昆虫相关论文题目有哪些英文怎么说

catchinginsects(现在进行时)catchinsects(一般形态)

儿童动物玩具启蒙：学习英语单词，认识各种昆虫、海洋生物

呵呵。这个提问太哪个了。不好回答。

研究昆虫控制的文章Athenix and Monsanto Announce Collaboration on Research for Insect ControlRESEARCH TRIANGLE PARK， NC and ST LOUIS， June 20 /PRNewswire-FirstCall/ -- Athenix C and Monsanto Company today announced they have entered into a three-year research collaboration for insect control on a key class of insects that affects a number of Monsanto's major crops of Financial terms of the agreement were not "We are pleased to work with the market leader in crop genetics to bring our technical capabilities to commercialization，" said Mike Koziel， chief executive officer for A "Working with Monsanto to discover novel genes for controlling insect pests increases options for farmers and allows Athenix to demonstrate the power of its integrated discovery platforms for new biotech traits，" said Nick Duck， vice president of research at A Athenix will apply its expertise in microbial screening and genomics to facilitate gene discovery intended to help protect crops such as cotton， soybeans and corn against a common class of insects known as H Hemipteran insects include Lygus， a pest of cotton， and stinkbug， a pest of "This collaboration will work to offer an essential benefit to our farmer customers by providing insect protection in crops such as corn， cotton and soybeans against the piercing and sucking Insect tolerant crops allow growers to spray less pesticide， making their operations more efficient and at the same time stewarding the environment，" said Robert T Fraley， PD， Monsanto executive vice president and chief technology "We're excited to collaborate with Athenix to help broaden grower's options for insect " About Athenix: Athenix is a leading biotechnology company that develops novel products and technologies for agricultural and industrial applications， including biofuels and Athenix has established an outstanding intellectual property portfolio and market access ability around enhanced plants， microbes， genes， enzymes， and processes with emphasis on two major markets: 1) novel agricultural traits for growers such as insect resistance， nematode resistance， herbicide tolerance， and their use for the crop production industry; and 2) the discovery of genes and proteins for use in the sustainable chemical industry with a focus on biofuels like ethanol and other natural Biological control of locusts New weapons for old enemiesDuring the 1988 desert locust plague， swarms crossed the Atlantic from Mauritania to the Caribbean， flying 5 000 kilometres in 10 Scientists were stumped because migrating swarms normally come down to rest every But locusts can’t swim， so how could it be? It turned out that the swarms were coming down at sea – on any ships they could find， but also in the water The first ones in all drowned but their corpses made rafts for the other ones to rest Since the dawn of agriculture more than 10 000 years ago mankind has had to deal with a resourceful and fearless enemy， Schistocerca gregaria， the desert Normally loners， every so often these natives of the deserts from West Africa to India turn into vast， voracious swarms that leave hunger and poverty behind them wherever they Throughout history， farmers and governments have made attempts to repel the bands and swarms of locusts by collecting insects， creating noise， making smoke and burying and burning the But all of this had little With swarms sometimes extending for hundreds of kilometres， and containing billions of individuals， they conquered by sheer force of Health concernsIt has long puzzled humans where these animals came from and where they Only in the mid-20th century was it realized that the light brown solitary desert-dwelling insect was the same species as the red and yellow locusts of the Only when its biology was understood and chemical pesticides and aerial spraying became available a few decades ago， could efforts be made to control the But large-scale pesticide use also raised real concerns for human health and the On the seventh-floor Emergency Centre for Locust Operations (ECLO) at FAO Headquarters in Rome， Keith Cressman， FAO's locust forecaster， checks current environmental conditions and locust population data from the three computer screens on his The last big locust upsurge ended early in 2005 and the current alert level is green or The experts at FAO’s ECLO are readying to fight the next round in the age-old battle against locusts – wherever and whenever that may “The next time，” says Cressman， “we’ll fight with new tools” New bio-control agents Recent advances in biological control research， coupled with improved surveillance and intelligence， could make a big difference when the next round in the battle is Such products could make it possible to sharply reduce the amount of chemical pesticides One promising avenue is research currently under way at the International Centre for Insect Physiology and Ecology (ICIPE) in N An ICIPE team headed by a Zanzibar-born chemical ecologist， Ahmed Hassanali， has identified and synthesized a specific locust pheromone， or chemical signal， that can be used against young locusts with devastating Phenylacetonitrile， or PAN for short， normally governs