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1.
广西杧果病虫害调查初报 总被引:1,自引:0,他引:1
对广西24个市(县)杧果病虫害进行了系统的调查。发现病害有20种,主要为白粉病、炭疽病、细菌性角斑病、蒂腐病等,其中杧果水泡病、杧果畸型病和杧果红点病为国内新发现的杧果病害;发现害虫94种,隶属于8目38科,主要为杧果小齿螟Pseudonoorda minor Munroe、杧果横线尾夜蛾Chlumetia transversa Walker、杧果茶黄蓟马Scirtothrips dorsalis Hood、桔小实蝇Dacus dorsalis Hendel、杧果扁喙叶蝉Idioscopus incertus Baker等。腹足纲有害生物1种。 相似文献
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我国危害杧果嫩叶的瘿蚊首先由广西亚热带作物研究所发现。危害杧果的瘿蚊据Barnes(1948)记载已有9个属9个种。Felt(1911)发表1个新属1个新种Erosomyiamangiferae,Grover&Prasad(1966)发表危害杧果花的一种瘿蚊Erosomyia indica。我国广西南宁发现危害杧果嫩叶的瘿蚊正是Erosomyia这一属。本种的形态特征描述如下。 相似文献
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在对巴基斯坦杧果种植区苏加堡的杧果树螨类区系研究中,发现短须螨属(蜱螨亚纲:细须螨科)1新种:礼短须螨。文中记录并描述了该新种。新种的背饰特点是:前背中侧近分颈沟处具网状纹、外侧具纵向条纹;具6对末体背侧毛。雄螨 未采到。正模♀,1994年1月1日采自巴基斯坦,苏加堡杧果园的落叶中;副模1,1994年11月3日采自马尔坦南3km处的杧果树叶,曼苏采。模式标本保存于农业大学农业昆虫系螨类研究室,费沙拉堡,巴基斯坦。新种的背饰独特,略与短须螨属中具7对末体背侧毛的种相像,但具6对末体背侧毛的种皆无此种背饰。 相似文献
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濒危植物柄扁桃的传粉者及其访花行为 总被引:2,自引:0,他引:2
对濒危植物柄扁桃(Amygdalus pedunculata)访花昆虫的种类、访花行为、访花频率和日活动规律进行了研究.结果表明:柄扁桃的访花昆虫有5目17科19属21种,其中传粉昆虫为3目11科13属15种,主要的传粉昆虫为黑颚条蜂(Anthophora melanognatha)、密林熊蜂(Bombus patagiatus)、大蜂虻(Bombylius major)、黄腿食蚜蝇(Syrphus ribesii)及红足隧蜂(Halictus rubicundus);主要传粉昆虫的日活动规律差异较大,活动高峰期彼此交错;黑颚条蜂具有体积大、携粉量大、小花停留时间短等特点,为柄扁桃传粉的效率最高,今后应加强其生物学、传粉生态学方面的研究. 相似文献
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西双版纳杧果三种食叶新象虫 总被引:1,自引:0,他引:1
在云南西双版纳,危害杧果的象虫,除作者(1977《昆虫知识》)报导了三种果实新象虫外,近几年来又发现危害杧果嫩叶的新象虫三种,国内尚无报导。现将其种类、形态,生活习性及发生危害情况记述如下:1.杧果卷叶象Apoder genculatus Jaker,新记录 成虫:全体粟色有光泽。长9~12毫米。背部扁平复面隆起。头在复眼下方延长呈长卵形或圆锥形:在与前胸交界处狭缢成细颈状。两眼显著突出。口喙粗短端部渐大,其上密布细小颗粒。头部背面正中稍洼,形成一条中淘,伸达两触角窝的上方。在复眼两侧还有两条浅沟,终止于触角基部。头上中沟两侧生有横向沟纹。 相似文献
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昆虫寄主标记信息素 总被引:8,自引:2,他引:6
综述了昆虫寄主标记信息素的研究进展。昆虫寄主标记信息素是指由昆虫产生的用来标记寄主上有同种个体存在的化学物质。昆虫寄主标记信息素的主要生态学功能是调节昆虫的产卵行为,通过阻止自身或同种其它个体对已标记寄主的产卵选择,或减少产卵量来减少后代之间对寄主资源的竞争。寄主标记信息素也会给释放着带来不利的影响,如信息盗用和盗寄生现象等。昆虫寄主标记信息素也调节昆虫近缘种之间对共同寄主资源的竞争。近缘种昆虫对相互寄主标记信息素识别能力的差异反映了不同昆虫对同一寄主资源竞争能力的强弱。寄主标记信息素产生和贮存的部位一般与外分泌腺、消化系统或生殖系统相联系,杜氏腺、毒腺、前胸腺、腹腺、下唇腺、后产卵管、卵巢、中肠和后肠等是产生或贮存寄主标记信息素的常见部位。产生的寄主标记信息素一般在成虫产卵时由产卵器、口器或排泄口释放到寄主体内或体表。卵寄生蜂的寄主标记信息素一般标记在寄主的体表,雌成蜂用触角检测;其它寄生蜂的寄主标记信息素常产在寄主体内,用产卵器检测;植食性昆虫的寄主标记信息素只产在寄主表面,用触角或产卵器检测。昆虫的产卵器、口器、触角或跗节上着生有感受寄主标记信息素的化感器,可以检测到标记在寄主体内或体表的寄主标记信息素。昆虫寄主标记信息素的完全定性涉及活性化合物的分离、鉴定、合成以及行为测定等,已有几种昆虫的寄主标记信息素成分得到了分离鉴定。 相似文献
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昆虫内共生菌在昆虫防御中的作用 总被引:5,自引:0,他引:5
共生菌在昆虫体内的生长、繁殖过程中起着十分重要的作用,如营养功能、解毒作用、调控生殖及与寄主适应性等等。近些年,一些学者提出了共生菌在寄主抵御天敌等逆境的胁迫时也具有重要的作用。其在寄主防御中的作用可分为3类:(1)昆虫体内共生菌能产生具有抗真菌作用的代谢物,能够抵御病原真菌的入侵,提高寄主的适应性。(2)昆虫抵御寄生蜂的作用与其体内的共生细菌密切相关。(3)共生菌也能产生有毒物质保护寄主免于被捕食。昆虫共生菌在寄主防御中的作用机制除了产生抗菌物质和聚酮类等有毒物质外,还可能通过与水平传播的寄生物(horizontal transmission parasites,HTPs)竞争寄主资源来直接保护寄主。对共生菌的作用的深入研究将有可能进一步明确其功能,并加以利用。 相似文献
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南亚果实蝇Zeugodacus tau(Walker)是一种世界性的重要检疫害虫,严重危害多种水果和瓜菜。为明确寄主植物对南亚果实蝇耐寒性的影响,本文利用过冷却点仪,对取食苦瓜Momordica charantia L.、黄瓜Cucumis sativus L.、丝瓜Luffa aegyptiaca Miller和杧果Mangifera indica L.的南亚果实蝇5个发育阶段的过冷却点和体液冰点进行了测定。结果显示:每一组寄主植物上的5个发育阶段中,南亚果实蝇5日龄蛹的过冷却点和体液冰点均为最低,显著低于1日龄蛹、幼虫和成虫;不同寄主南亚果实蝇同一发育阶段的过冷却点和体液冰点存在显著差异,均值分别为-23.97~-8.06℃和-14.02~-0.59℃,其中取食苦瓜的南亚果实蝇5日龄蛹过冷却点和体液冰点最低,均值分别为-23.97℃和-14.02℃,但与黄瓜无显著差异;4种寄主中老熟幼虫、1日龄蛹、1日龄雌成虫和5日龄雌成虫过冷却点均为取食黄瓜最低;杧果种群1日龄雌成虫过冷却点最高,均值为-7.47℃,苦瓜种群老熟幼虫体液冰点最高,均值为-0.59℃。本研究有助于了解寄主对南亚果实... 相似文献
