Is the effect of priming plants,and a functional JAR1, negligible on the foraging behaviour and development of a generalist lepidopteran,Helicoverpa armigera?

Theory and recent literature suggest strong effects of induced plant defences in some plant herbivore systems. Few have studied behavioural effects on intact plants. Differences in foraging behaviour as well as weight gain were determined for first instar Helicoverpa armigera (Hübner) (Lepidoptera: Noctuidae) on Arabidopsis thaliana (L.) Heynh. (Brassicaceae) mutant and wild type plants, non‐primed, or primed by herbivore feeding or methyl jasmonate. The differences in feeding were primarily in the length of feeding time as opposed to the area fed on, feeding location, or frequency. More larvae dispersed from plants after priming by mite feeding than dispersed after caterpillar feeding. Other behavioural activities such as resting were not significantly affected. Early instars gained less weight feeding on ein2 (ethylene insensitive) mutant, but there was no difference in weight gain between larvae feeding on induced and non‐induced plants of the same type. We concluded that there are fitness consequences for neonates of the generalist H. armigera after feeding on induced plant tissues in some cases, and that distinct changes in behaviour are recognisable both at the fine scale and at grosser levels (dispersal). However, these changes are more subtle than might be expected.     

球孢白僵菌种群在松林中的寄主转移及遗传多样性对松毛虫持续控制的影响

通过林间接种式放菌及其后一周年的野外调查,从林间采集到30种寄主昆虫及从土壤、落叶和气流中分离到119株球孢白僵菌．酯酶同工酶分析表明,它们属于32个不同酯酶型,呈现出丰富的遗传多样性．释放菌株所属的酯酶型02包括从11种昆虫上分离出的18个菌株,表明林间释放的菌株已成功地在不同寄主昆虫种群中宿存下来,并以常发的地方病状态存在于松毛虫及松灰象甲等12种昆虫种群之中;当林间目标寄主缺乏时,其它寄主可将食物链维系下去．其它酯酶型分别包括1～23个菌株．一周年内的寄主转移动态结果表明,球孢白僵菌在松林生态系统中不同寄主间可转移寄生．每个酯酶型中的菌株对松毛虫的毒力相差很大,表明球孢白僵菌在松林中的延续和扩散流行不是1条路线,每个酯酶型至少代表食物网上的1条支链．有些环节的寄主连接了不同的酯酶型,使松林中食物网变得十分复杂,另外。从土壤、枯枝落叶层、林冠层和空气中分离到的球孢白僵菌分属于不同的酯酶型,表明松林中还存在着复杂的腐生食物链,有利于松毛虫及其它害虫的持续控制。     

稻田蜘蛛混合种群空间分布模式动态分析(英文)

结果表明,在东方红农场稻田中总共有11科29属43种蜘蛛,其中早稻田中有8科19属43种,晚稻田中有10科27属36种。在水稻的不同发育阶段蜘蛛混合种群的空间分布模式存在差异。在早稻发育的前期、中期和后期,稻田蜘蛛混合种群的空间分布模式分别是聚集的、随机的和聚集的;在晚稻发育的前期、中期和后期,其空间分布模式依次是均匀的、聚集的和均匀的。同时,对其空间分布模式动态进行了初步分析。     

鲁北沿海蝗区蝗虫天敌蜘蛛类群发生规律初探

笔者于1992～2003 a对鲁北沿海蝗区的蝗虫天敌-蜘蛛类群,进行了大田调查与定点系统调查.鲁北沿海蝗区蜘蛛隶属6科9属14种.明确了蜘蛛类群的消长动态,并对优势种星豹蛛Pardosa astrigera 进行了系统观察,明确了其生活史和习性.并提出了保护利用措施.     

江西省马头山自然保护区蜘蛛初步名录

马头山自然保护区位于江西省东部的资溪县境内,面积113.58平方公里,地处武夷山脉延伸分支,呈马蹄形,境内群山环抱,平均海拔800 m以上,属中亚热带季风气候区,森林覆盖率为90.1%.经调查共获得蜘蛛标本1 750个,经鉴定计27科72属167种,其中江西新记录种94种,另有未确定种16种.     

