 35、40、45 g/m2的3个处理,药后30 d土壤中2龄幼虫虫口减退率分别为89.45％、90.50％、92.05％,对照药剂10％灭线磷颗粒剂5 g/m2处理的虫口减退率为60.65％;药后90 d土壤中2龄幼虫虫口减退率分别为88.63％、89.73％、91.69％,对照药剂10％灭线磷5 g/m2处理的线虫虫口减退率为59.97％.98％棉隆MG各处理的防治效果分别为85.71％、88.80％、89.34％,而对照药剂为65.71％.表明98％棉隆MG可有效地控制黄瓜根结线虫的为害,有较好的推广应用价值.     

草莓根腐病病原菌分离与鉴定

为了有效防控草莓根腐病,采用组织分离法,对徐州地区草莓根腐病病原菌进行分离与鉴定,分离、纯化后获取了5个真菌菌株,经形态学与分子生物学碱基序列测定结果比对发现：CMGF-1是胶孢炭疽菌或其亚种,CMGF-2和CMGF-3是棒孢拟盘多毛孢或其亚种,CMGF-4和CMGF-5是串珠镰刀菌或其亚种。黑根根腐的致病菌主要是镰刀菌和拟盘多毛孢菌,而红中柱根腐的致病菌是胶孢炭疽菌。     

腾冲过路黄的生长动态观察研究

对腾冲过路黄的物候期进行观察,并绘制出物候图谱。测定其各器官生长动态,结果显示：腾冲过路黄的根系集中分布层深度为10～26 cm,其茎含水量平均为82.02％,叶含水量平均为79.87％,根含水量平均为85.68％。采用相关分析及建立生物量一元线性回归方程,茎、叶、根的生物量（干重Y）可分别用Y=0.0213X4.3369、Y=0.0565X3.9657、Y=0.0382X3.517来推测。     

防治烟草根黑腐病拮抗芽孢菌株的筛选

由基生根串珠霉菌(Thielaviopsis basicola)引起的烟草根黑腐病是烟草生产上重要根部真菌病害,近年在我国烟草种植区有加重危害的趋势,目前防治措施主要依赖化学药剂,给卷烟卫生带来一系列问题[1].探索该病生物防治途径,克服农药残留和病原菌抗药性十分重要.芽孢杆菌是土壤和植物微生态区系的优势生物种群,具有优良生防特性[2],采用芽孢杆菌作为烟草根黑腐病生防因子尚未见报道.本研究从烟草根际土壤中分离筛选对烟草根黑腐病病菌有较强拮抗作用的芽孢菌株,研究其抑菌活性、控病作用及其分类学地位.     

Allelopathy in crop/weed interactions--an update

Since varietal differences in allelopathy of crops against weeds were discovered in the 1970s, much research has documented the potential that allelopathic crops offer for integrated weed management with substantially reduced herbicide rates. Research groups worldwide have identified several crop species possessing potent allelopathic interference mediated by root exudation of allelochemicals. Rice, wheat, barley and sorghum have attracted most attention. Past research focused on germplasm screening for elite allelopathic cultivars and the identification of the allelochemicals involved. Based on this, traditional breeding efforts were initiated in rice and wheat to breed agronomically acceptable, weed-suppressive cultivars with improved allelopathic interference. Promising suppressive crosses are under investigation. Molecular approaches have elucidated the genetics of allelopathy by QTL mapping which associated the trait in rice and wheat with several chromosomes and suggested the involvement of several allelochemicals. Potentially important compounds that are constitutively secreted from roots have been identified in all crop species under investigation. Biosynthesis and exudation of these metabolites follow a distinct temporal pattern and can be induced by biotic and abiotic factors. The current state of knowledge suggests that allelopathy involves fluctuating mixtures of allelochemicals and their metabolites as regulated by genotype and developmental stage of the producing plant, environment, cultivation and signalling effects, as well as the chemical or microbial turnover of compounds in the rhizosphere. Functional genomics is being applied to identify genes involved in biosynthesis of several identified allelochemicals, providing the potential to improve allelopathy by molecular breeding. The dynamics of crop allelopathy, inducible processes and plant signalling is gaining growing attention; however, future research should also consider allelochemical release mechanisms, persistence, selectivity and modes of action, as well as consequences of improved crop allelopathy on plant physiology, the environment and management strategies. Creation of weed-suppressive cultivars with improved allelopathic interference is still a challenge, but traditional breeding or biotechnology should pave the way.     