swarming behaviour in adult males who also use it to warn other males to leave them in peace while they But， Hassanali found it has startlingly different results on juvenile wingless locusts， known as Hopper bandsJust as adult locusts form swarms， hoppers will， given the right conditions， stop behaving as individuals and line up in marauding bands up to 5 kilometres They are only slightly less voracious than adults， who eat their own weight of food every In three separate field trials – the most recent in Sudan last year – Hassanali’s team showed that even minute doses of PAN could stop hopper bands dead in their tracks and make them break PAN caused the insects to resume solitary Confused and disoriented， some lost their appetite altogether， while others turned cannibal and ate one Any survivors were easy prey for What makes PAN particularly attractive is that the dose needed is only a fraction – typically less than 10 millilitres per hectare – of the quantities of chemical or biological This translates into substantially lower costs – 50 cents per hectare as opposed to US$12 for chemical pesticides and $15-20 for other bio-control That is clearly a major consideration in the countries in the front line – many of them among the world’s Green Muscle A different， but also highly effective biological approach is Green Muscle ®， a bio-pesticide developed by the International Institute for Tropical Agriculture’s biological control centre in Cotonou， Benin， and manufactured in South A Green Muscle ® contains spores of the naturally occurring fungus Metarhizium anisopliae acridum， which germinate on the skin of locusts and penetrate through their The fungus then destroys the locust's tissues from the This is definitely not good news for locusts， but the fungus has no effect on other life A product similar to Green Muscle ® is already successfully used in Australia， but the latter's introduction in Africa and Asia is being slowed by several These include a need for further large-scale trials， official approval of the product in several countries， and a relatively short shelf-life in its normal ready-to-spray liquid One drawback is that it takes days to kill the It is also relatively expensive and large-scale production would need to be A solution would be to store the product in powder form and dilute it just before Hassanali’s team has also shown that， if used in combination with a small amount of PAN， only a quarter of the normal dose of Green Muscle ® is Insect Growth RegulatorsAlso being readied for the modern locust fighter’s armoury is a class of products known as Insect Growth Regulators， or IGRs， which influence the ability of hoppers to moult and grow They have no direct toxic effects on IGRs are effective for several weeks after application and can be used in so-called barrier In this method only narrow swathes of the product are applied， perpendicular to the direction of the marching hopper Only 10 percent of the amount used in blanket treatment is After marching over one or two barriers the hoppers absorb enough product to die while As with PAN and Green Muscle ®， however， IGRs need to be aimed at locusts at an early stage in their lives， before they take to the That， in turn， requires an advanced level of surveillance and intelligence-gathering to make sure that any locust concentrations are nipped in the eLocust2Although back at ECLO Keith Cressman has satellites， computers and mathematical models at his disposal， the weak link in the chain has been the time it takes to get good information from the The mobile ground teams whose job it is to keep tabs on locust populations have to work in some of the world’s remotest， hottest and sometimes (for environmental and security reasons) most hostile A week or more might go by before a report from， say， the central Sahara， reached Cressman’s By that time the locusts – “They don’t need visas，” he says – would quite likely have moved to another country or continent This will soon change Field teams are now being issued with special hand-held devices to record vital locust and environmental data and relay them back to their own headquarters and on to Rome in real Developed by the French Space Agency CNES， the eLocust2 device is able to bounce the information off communications satellites and have the data arrive in the National Locust Control Centre in the affected country a few minutes later， from where they are passed on to Cressman for In case of unusually heavy hopper concentrations， immediate action can be taken to make sure that the locusts never grow old enough to Back to the fieldWriting in Science magazine， locust expert Martin Enserink gave the following graphic description of a locust population gone out of control:“On a beautiful November morning (in Morocco) it’s clear， even from afar， that something’s terribly wrong with the trees around this tiny They are covered with a pinkish-red gloss， as if their leaves were changing "As you get closer， the hue becomes a wriggling mass; a giant cap of insects on every tree， devouring the tiny Get closer still and you’ll hear a soft drizzle: the steady stream of locust droppings falling to the ” Such nightmare visions， and locust plagues with them， may one day be a thing of the