Using the literature to evaluate parasitoid host ranges: a case study of Macrocentrus grandii (Hymenoptera: Braconidae) introduced into North America to control Ostrinia nubilalis (Lepidoptera: Crambidae)

We propose a method for using the literature to evaluate host ranges of parasitoids that are candidates for biological control introductions. Data on the parasitoids that attack a given host species can be used as negative evidence concerning the candidate whose host range is being evaluated. By compiling studies for a variety of host species, one can delineate those taxa unlikely to be attacked by the candidate. Using a retrospective case study of a parasitoid introduced into North America, we describe (1) this approach to using the literature to evaluate host range and (2) how well predictions based on such an evaluation match actual host range. Based on the host range of Macrocentrus grandii in Eurasia as reported in the literature, we predicted that the species in the genus Ostrinia are the most likely hosts. Of native North American species, Ostrinia obumbratalis is the only non-target species likely to be attacked by M. grandii. The predicted host range for North America matched the actual host range found in the field. This suggests that a careful literature review could be used as an important source of data on host range of parasitoid species proposed for introduction into a new environment.     

Alcidodes sedi (Col.: Curculionidae), a natural enemy of Bryophyllum delagoense (Crassulaceae) in South Africa and a possible candidate agent for the biological control of this weed in Australia

The Madagascan endemic, Bryophyllum delagoense (Crassulaceae), is a major weed in Queensland, Australia. Despite having first been recorded in Australia in the 1940s, it is far more invasive there than on the African mainland where it was introduced more than 170 years ago. This may be due to a number of factors, one of which could be the occurrence of new natural enemy associations in southern Africa. Among the insects of crassulaceous plants that have extended their host ranges, a stem-boring weevil, Alcidodes sedi, was studied to elucidate its status as a natural enemy of B. delagoense in southern Africa and as a candidate biological control agent for introduction to Australia. Laboratory studies indicated that damage inflicted by adult and larval feeding caused significant reductions in stem length and number of leaves. Preliminary host-range trials revealed that A. sedi can complete its development on other species in the Crassulaceae, including most of the introduced Bryophyllum species and some Kalanchoe species native to South Africa. Despite the oligophagous nature of A. sedi and the fact that it can complete its development on a number of ornamental species in the Crassulaceae, it should be considered a potential biological control agent in Australia. All of the native Crassulaceae in Australia are in the genus Crassula, most of which are very small and therefore unlikely to support the development of a large weevil like A. sedi. However, additional host-range trials will have to be undertaken in Australia to determine whether the weevil can be considered safe for release.     

Isolation, Pathogenicity and Safety of Curvularia eragrostidis Isolate QZ-2000 as a Bioherbicide Agent for Large Crabgrass (Digitaria sanguinalis)

A pathogen isolated from lesions on blighted leaves of crabgrass in three different locations of China was identified as Curvularia eragrostidis. Isolate QZ-2000 was the most virulent of six isolates tested. Experiments on morphology, pathogenicity, effect of environmental factors, and host-range of isolate QZ-2000 were conducted in the laboratory, greenhouse and field to assess the potential of this isolate as a biocontrol agent for grassy weeds. Pathogenicity was quantitatively determined based on mortality and dry-weight reduction of infected large crabgrass. Inoculum concentration, rapeseed oil concentration in formulaton, post-inoculation dew temperature and duration, and plant growth age all significantly influenced the efficacy of the isolate. A total of 85-100% control of large crabgrass was obtained when inoculum concentrations were ≥1×10⁶ conidia mL^-1, oil concentrations ≥0.9% (v/v), dew period ≥24 h and air temperatures 20-30°C in the greenhouse. A total of 51 plant species in 20 families were screened against isolate QZ-2000 in host-range studies. Six other species of grassy weeds were susceptible to isolate QZ-2000, but no mortality or significant dry-weight reduction was observed for maize (Zea mays), rice (Oryza sativa), soya bean (Glycine max), cotton (Gossypium hirsutum), or any other economically important crops and plants. In field trials, with 5×10⁶ conidia mL^-1 inoculum density, 60-7% reduction in dry weight was achieved for large crabgrass seedlings under natural dew-free conditions. These results indicate that isolate QZ-2000 is a potential microbial bioherbicide for control of large crabgrass in crops such as corn, soybean, cotton, water-melon, and peanut.