山东省小麦根腐病病原菌的分离鉴定

为明确山东省小麦根腐病的病原菌种类,于2012—2014年从山东省10个地市采集小麦病株,通过组织分离法获得了185株分离物,利用形态学鉴定方法,结合基于5.8S r DNA-ITS序列或TEF-1α基因序列分析的分子鉴定方法对分离物进行了鉴定。结果表明:分离物中共得到135株麦根腐平脐蠕孢Bipolaris sorokiniana,占分离病原菌总数的72.97%,属优势种群;50株镰孢属Fusarium菌株,其中14株尖孢镰孢菌Fusarium oxysporum、19株层出镰孢菌Fusarium proliferatum和17株黄色镰孢菌Fusarium culmorum;按照柯赫氏法则进行致病性测定,证实了4种病原菌对鲁麦21号具有致病性,麦根腐平脐蠕孢的致病力较强,病情指数显著高于镰孢菌属真菌。研究表明,山东小麦根腐病主要是由麦根腐平脐蠕孢和镰孢属真菌侵染引起的,麦根腐平脐蠕孢为优势菌群。     

Soil solarization as a substitute for methyl bromide fumigation in greenhouse tomato production in Cyprus

Preplant soil fumigation with methyl bromide (MB) is presently standard practice in greenhouse tomato production. Since this compound is scheduled to be phased out by 2005, the possibility of using solarization as an alternative soil disinfestation method was examined in four greenhouse tomato trials. Solarization was applied for 8 weeks in July-August, using transparent polyethylene sheets for soil mulching, and compared with MB fumigation applied in September, before planting, at 80 g/m². Solarization raised the maximum soil temperature by 9°C and reduced the population density ofFusarium spp. in soil by 91–98%. Similar reductions of soil inoculum (95–99%) were obtained with MB fumigation. Both methods provided effective control of Fusarium wilt, Verticillium wilt and corky root rot on tomato plants. MB fumigation was in addition highly effective against root-knot nematodes, whereas nematode control with solarization did not exceed 50%. Both treatments resulted in similar fruit yield increases, ranging within 90–140% compared with plants grown in untreated soil. During the second cropping season following soil treatment, solarization exhibited two times higher residual effectiveness against vascular wilt diseases compared with MB fumigation. The latter treatment, however, was superior to solarization in its residual effectiveness against root-knot nematodes and to a lesser extent against corky root rot. Fruit yields from solarized and MB-fumigated soil during the second cropping season were higher than those obtained from untreated soil by approximately 35% and 60%, respectively. In Cyprus, solarization appears to be an effective alternative to MB fumigation in greenhouse tomato production, especially if integrated with other approaches enabling more effective nematode control.     

滴水量对新大豆27号根系生长及产量的影响

为揭示滴水量对超高产大豆根系生长的影响规律,设置975 m3·hm-2(W1)、1 575 m3·hm-2(W2)、2175 m3·hm-2(W3)、2 775 m3·hm-2(W4)4种滴水处理,对各处理0~100 cm土层含水量、新大豆27号根系干重、侧根长和产量进行测定分析。结果表明:随着滴水量的增加,0~40 cm土层的含水量增加;0~20 cm土层根干重密度和侧根长密度增幅最大,20~40 cm土层增幅其次;增加生育中后期0~80 cm土层总根干重和总侧根长,鼓粒初期W2、W3、W4处理的根干重分别较W1增加14.2%、30.4%、41.1%,侧根长分别较W1增加17.4%、25.7%、40.3%;提高0~40 cm土层根系活力,增加根系伤流量,提高水分利用效率,W3、W4鼓粒初期0~80 cm土层根干重分别为88.6、95.8 g·m-2,侧根长为432.4~482.9 m·m-2,产量分别为6 082.6 kg·hm-2、6 404.7 kg·hm-2,水分利用效率为1.30左右。新疆伊宁地区大豆的适宜滴水量为2 175~2 775 m3·hm-2。