昆虫相关论文题目有哪些英文

bee 蜜蜂 wasp 黄蜂 ant 蚂蚁 termite 白蚁 butterfly 蝴蝶 mosquito 蚊子 dragongfly 蜻蜓 cicada 蝉 crecket 蟋蟀 fly 苍蝇 mantis 螳螂 bug 小虫 grassshopper 蚂蚱 locust 蝗虫 cootie 虱子 flea 跳蚤 bedbug 臭虫 centipede 蜈蚣 spider 蜘蛛 weevil 象甲borer 钻孔虫firefly 萤chafer 鳃角金龟curculio 锥象甲firefly萤火虫蝎子（Scorpion）ladybird 瓢虫 ]scarab 金龟子

bee 蜜蜂 butterfly 蝴蝶 water nymph蜻蜓 ant蚂蚁 spider蜘蛛 gecko壁虎 grasshopper蚱蜢

那么多昆虫，你要哪个？找英文的，你去google啊。

儿童动物玩具启蒙：学习英语单词，认识各种昆虫、海洋生物

昆虫相关论文题目有哪些英文翻译

Lepidoptera Life Cycles The life cycle of Lepidoptera (butterflies， skippers， and moths) consists of four distinct stages: egg， larva (caterpillar)， pupa (chrysalis or cocoon) and The butterfly， skipper or moth begins life as a tiny Females lay their eggs on specific plants (called host plants or food plants) that serve as food for the next stage， the Within several days， a caterpillar (or larva) chews its way out of the Caterpillars spend their life eating - increasing their weight more thasn 3000 As it grows， the caterpillar molts， or sheds its exoskeleton， 4-5 After several weeks the caterpillar prepares to enter the pupal The butterflies attach themselves to a firm support， shed their exoskeleton and become a Moth and skipper caterpillars cover themselves with silk (forming a protective cocoon)， shed their exoskeleton and The chrysalis stage may last several weeks -- during which time the body of the caterpillar is broken down and slowly reformed into the body of an adult The pupae inside the cocoons of moths generally spend the winter in the cocoon before completing their transformation the following The new adult emerges from the chrysalis or cocoon with soft， wrinkled Fluid and blood from ther bosy are pumped intot he ， inflating them to their full After the wings inflate and harden (a process that generally takes several hours) the adult butterfly or moth is able to fly and begin its search for food and/or a

bee 蜜蜂 butterfly 蝴蝶 water nymph蜻蜓 ant蚂蚁 spider蜘蛛 gecko壁虎 grasshopper蚱蜢

bee 蜜蜂wasp 黄蜂ant 蚂蚁termite 白蚁butterfly 蝴蝶mosquito 蚊子dragongfly 蜻蜓cicada 蝉crecket 蟋蟀fly 苍蝇mantis 螳螂bug 小虫grassshopper 蚂蚱locust 蝗虫cootie 虱子flea 跳蚤bedbug 臭虫centipede 蜈蚣spider 蜘蛛weevil 象甲borer 钻孔虫firefly 萤chafer 鳃角金龟curculio 锥象甲firefly萤火虫蝎子（Scorpion）ladybird 瓢虫]scarab 金龟子

