樟子松幼苗水力结构参数和生长特征对模拟降水梯度的响应

水分是影响樟子松生长和存活的关键因素,为弄清樟子松幼苗对水分胁迫的响应过程,采用人工控制降水处理方法 (105%年均降水量：500 mm,无干旱; 74%年均降水量: 350 mm,轻度干旱;42%年均降水量: 200 mm,干旱),监测了2 a生樟子松幼苗水力结构和生长特征对降水处理的响应。结果表明：随着降水量减少,幼苗水分饱和亏缺没有发生显著变化;轻度干旱下幼苗组织密度显著增加,干旱下幼苗失水系数显著降低;表明樟子松幼苗的保水、抗旱能力随干旱胁迫程度增强而增加。干旱胁迫显著降低了株高、基径和各器官生物量的增加量,轻度干旱胁迫下幼苗根重比和根冠比显著增加,表明轻度干旱胁迫改变了生物量分配格局,促使幼苗向有利于水分维持方向的发展策略;与轻度干旱相比,干旱胁迫下幼苗生物量分配策略并没有发生明显变化。樟子松幼苗可以通过改变水力结构特征和生物量分配策略来适应轻度干旱;而在干旱下幼苗仅改变水力结构特征,不利于其在干旱环境下生存。     

新乡小冀工业区周边土壤重金属污染评价与形态分析

通过实地调查和实验分析,对小冀工业区周边土壤中六种重金属(Cd、Cr、Cu、Ni、Pb和Zn)进行了总量测定。参照GB15618-1995二级标准,采用单因子指数法和内梅罗综合污染指数法对土壤质量进行了现状评价,并采用Tessier五步连续萃取法对超标重金属Cd、Ni和Zn进行了形态分析及生物活性分析。结果表明:1)Cr、Cu和Pb含量均未超过国标二级标准,Cd、Ni和Zn三种重金属含量均超标,工业区综合污染非常严重,主要污染元素是Cd;2)Cd、Ni和Zn在土壤中的形态分布差异性较大,Cd主要以铁锰氧化物结合态存在,Ni和Zn主要以残渣态和铁锰氧化物结合态存在;3)金属生物活性系数大小顺序为Cd>Zn>Ni,迁移系数的大小顺序是Cd>Zn>Ni,其中Cd的生态风险很大。     

浙江省果蔬灰霉病菌对嘧菌酯的抗药性研究

采用菌丝生长速率法,连续监测了2010—2012年间浙江省果蔬灰霉病菌对QoI类杀菌剂嘧菌酯的敏感性变化。 结果表明:病菌群体中的低敏感性亚群体的比例明显上升,EC50值>5 mg/L 菌株的比例分别为12.5%、15.8%和28.3%;在菌丝生长阶段和孢子萌发阶段,旁路氧化在灰霉病菌对嘧菌酯敏感性中的平均相对贡献值(F)分别为2.91±0.89和5.72±2.82;嘧菌酯抗药性菌株的菌丝生长速率、产孢量、产菌核数和致病力与敏感菌株相比无显著差异。抗药性分子机制研究表明,灰霉病菌中存在2种类型的cyt b基因:Ⅰ型cyt b基因在第143位密码子后紧跟内含子;Ⅱ型cyt b基因在第143位密码子后没有紧跟内含子。大多数的灰霉病菌菌株属于Ⅱ型。Ⅰ型菌株均为嘧菌酯敏感菌株,Ⅱ型菌株为嘧菌酯敏感菌株或抗性菌株。抗性菌株的cyt b 基因的第143位密码子由甘氨酸(GGC)突变为了丙氨酸(GCC),抗药性机制为G143A。     

浙江不同稻区耳叶水苋对苄嘧磺隆的抗性比较

采用琼脂法测定了长江三角洲地区宁绍平原和杭嘉湖平原5个稻区(宁波、绍兴、杭州、嘉兴和湖州)稻田耳叶水苋Ammannia arenaria不同生物型对苄嘧磺隆的抗性水平。结果表明,所采集的88种耳叶水苋生物型中,有96.6%已对苄嘧磺隆产生了抗性,其中,低抗(3RI≤10)、中抗(10RI≤50)和高抗(RI>50)的生物型分别占总数的22.7%、53.4%和20.5%。宁波NB0143-01和绍兴SX077生物型对苄嘧磺隆的RI值分别高达124.4和120.4。5个稻区中,绍兴地区耳叶水苋的抗性水平最高,平均RI值为53.1;宁波次之,平均RI值为35.1;湖州、杭州和嘉兴地区的抗性水平相对较低,平均RI值分别为24.1、19.9和18.7。表明稻田耳叶水苋对苄嘧磺隆的抗性程度较高,且在宁绍平原和杭嘉湖平原稻区已普遍出现抗性。其中在宁绍平原苄嘧磺隆对耳叶水苋的选择压较大,长期连续用药可能是该地区抗性水平高于其他区域的重要原因。这是有关耳叶水苋对苄嘧磺隆抗性种群分布的首次报道。     