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The mango weevil, Cryptorhynchus (= Sternochetus) mangiferae (F.), is a federally quarantined pest that prevents shipment of mangos from Hawaii into the continental United States. Although this monophagous weevil allegedly causes reduced seed germination, damage to the fruit pulp, and premature fruit drop in mangos, there are few studies examining these potential sources of crop loss. We conducted studies to assess the effect of mango weevil infestation on seed viability while making observations on the frequency of pulp feeding. Naturally infested seeds from mature fruit were planted in pots and scored for successful germination. Germination rates for infested seeds were equal to those of uninfested control seeds in a polyembryonic cultivar ('Common'), whereas germination was significantly reduced for infested seeds of a monoembryonic cultivar ('Haden') compared with uninfested control seeds but germination of infested seeds was still > 70%. To assess seed tolerance of damage, seeds were artificially damaged by cutting away 25, 50, or 75% of the cotyledon before planting and scored for germination. None of the damage treatments was significantly different from the undamaged controls, indicating that mango seeds can withstand substantial damage and still germinate successfully. Over the 2-yr period we conducted experiments, only four of 3,602 mango fruits (0.11%) showed evidence of direct feeding damage to the pulp. Results suggest that C. mangiferae is a less serious pest of mangos than previously thought. 相似文献
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Specimens of the mango stone weevil Sternochetus mangiferae (Fabricius) (Coleoptera: Curculionidae) were found in fruits of mango from a tree in the residential area of the Rio de Janeiro, RJ. This is the first report of the S. mangiferae in Brazil, currently regulated as an absent quarantine pest in the country. A taxonomist specialized in Curculionidae confirmed the identification based on morphological diagnostics characteristics. This detection is a relevant finding, because Brazil is a major producer and exporter of mango and the main areas of mango for exportation are located very far from this detection point. This pest damages seed and embryo of mango fruits and it causes reduction of fruit size and its premature dropping. The detection was notified to the Plant Health Department, division of the Brazilian Ministry of Agriculture, Livestock and Food Supply (MAPA), which is the National Plant Protection Organization of Brazil. 相似文献
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Asha Wijerathna Héctor Cárcamo Maya Evenden 《Entomologia Experimentalis et Applicata》2024,172(5):436-445
Overwintering conditions affect the physiological state of ectotherms, and therefore, their cold hardiness and survival. A measure of the lethal and sublethal impacts of overwintering conditions on pest populations is crucial to predict population dynamics and to manage pests the following spring. The impact of winter conditions can be most intense for invasive insects undergoing range expansion. Insect herbivores can display plastic host use behaviours that depend on their body condition following winter. The pea leaf weevil, Sitona lineatus L. (Coleoptera: Curculionidae), is an invasive pest of field peas, Pisum sativum L., and faba bean, Vicia faba L. (Fabaceae). Pea leaf weevil has expanded its range in North America to include the Prairie Provinces of Canada. This study investigated the effects of temperature and microhabitat on overwintering survival and cold hardiness of pea leaf weevil in its expanded range. Further, we investigated the sublethal effect of overwintering temperature and duration