昆虫相关论文选题题目有哪些

《昆虫记》这本书使我十分着迷，读了它我才知道，原来昆虫世界有这么多的奥秘，我知道了：凌晨，蝉是怎样脱壳；屎壳螂是如何滚粪球的；蚂蚁是怎样去吃蚜虫的分泌物。还弄清了：“螟蛉之子”是错误的，蜂抓青虫不是当成自己的儿子养，而是为自己的后代安排食物。第一次读《昆虫记》，不知怎么的它就吸引了我。这是一部描述昆虫们生育、劳作、狩猎与死亡的科普书，平实的文字，清新自然；幽默的叙述，惹人捧腹……人性化的虫子们翩然登场，多么奇异、有趣的故事啊！法布尔的《昆虫记》，让我没有梦幻感，那些具体而详细的文字，不时让我感觉到放大镜、潮湿、星辰，还有虫子气味的存在，仿佛置身于现场一样。被我忽视太久了的昆虫的身影，及它们嚣张的鸣叫，一下子聚拢过来，我屏住呼吸，然后，凭它们穿透了我心灵的幽暗。是法布尔，让我看到了昆虫跟我们人类在生与死，劳动与掠夺等许多问题上都有着惊人的相似。《昆虫记》不是作家创造出来的世界，它不同于小说，它们是最基本的事实！是法布尔生活的每一天每一夜，是独自的，安静的，几乎与世隔绝的寂寞与艰辛。我仰起了头，这一刻，我非常想仰起我的头，像仰望星空一样，来对待昆虫们存在的奥秘。它使我第一次进入了一个生动的昆虫世界。于是，我接着往下看《昆虫记》。接着往下看，《昆虫记》是一个个有趣的故事：“螳螂是一种十分凶残的动物，然而在它刚刚拥有生命的初期，也会牺牲在个头儿最小的蚂蚁的魔爪下。”蜘蛛织网，“即使用了圆规、尺子之类的工具，也没有一个设计家能画出一个比这更规范的网来”，丰富的故事情节使我浮想联翩。看着看着，这些虫子们渐渐地清晰起来，我思考着：如果我们环境保护，不环境污染，这些虫子是不是还会在呢？现在的环境恶化，又是不是在以后还会有呢？我仔细地想了一想这彼此之间的关系，这一次的阅读，《昆虫记》为我打开了一扇全新的门。当我继续阅读《昆虫记》时，我看到法布尔细致入微地观察毛虫的旅行，我看到他不顾危险捕捉黄蜂，我看到他大胆假设、谨慎实验、反复推敲实验过程与数据，一步一步推断高鼻蜂毒针的作用时间与效果，萤的捕食过程，捕蝇蜂处理猎物的方法，孔雀蛾的远距离联络……一次实验失败了，他收集数据、分析原因，转身又设计下一次。严谨的实验方法，大胆的质疑精神，勤勉的作风。这一次，我感觉到了 “科学精神”及其博大精深的内涵。昆虫学家法布尔以人性关照虫性，千辛万苦写出传世巨著《昆虫记》，为人间留下一座富含知识、趣味、美感和思想的散文宝藏。它行文生动活泼，语调轻松诙谐，充满了盎然的情趣。在作者的笔下，杨柳天牛像个吝啬鬼，身穿一件似乎“缺了布料”的短身燕尾礼服；小甲虫“为它的后代作出无私的奉献，为儿女操碎了心”；而被毒蜘蛛咬伤的小麻雀，也会“愉快地进食，如果我们喂食动作慢了，他甚至会像婴儿般哭闹”。多么可爱的小生灵！难怪鲁迅把《昆虫记》奉为“讲昆虫生活”的楷模。我叹服法布尔为探索大自然付出的精神，让我感受到了昆虫与环境息息相关，又让我感受到了作者的独具匠心和细微的观察。《昆虫记》让我眼界开阔了，看待问题的角度不一样了，理解问题的深度也将超越以往。我觉得《昆虫记》是值得一生阅读的好书，我想无论是谁，只要认真地阅读一下《昆虫记》，读出滋味，读出感想，一定可以知道的更多。

