进境木质包装疫情的国别(地区)分析

对近年来我国口岸截获进境木质包装疫情进行了统计,通过聚类分析方法可以将主要疫情来源国家(地区)按照疫情截获情况分为4类。长蠹科、长小蠹科、小蠹科、鼻白蚁科、天牛科、蚁科(仅含红火蚁一种)等6科昆虫及线虫(主要为松材线虫)为进境木质包装中的主要检疫性有害生物。因子分析表明,中国台湾、印度、东南亚地区及美国、俄罗斯、中国香港、德国、日本、韩国为木质包装疫情最为严重的地区,不同国家(地区)主要检疫性有害生物类别特征明显。此外,给出了木质包装中主要检疫性有害生物名录及检疫监管对策。     

山东口岸2008—2017年进境矿产品携带疫情分析

[目的]分析山东口岸进境矿产品植物疫情截获情况,提高矿产品有害生物疫情检出率,有效保护国门生物安全.[方法]分别从截获植物疫情变化规律、疫情类别、矿产品类型、检疫性有害生物与一般有害生物情况、来源地、不同隶属关截获情况等方面对山东口岸2008—2017年进境矿产品截获的各类疫情进行了统计分析.[结果]山东进境矿产品中截获有害生物总计54种(属),2560种次,1574批次,检疫性有害生物4种(属),29种次.进境矿产品中有害生物截获种类和种次均呈现中间多两端少的特点,以昆虫、线虫和杂草截获种类最多,占截获种类总数的87.04％,昆虫截获种次最多,占截获总种次的65.70％;有害生物的截获种类和种次均以非金属矿产截获最多,金属矿产次之;共截获4种(属)、29种次检疫性有害生物,50种(属)、2531种次一般性有害生物;截获种次前三位国家分别是朝鲜、韩国、印度尼西亚.[结论]研究结果对口岸进境矿产品疫情截获及防控提供了理论和数据支持.     

昆山口岸东南亚木质包装截获蠹虫疫情分析

对江苏昆山口岸2001～2010年东南亚进境货物木质包装截获蠹虫疫情进行了统计分析,共截获各类蠹虫16属45种377批次。蠹虫种类以小蠹科、长蠹科以及长小蠹科为主。不同月份进境木质包装截获蠹虫种类、批次差异明显,以6月份截获最多,2月份和11月份最少。木质包装疫情比例与其来源密切相关,以马来西亚木质包装截获疫情批次最多,印度尼西亚、马来西亚木质包装截获蠹虫疫情比例最高。并提出了几点加强东南亚进境木质包装检疫监管措施。     

2011～2016年山东口岸进境木材疫情分析及建议

本文对山东口岸2011～2016年进境木材疫情截获情况进行分析,重点对所截获有害生物的种群类别、年度趋势、截获频次和来源地等进行统计分析,并针对木材检疫监管存在的问题提出建议,以供口岸检疫参考.     

惠州口岸进境粮谷截获疫情分析

本文对惠州口岸2013~2015年进境粮谷及截获疫情进行了分析,通过分析不同种类的进境粮谷、不同来源国的粮谷携带有害生物的种类和截获的种次数,结果表明,进境高粱、玉米和大麦携带有害生物的风险较高,而来源于美国、法国和澳大利亚等国家的进境粮谷携带有害生物风险较高,同时总结了进境粮谷截获有害生物的类别和检疫性杂草名单,为今后惠州口岸进境粮谷检疫监管工作提供参考。     

2003-2013年全国进境水果截获疫情分析

对2003-2013年全国口岸进境水果截获的各类疫情进行统计分析.全国进境水果中截获有害生物总计2043种388831种次,检疫性有害生物130种25450种次;从130多个国家及地区进境水果中截获检疫性有害生物,其中截获数量最多的国家是泰国;截获最多的检疫性有害生物为杧果果核象甲(Sternochetus mangiferae).针对疫情截获情况,提出在水果检疫查验过程中应关注的工作重点,为更好地开展水果检疫监管提供参考.     

2011～2016年广东口岸进境水果截获疫情分析与对策

本文对广东口岸2011～2016年进境水果疫情截获情况进行统计,对所截获不同水果的疫情、不同来源地的疫情及检疫性有害生物进行分析,在此基础上分析了进境水果检验检疫监管的现状及存在的问题,并提出相应的监管对策,为进境水果检验疫监管工作提供参考.     