on post-overwintering survival, feeding, and oviposition of pea leaf weevil. We also investigated the role of juvenile hormone in modulating body condition of overwintering weevils. The overwintering survival of pea leaf weevil adults increased with soil temperature and varied with region and microhabitat. More weevils survived winters when positioned near tree shelterbelts compared to open alfalfa fields. The supercooling point of pea leaf weevil varied throughout its expanding range but did not differ for weevils held in the two microhabitats. The average threshold lethal temperature of pea leaf weevil at all three sites was −9.4 °C. Weevils that overwintered for a longer duration and at a higher temperature subsequently fed more on faba bean foliage and laid more eggs compared to those which overwintered for a shorter duration at a lower temperature. Our findings highlight that warm winters would increase overwintering survival and post-overwintering fitness, facilitating further pea leaf weevil invasion northward in the Prairie Provinces of Canada. 相似文献
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Hanavan RP Bosque-Pérez NA Schotzko DJ Guy SO Eigenbrode SD 《Journal of economic entomology》2008,101(5):1606-1613
The pea leaf weevil, Sitona lineatus (L.) (Coleoptera: Curculionidae), is an important pest of pea, Pisum sativum L., in northern Idaho. Previous research revealed greater relative pea leaf weevil abundance and feeding damage in peas grown using conventional-tillage compared with no-tillage practices. However, the effects of tillage practices on early season colonization and activity by the pea leaf weevil on pea are not fully understood. Aerial traps and pitfall traps were used to assess adult colonization and relative density of adult pea leaf weevil into conventional-tillage and no-tillage pea in northern Idaho during 2005 and 2006. Feeding damage to the crop also was evaluated. During both years, aerial traps captured more pea leaf weevil in May, when crop establishment and early growth occurred, than in later months. Significantly more adult pea leaf weevils were captured in aerial traps in conventional-tillage than in no-tillage plots in May of both years. Significantly more pea leaf weevil were captured in pitfall traps in conventional-tillage plots than in no-tillage plots during the period immediately after peak aerial adult colonization in late May and early June. Crop feeding damage was significantly greater in conventional-tillage than in no-tillage plots in late May and early June. The patterns suggest that more adult pea leaf weevil colonize conventional-tillage pea than no-tillage pea. Pea plants in conventional-tillage emerged earlier and were larger than those in no-tillage during the pea leaf weevil colonization period, possibly accounting for the differences in colonization rates. This leads to greater early season pea leaf weevil infestation of conventional-tillage plots at a critical period for pea development that might ultimately influence crop yield. 相似文献
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Li-Jie Zhang Bing-Han Xiao Yuan Wang Chun-Sheng Zheng Jian-Guang Li Kari A. Segraves Huai-Jun Xue 《Agricultural and Forest Entomology》2021,23(3):353-360
- The mango seed weevil Sternochetus mangiferae (Fabricius) is distributed across the major mango-producing areas of the world and causes significant economic losses of mango fruit. Despite its importance as a crop pest, we have only limited information on the population genetics of the mango seed weevil.