昆虫是如何发声的昆虫的声音是由特殊的发音器官产生的。下面简单介绍几种昆虫的发声原理—— 在各种鸣虫中，蟋蟀的鸣声清脆好听。这个方面的我可以写的

昆虫相关论文题目有哪些类型

原书章节（参照花城出版社《昆虫记》全集）卷一：第一章圣甲虫第二章大笼子第三章捕食吉丁的节腹泥蜂第四章栎棘节腹泥蜂第五章高明的杀手第六章黄足飞蝗泥蜂第七章匕首三击第八章幼虫和蛹第九章高超的理论第十章朗格多克飞蝗泥峰第十一章本能赋予的技能第十二章本能的无知第十三章登上万杜山第十四章迁徙者第十五章砂泥蜂第十六章泥蜂第十七章捕捉双翅目昆虫第十八章寄生虫与茧第十九章回窝第二十章石蜂第二十一章实验第二十二章换窝卷二：第一章荒石园第二章毛刺砂泥蜂第三章一种未知的感官第四章关于本能的理论第五章黑胡蜂第六章蜾蠃第七章关于石蜂的新研究第八章我的猫的故事第九章红蚂蚁第十章浅谈昆虫的心理学第十一章黑腹狼蛛第十二章蛛蜂第十三章树莓桩中的居民第十四章西芫菁第十五章西芫菁的初龄幼虫第十六章短翅芫菁的初龄幼虫第十七章多次变态卷三：第一章土蜂第二章充满艰险的进食第三章花金龟的幼虫第四章土蜂的问题第五章各种寄生虫第六章寄生理论第七章石蜂的苦难第八章卵蜂虻第九章褶翅小蜂第十章另一种钻探者第十一章幼虫的二态现象第十二章步甲蜂第十三章三种芫菁第十四章变换食谱第十五章给进化论戳一针第十六章按照性别分配食物第十七章各种壁蜂第十八章性别的分配第十九章母亲支配卵的性别第二十章产卵的调换卷四：第一章长腹蜂第二章黑蛛蜂与长腹蜂的食物第三章本能的差错第四章燕子和麻雀第五章本能和鉴别力第六章体力的节省第七章切叶蜂第八章黄斑蜂第九章采脂蜂第十章筑巢蜾蠃第十一章大头泥蜂第十二章砂泥蜂的方法第十三章土蜂的方法第十四章蛛蜂的方法第十五章异议和回答第十六章蜂类的毒液第十七章天牛第十八章树蜂的问题卷五：第一章圣甲虫的粪球第二章圣甲虫的梨形粪球第三章圣甲虫的造型术第四章圣甲虫的幼虫第五章圣甲虫的蛹和羽化第六章宽背金龟和侧裸蜣螂第七章西班牙粪蜣螂的产卵第八章西班牙粪蜣螂的母爱第九章嗡蜣螂和缨蜣螂第十章粪金龟和公共卫生第十一章粪金龟筑巢第十二章粪金龟的幼虫第十三章蝉和蚂蚁的寓言第十四章蝉出地洞第十五章蝉的羽化第十六章蝉的歌唱第十七章蝉的产卵和孵化第十八章螳螂捕食第十九章螳螂的情爱第二十章螳螂的窝第二十一章螳螂卵的孵化第二十二章椎头螳螂卷六：第一章赛西蜣螂父亲的本能第二章月形粪蜣螂野牛双凹蜣螂第三章遗传论第四章我的学校第五章潘帕斯草原的食粪虫第六章昆虫的着色第七章负葬甲埋葬第八章负葬甲实验第九章白额螽斯的习性第十章白额螽斯的产卵和孵化第十一章白额螽斯的发声器第十二章绿色蝈蝈儿第十三章蟋蟀的住所和卵第十四章蟋蟀的歌唱和交配第十五章蝗虫的角色和发声器第十六章蝗虫的产卵第十七章蝗虫的羽化第十八章松毛虫的产卵和孵化第十九章松毛虫的窝和社会第二十章松毛虫的行进行列第二十一章松毛虫的气象台第二十二章松毛虫蛾第二十三章松毛虫引起的刺痒痛第二十四章野草莓树毛虫第二十五章昆虫的毒素卷七：第一章大头黑步甲第二章装死第三章催眠状态自杀第四章老