广东口岸进境旅客携带物截获植物检疫性有害生物疫情分析

本文对2011~2015年广东口岸(不含深圳、珠海)进境旅客携带物截获的植物检疫性有害生物进行统计,重点分析旅检口岸截获检疫性有害生物的种类、来源及寄主情况,比较不同来源和不同类型的携带物传带检疫性有害生物及其通过不同类型旅检口岸传入的风险高低,探寻提高疫情检出率的重点与方向,以期为旅检口岸进一步做好植物疫情防控提供借鉴和参考。     

珠海口岸进境咖啡生豆检疫情况分析

近年来,随着珠海口岸咖啡生豆进口量的增加,口岸截获咖啡果小蠹等有害生物的疫情也不断增加。本文通过对珠海地区进境咖啡生豆截获疫情分析,结合国外疫情发生情况,对我国口岸进境咖啡生豆检疫工作的重点进行探讨。     

盐田港口岸进境集装箱空箱截获疫情分析

为掌握进境集装箱空箱携带有害生物的种类和规律,进一步探讨进境空箱的检疫监管对策,笔者对2006年10月至2008年10月间盐田港口岸进境集装箱空箱中截获有害生物数据进行分类统计,共截获各类医学媒介生物、检疫性有害生物及一般性有害生物共计97种222批次,来自21个国家和地区.由此说明进境集装箱空箱携带有害生物疫情复杂,应对进境空箱加强卫生和植物检疫监管,以防止疫情和有毒有害物质随集装箱携带入境.     

Hymenopteran Parasitoids on Fruit-infesting Tephritidae (Diptera) in Latin America and the Southern United States: Diversity, Distribution, Taxonomic Status and their use in Fruit Fly Biological Control

We first discuss the diversity of fruit fly (Diptera: Tephritidae) parasitoids (Hymenoptera) of the Neotropics. Even though the emphasis is on Anastrepha parasitoids, we also review all the information available on parasitoids attacking flies in the genera Ceratitis, Rhagoletis, Rhagoletotrypeta, Toxotrypana and Zonosemata. We center our analysis in parasitoid guilds, parasitoid assemblage size and fly host profiles. We also discuss distribution patterns and the taxonomic status of all known Anastrepha parasitoids. We follow by providing a historical overview of biological control of pestiferous tephritids in Latin American and Florida (U.S.A.) and by analyzing the success or failure of classical and augmentative biological control programs implemented to date in these regions. We also discuss the lack of success of introductions of exotic fruit fly parasitoids in various Latin American countries. We finish by discussing the most pressing needs related to fruit fly biological control (classical, augmentative, and conservation modalities) in areas of the Neotropics where fruit fly populations severely restrict the development of commercial fruit growing. We also address the need for much more intensive research on the bioecology of native fruit fly parasitoids.     

Brief Guide for Authors

正Journal of Arid Land(JAL)is an international journal(ISSN 1674-6767;CN 65-1278/K)for the natural sciences,sponsored by the Xinjiang Institute of Ecology and Geography,Chinese Academy of Sciences and Science Press.It is published by Science Press and Springer-Verlag Berlin Heidelberg bimonthly.JAL publishes original,innovative,and integrative research from arid and semiarid regions,ad     

The parasitoid complex ofLiriomyza cicerina on chickpea (Cicer arietinum)

Liriomyza cicerina (Diptera: Agromyzidae) is an important pest on chickpea in Turkey. The objective of this study was to determine the parasitoids and rates of parasitism ofL. cicerina on chickpea (Cicer arietinum L.) during the 2005 and 2006 seasons in ?anl?urfa province, Turkey. Leaves with mines were sampled weekly and kept in the laboratory to observe and count emerging leafminer and parasitoid adults. Eight parasitoid species were collected: the braconidsOpius monilicornis Fischer andOpius tersus Foerster and the eulophidsDiaulinopsis arenaria (Erdös) andNeochrysocharis formosa (Westwood), which occurred in both the winter and summer seasons;Diglyphus crassinervis Erdös,Neochrysocharis ambitiosa Hansson,Neochrysocharis sericea (Erdös) andPediobius metallicus (Nees), which occurred only in the summer growing areas.Diaulinopsis arenaria was the predominant parasitoid with 4–7.7% parasitism rate whileN. ambitiosa andO. monilicornis were the second and third most predominant species. The results of these trials show that sinceDia. arenaria occurred throughout every season, it could potentially be used for control of the leafminerL. cicerina.     

Plant–herbivore asynchrony necessitates augmentative releases of the exotic beetle,Zygogramma bicolorata,to enhance the biological control of P arthenium hysterophorus

Systematic information on the quantitative impact of Z ygogramma bicolorata on the biology of P arthenium hysterophorus is crucial as the seeds of this weed continue to germinate from the accumulated soil seed bank throughout the year in the form of different germinating flushes, while the activity of the beetle ceases during winter as it enters diapause. Therefore, plant–herbivore interactions need to be explored to develop predictions of the overall impact of the introduced beetle on the weed. The findings revealed that defoliation by Z . bicolorata had a significant impact on the plant height, density and flower production in flushes F ₃, F ₄ and F ₅, but not in F ₁ and F ₂ that exhibited longer periodicity, profuse branching, a longer flowering period and maximum flower production and contributed mostly to the existing seed soil bank. Therefore, total depletion of the existing soil seed bank was not possible. Consequently, the effect of augmentative field releases of laboratory‐reared beetles was explored on F ₁ and F ₂ in February for three consecutive years (2011–2013). Before initiating the trial, random soil samples were taken from the plots that were assigned to the paired treatments (i.e. with the beetle and without the beetle [insecticide‐treated]) and it was found that the seed bank in those samples did not differ. The single release of Z . bicolorata adults at five per plant at the six‐leaf stage significantly reduced the soil seed bank, compared to without the biocontrol agent, irrespective of the flushes at the end of the season.     