- Here, we examined the genetic diversity of this important pest using specimens intercepted by Beijing Customs District P. R. in China from 41 countries and regions. We used segments of the mitochondrial gene cytochrome c oxidase subunit I and the nuclear gene elongation factor 1-alpha to examine population genetic structure in this species.
- Our results showed that genetic diversity is low in S. mangiferae, with a mean genetic distance of 0.095–0.14%. Other population genetic parameters also indicated a low level of genetic diversity among samples from a large geographic range. Analysis of molecular variance revealed little population genetic structure, and mismatch distribution analyses provided evidence of a population expansion, although other demographic metrics of population expansion were nonsignificant.
- We suggest that the observed low level of genetic diversity and population genetic structure in S. mangiferae supports the hypothesis that the population genetics of this species has been impacted by anthropogenic transportation of mangoes and weevils.
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Imported longhorned weevil (Coleoptera: Curculionidae) injury to soybean: physiological response and injury guild-level economic injury levels 总被引:1,自引:0,他引:1
The imported longhorned weevil, Calomycterus setarius Roelofs, is an occasional pest of soybean, Glycine max (L.), and can cause substantial defoliation of seedling soybean when the weevil is present in large numbers. Because weevil populations can reach high levels, the potential exists for significant seedling injury, so economic injury levels (EILs) are needed for imported longhorned weevil on seedling soybean. Because the bean leaf beetle, Cerotoma trifurcata (Forster), also is present on seedling soybean, injury by this insect should be included in EIL calculations. This study was conducted to (1) determine daily soybean consumption rates of imported longhorned weevil; (2) compare soybean injury responses between weevil injured and noninjured soybeans; and (3) develop multiple species EILs for imported longhorned weevil and bean leaf beetle. Field and laboratory studies were conducted in 1997 to determine weevil daily consumption rates. Field experiments were conducted in 1998 to examine physiological responses of soybean to weevil injury. Field and laboratory consumption rates were 0.16 and 0.21 cm2 per day, respectively. There were no significant differences in physiological responses (i.e., photosynthetic rates, stomatal conductance, and transpiration rates) between noninjured soybean leaflets (caged) and weevil-injured leaflets. Multiple-species EILs were developed for imported longhorned weevil and bean leaf beetle on VC through V3 soybean. 相似文献
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基于GARP的三种芒果象甲在中国的适生性分析 总被引:1,自引:0,他引:1
芒果象甲Sternochetus Pierce昆虫是芒果的重要害虫,明确其可能适牛的区域对该虫的科学监测及防治意义重大.本文利用芒果象甲属中主要3种:印度果核芒果象S.mangiferae Fabricius、果核芒果象S.olivieri Faust、果肉芒果象S.frigidus Fabrieius的已知分布点数据和亚洲地区的14个环境地理变量图层,运用GARP生态位模型结合GIS空间分析模块预测了该虫在中国的潜在地理分布,结果表明芒果象甲具有较强的扩散蔓延趋势,对我国的芒果产业构成较大的潜在威胁. 相似文献
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Follett PA 《Journal of economic entomology》2002,95(2):336-339
The effect of infestations of mango seed weevil, Sternochetus mangiferae (F.), on premature fruit drop of mangoes was investigated. Mango fruits ('Haden') of equal size were collected both off the ground and from the tree at four times during the season (June-August). If weevil-infested fruit were more prone to dropping than uninfested fruit, the prediction was that a higher infestation rate would be found in fruit on the ground compared with fruit on the tree. Average fruit weight was used as an indicator of fruit maturity. The seed infestation rate was significantly higher in fruit collected off the ground compared with fruit collected from the tree in 38 g and 79 g (early-season) fruit but not significantly different in 207 g (midseason) and 281 g (late season) fruit. The age distribution of weevils and the number of insects in infested fruits were similar for ground and tree fruits on all dates. Results suggest that mango seed weevil infestation can increase fruit drop during early fruit development. 相似文献
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KAZUHIKO SAKURAI 《Ecological Entomology》1986,11(3):319-323
ABSTRACT.
- 1 The female weevil of Apoderus balteatus Roelofs cuts the leaf near its base in order to make a leaf-roll‘cradle', in which one, two or three eggs are laid. Cuts are always located about 5 mm from the leaf base, independent of leaf size.
- 2 Larger leaves are made into larger cradles.
- 3 Weevils tend to lay more eggs in large cradles.
- 4 Eggs are laid through different holes and separated by leaf layers in the cradle. Cannibalism by larvae will be prevented by this isolated oviposition.
- 5 Multiple oviposition of this weevil allows larger leaves to be used by multiple larvae. It facilitates more efficient use of larger leaves and economizes on female effort in cradle formation.