象虫第五章色斑菊花象第六章熊背菊花象第七章植物性本能第八章欧洲栎象第九章榛子象第十章青杨绿卷象第十一章葡萄树象第十二章其他卷叶象第十三章黑刺李象第十四章叶甲第十五章叶甲（续）第十六章牧草沫蝉第十七章锯角叶甲第十八章锯角叶甲的卵第十九章水塘第二十章石蛾第二十一章蓑蛾的产卵第二十二章蓑蛾的保护层第二十三章大孔雀蛾第二十四章小阔纹蛾第二十五章嗅觉卷八：第一章花金龟第二章豌豆象产卵第三章豌豆象幼虫第四章菜豆象第五章真椿第六章臭虫猎椿第七章隧蜂与寄生蝇第八章隧蜂看门人第九章隧蜂的无性生殖第十章笃蓐香树蚜虫的瘿第十一章笃蓐香树蚜虫的迁徙第十二章笃蓐香树蚜虫的交配和卵第十三章食蚜者第十四章绿蝇第十五章麻蝇第十六章腐阎虫和皮蠹第十七章珠皮金龟第十八章昆虫的几何学第十九章胡蜂第二十章胡蜂（续）第二十一章蜂蚜蝇第二十二章彩带圆网蜂第二十三章纳博讷狼蛛卷九：第一章纳博讷狼蛛的洞穴第二章纳博讷狼蛛的家第三章纳博那狼蛛攀高的本能第四章蜘蛛的迁徙第五章满蟹蛛第六章圆网蛛织网第七章我的邻居圆网蛛第八章圆网蛛的黏液捕虫网第九章圆网蛛的电报线第十章蛛网的几何学第十一章圆网蛛的交配与捕猎第十二章圆网蛛的产业第十三章数学忆事：牛顿二项式第十四章数学忆事：我的小桌第十五章迷宫漏斗蛛第十六章克罗多蛛第十七章朗格多克蝎子的栖息所第十八章朗格多克蝎子的食物第十九章朗格多克蝎子的毒液第二十章朗格多克蝎子与蛴螬的免疫力第二十一章朗格多克蝎子的婚恋第二十二章朗格多克蝎子的交配第二十三章朗格多克蝎子的家庭第二十四章蜡衣虫第二十五章圣栎胭脂虫卷十：第一章蒂菲粪金龟的洞穴第二章蒂菲粪金龟与第一观察器第三章蒂菲粪金龟与第二观察器第四章蒂菲粪金龟的道德第五章球象第六章大薄翅天牛和木蠹第七章公牛嗡蜣螂的巢室第八章公牛嗡蜣螂的幼虫和蛹第九章松树鳃金龟第十章沼泽鸢尾象第十一章食素昆虫第十二章侏儒第十三章论反常第十四章金布甲的食物第十五章金布甲的婚俗第十六章反吐丽蝇产卵第十七章反吐丽蝇的蛆虫第十八章以蛆虫为食的寄生虫第十九章童年的回忆第二十章昆虫与蘑菇第二十一章难忘的一课第二十二章工业化学附录一萤火虫附录二菜青虫(附录原为第十一卷内容，后因实际情况无法继续，只得作为第十卷的附录

圣甲虫，大笼子，捕食吉丁的节腹泥蜂，栎棘节腹泥蜂，高明的杀手等等。卷一：黄足飞蝗泥蜂，匕首三击，幼虫和蛹，高超的理论，朗格多克飞蝗泥峰，本能赋予的技能，本能的无知，登上万杜山，迁徙者，砂泥蜂，泥蜂，捕捉双翅目昆虫，寄生虫与茧，回窝，石蜂，实验，换窝。卷二：荒石园，毛刺砂泥蜂，一种未知的感官，关于本能的理论，黑胡蜂，蜾蠃，关于石蜂的新研究，我的猫的故事，红蚂蚁，浅谈昆虫的心理学，黑腹狼蛛，蛛蜂，树莓桩中的居民，西芫菁，西芫菁的初龄幼虫，短翅芫菁的初龄幼虫，多次变态。卷三：土蜂，充满艰险的进食，花金龟的幼虫，土蜂的问题，各种寄生虫，寄生理论，石蜂的苦难，卵蜂虻，褶翅小蜂，另一种钻探者，幼虫的二态现象，步甲蜂，三种芫菁，变换食谱，给进化论戳一针，按照性别分配食物，各种壁蜂，性别的分配，母亲支配卵的性别，产卵的调换。