水稻白叶枯病菌室内链霉素抗性菌株的诱导及其抗性分子机制和风险评价

通过紫外光照射诱导获得了6株水稻白叶枯病菌Xanthomonas oryzae pv.oryzae抗链霉素突变体。测得链霉素对水稻白叶枯病菌敏感菌株ZJ173及其抗性突变体的最低抑制浓度(MIC)分别为0.10和600 μg/mL;对敏感菌株的有效抑制中浓度(EC50)为0.03 μg/mL,对抗性菌株的平均EC50值为11.64 μg/mL,平均抗性倍数为388。通过PCR扩增了敏感菌株ZJ173及5株抗性菌株的rpsL基因(编码S12核糖体蛋白)和rrs基因(编码16S rRNA),并检测了strA基因是否存在。序列分析表明,5株被测抗性菌株的rpsL基因均发生了突变,其中4株在氨基酸43位、1株在88位,均由赖氨酸突变为精氨酸,而rrs基因未发生突变,strA基因未被检测到。表明实验室诱导获得的水稻白叶枯病菌抗性菌株对链霉素的抗药性是由rpsL基因突变引起的。抗性风险研究表明,抗性突变体的抗药性在无药剂压力下可稳定保持,其致病性、生长速率与敏感菌株相比无明显差异,竞争性低于或略低于敏感菌株,抗性自发突变率较高,且抗性突变为单一位点突变,病害循环为多循环,因此由rpsL基因突变引起的水稻白叶枯病菌对链霉素的抗性风险较高。     

Identification of the G143A mutation associated with QoI resistance in Cercospora beticola field isolates from Michigan,United States

BACKGROUND: Cercospora leaf spot (CLS), caused by the fungus Cercospora beticola, is the most serious foliar disease of sugar beet (Beta vulgaris L.) worldwide. Disease control is mainly achieved by timely fungicide applications. In 2011, CLS control failures were reported in spite of application of quinone outside inhibitor (QoI) fungicide in several counties in Michigan, United States. The purpose of this study was to confirm the resistant phenotype and identify the molecular basis for QoI resistance of Michigan C. beticola isolates. RESULTS: Isolates collected in Michigan in 1998 and 1999 that had no previous exposure to the QoI fungicides trifloxystrobin or pyraclostrobin exhibited QoI EC₅₀ values of ?0.006 µg mL^?1. In contrast, all isolates obtained in 2011 exhibited EC₅₀ values of > 0.92 µg mL^?1 to both fungicides and harbored a mutation in cytochrome b (cytb) that led to an amino acid exchange from glycine to alanine at position 143 (G143A) compared with baseline QoI‐sensitive isolates. Microsatellite analysis of the isolates suggested that QoI resistance emerged independently in multiple genotypic backgrounds at multiple locations. A real‐time PCR assay utilizing dual‐labeled fluorogenic probes was developed to detect and differentiate QoI‐resistant isolates harboring the G143A mutation from sensitive isolates. CONCLUSION: The G143A mutation in cytb is associated with QoI resistance in C. beticola. Accurate monitoring of this mutation will be essential for fungicide resistance management in this pathosystem. Copyright © 2012 Society of Chemical Industry     

Strong resistance to phosphine in the rusty grain beetle,Cryptolestes ferrugineus (Stephens) (Coleoptera: Laemophloeidae): its characterisation,a rapid assay for diagnosis and its distribution in Australia

BACKGROUND: The recent development of very high resistance to phosphine in rusty grain beetle, Cryptolestes ferrugineus (Stephens), seriously threatens stored‐grain biosecurity. The aim was to characterise this resistance, to develop a rapid bioassay for its diagnosis to support pest management and to document the distribution of resistance in Australia in 2007–2011. RESULTS: Bioassays of purified laboratory reference strains and field‐collected samples revealed three phenotypes: susceptible, weakly resistant and strongly resistant. With resistance factors of > 1000 × , resistance to phosphine expressed by the strong resistance phenotype was higher than reported for any stored‐product insect species. The new time‐to‐knockdown assay rapidly and accurately diagnosed each resistance phenotype within 6 h. Although less frequent in western Australia, weak resistance was detected throughout all grain production regions. Strong resistance occurred predominantly in central storages in eastern Australia. CONCLUSION: Resistance to phosphine in the rusty grain beetle is expressed through two identifiable phenotypes: weak and strong. Strong resistance requires urgent changes to current fumigation dosages. The development of a rapid assay for diagnosis of resistance enables the provision of same‐day advice to expedite resistance management decisions. © 2012 Commonwealth of Australia. Published by John Wiley & Sons, Ltd.     

High‐level of resistance to spinosad,emamectin benzoate and carbosulfan in populations of Thrips tabaci collected in Israel

BACKGROUND: The onion thrips, Thrips tabaci Lindeman, is a major pest of several crop plants in the genus Allium, such as onions, garlic and chives. In Israel, these crops are grown in open fields and in protected housing. This thrips is usually controlled by the application of chemical insecticides. In recent years, spinosad, emamectin benzoate and carbosulfan have been the major insecticides used for the control of the onion thrips. In the last 4 years, growers of chives and green onion from several regions of Israel have reported a significant decrease in the efficacy of insecticides used to control the onion thrips. RESULTS: The susceptibility of 14 populations of the onion thrips, collected mainly from chives between the years 2007 and 2011, to spinosad, emamectin benzoate and carbosulfan was tested using a laboratory bioassay. The majority of the populations showed significant levels of resistance to at least one of the insecticides. LC₅₀ values calculated for two of the studied populations showed that the resistance factor for spinosad compared with the susceptible population is 21 393, for carbosulfan 54 and for emamectin benzoate 36. Only two populations, collected from organic farms, were susceptible to the insecticides tested. CONCLUSION: This is the first report of a high resistance level to spinosad, the major insecticide used to control the onion thrips. Resistance cases to spinosad were associated with failures to control the pest. Populations resistant to spinosad also had partial or complete resistance to other insecticides used for controlling the onion thrips. Copyright © 2012 Society of Chemical Industry