Effects of the saprophytic leaf mycoflora on growth and productivity of winter wheat

The effects of the saprophytic mycoflora and its interference with cereal aphids on growth and yield of winter and spring wheat was studied in field experiments in 1980, 1981 and 1982.Yields varied between 5000 and 8000 kg dry matter of kernels per ha. The effect of the saprophytic mycoflora on yield was determined in different treatments: A) no control measures against cereal aphids and saprophytic and necrotrophic fungi, B) no control of cereal aphids, control of saprophytic and necrotrophic fungi, C) control of cereal aphids and control of saprophytic and necrotrophic fungi, D) control of cereal aphids and stimulation of saprophytic mycoflora and E) control of cereal aphids, no control of saprophytic and necrotrophic fungi nor stimulation of saprophytic mycoflora.Considerable differences in top densities of saprophytic mycoflora (10 times as large in A and D as in B and C) were determined. The consequences of these differences for the growth and productivity of wheat were minor. A negative effect of saprophytic mycoflora on the yield could not be detected in 1981 and 1982, whereas a small positive significant effect was found in 1980. This stimulation may have been due to competition between necrotrophic fungal pathogens and saprophytic mycoflora. As a result of favourable weather conditions necrotrophic fungal pathogens were very numerous in 1980 and could form an important yield reducing factor. Yield levels may effect the importance of the necrotrophic and saprophytic mycoflora as yield reducing factors. Additionally, in the presence of aphid honeydew captafol was found to be relatively ineffective against saprophytic fungi.     

Relationship Between Production of the Phytotoxin Prehelminthosporol and Virulence in Isolates of the Plant Pathogenic Fungus Bipolaris sorokiniana

A gas chromatographic method was developed to quantify the phytotoxin prehelminthosporol, which is a sesquiterpene metabolite of the plant pathogen Bipolaris sorokiniana. The toxin was extracted from mycelium or culture filtrates, pre-cleaned using solid phase extraction, and analyzed by gas chromatography as a trimethylsilyl-derivative. The detection limit of the method was 5ngl^–1 (signal to noise ratio 4:1) which corresponds to ca. 15ng prehelminthosporol per mg dry weight of mycelium or 15ng prehelminthosporol per ml culture filtrate. The total amount of prehelminthosporol (mycelium plus culture filtrate) increased with cultivation time when examined in six isolates of B. sorokiniana after 6, 9, 12 and 15 days of incubation. The screening experiment of 17 isolates for prehelminthosporol production after 8 days of incubation revealed significant differences in the toxin production between the isolates. The isolates with low toxin production had lower virulence towards barley roots compared to those with higher production of the toxin. However, the virulence did not increase with prehelminthosporol level among the high producing isolates. Prehelminthosporol was also analyzed in a number of related Bipolaris and Drechslera species. In addition to B. sorokiniana, three out of six Bipolaris species (B. setariae, B. zeicola, B. victoriae) produced prehelminthosporol, which indicates that ability to produce prehelminthosporol is conserved among closely-related Bipolaris species.     

Effect of botanical insecticides and bacterial toxins on the gut enzyme of the rice leaffolderCnaphalocrocis medinalis

The effect of botanical insecticides and bacterial toxins on gut enzyme activity of larvae of the rice leaffolderCnaphalocrocis medinalis (Guenée) (Insecta: Lepidoptera: Pyralidae) was investigated. Gut enzyme activities were affected by botanical insecticides and bacterial toxin individually and in combination. When fed a diet of rice leaves treated with botanical insecticides and bacterial toxins, in bioassays the activities of gut tissue enzymes — acid phosphatases (ACP), alkaline phosphatases (ALP) and adenosine triphosphatases (ATPase) — of rice leaffolder larvae were affected. When combined, the effect was more severe at a low concentration. Larvae that were chronically exposed to botanical insecticides and bacterial toxins showed a reduction in weight (59–89%) and exhibited a significant reduction in ACP, ALP and ATPase activities. The combination ofBacillus thuringiensis kurstaki and botanical insecticides caused a decrease of twofold in enzyme activity even at reduced concentration. A synergistic effect was found when botanical insecticides and bacterial toxins were combined at low doses. These effects were most pronounced in early instars. Clear dose-response relationships were established with respect to enzyme activity. In conclusion: (i) biopesticides are relatively safe and biodegradable; (ii) a synergistic effect of botanical insecticides and bacterial toxins was found; (iii) less expensive, readily available and naturally occurring biopesticides could be an alternative for organic and inorganic pesticides in controlling RLF. http://www.phytoparasitica.org posting Sept. 28, 2004.