وبلاگ تخصصی حشره شناسی

Since 1996, crop plants genetically modified to produce bacterial proteins that are toxic to certain insects, yet safe for people, have been planted on more than 200 million hectares worldwide. The popularity of these Bt crops, named after the bacterium Bacillus thuringiensis, comes from their ability to kill some major pests, allowing farmers to save money and lessen environmental impacts by reducing insecticide sprays.

However, since insects can evolve resistance to toxins, strategies must be implemented to ensure that Bt crops remain effective. A new study published in the December issue of Journal of Economic Entomology entitled "Field-Evolved Insect Resistance to Bt Crops: Definition, Theory, and Data" (hhttp://www.entsoc.org/btcrops.pdf) analyzes insect resistance data from five continents, as reported in 41 studies, and concludes that existing theories and strategies can be used to predict, monitor, and manage insect resistance to Bt crops.

According to lead author Dr. Bruce E. Tabashnik, "Resistance is not something to be afraid of, but something that we expect and can manage if we understand it. Dozens of studies monitoring how pests have responded to Bt crops have created a treasure trove of data showing that resistance has emerged in a few pest populations, but not in most others. By systematically analyzing the extensive data, we can learn what accelerates resistance and what delays it. With this knowledge, we can more effectively predict and thwart pest resistance."

Among the authors' conclusions are:

• The refuge strategy (growing non-Bt crops near the Bt crops) can slow the evolution of insect resistance by increasing the chances of resistant insects mating with non-resistant ones, resulting in non-resistant offspring.
  
  
• Crops that are "pyramided" to incorporate two or more Bt toxins are more effective at controlling insect resistance when they are used independently from crops that contain only one Bt toxin.
  
  
• Resistance monitoring can be especially effective when insects collected from the field include survivors from Bt crops.
  
  
• DNA screening can complement traditional methods for monitoring resistance, such as exposing insects to toxins in the lab.
  
  
• Despite a few documented cases of field-evolved resistance to the Bt toxins in transgenic crops, most insect pest populations are still susceptible.

With Bt crop acreage increasing worldwide, incorporating enhanced understanding of observed patterns of field-evolved resistance into future resistance management strategies can help to minimize the drawbacks and maximize the benefits of current and future generations of transgenic crops.

The full article is available at http://www.entsoc.org/btcrops.pdf

Source: Richard Levine
Entomological Society of America

A team of University of Minnesota researchers have discovered how PTTH, a hormone produced by the brain, controls the metamorphosis of juvenile insects into adults.

The finding, published in the Dec. 4 issue of Science, will help scientists understand how insect body size is programmed in response to developmental and environmental cues and offers the opportunity to develop a new generation of more environmentally safe ways to control agricultural pests as well as insects that carry human pathogens.

Scientists have known for 100 years that a brain-derived neuropeptide known as PTTH controls metamorphosis and although its specific sequence was identified 20 years ago, the way it signaled endocrine tissue has remained elusive until now.

"Understanding the signaling pathway that controls metamorphosis has been a long-term goal for many insect physiologists," says lead author Michael O'Connor, professor of genetics, cell biology and development at the University of Minnesota's College of Biological Sciences, where he holds the Ordway Chair in Developmental Biology.

Although humans don't undergo metamorphosis, passage from childhood through puberty and development of adult sexual characteristics is also regulated by a brain-derived neuropeptide that is controlled by genetics, environment and nutrition. Understanding how this process works in insects sheds light on human development.

"In its overall design, insect metamorphosis is very much like passage through puberty," O'Connor says. "From a biological point of view, both puberty and metamorphosis accomplish the same goal - to provide reproductive capacity for the species at the appropriate developmental time." The brain hormone becomes active when insects have reached a threshold body weight, which is also a trigger for human puberty.

Fruit flies and silk moths were used for the study; however, all insects that undergo complete metamorphosis appear to use this signaling system, O'Connor says. His next step is to learn how environmental and nutritional cues regulate the production of PTTH (prothoracicotropic hormone).

O'Connor is one of the University of Minnesota's most distinguished researchers working in the biological sciences. In addition to holding the Ordway Chair, he is an Investigator with the Howard Hughes Medical Institute. After earning a B.S. in biochemistry from Brown University and his Ph.D. from Tufts University School of Medicine, he conducted postdoctoral studies in the laboratory of Welcome Bender at Harvard Medical School. The O'Connor lab focuses on determining how signaling systems control animal development and studies the roles of several different types of growth factors in both insects and mice.

Co-authors for the Science paper are U of M postdoctoral researchers Kim Rewitz and Naoki Yamanaka and Lawrence Gilbert, who is an emeritus biology professor at the University of North Carolina.

Source: Patty Mattern
University of Minnesota

Vol. 29 (1), September 2009

Papers in Persian with English summary:

Mollashahi, M., Sahragard, A. and Hosseini, R.
A comparative study on the population growth parameters of Coccinella septempunctata (Col.: Coccinellidae) and melon aphid, Aphis gossypii (Hem.: Aphididae) under laboratory conditions

Ojie Ardebilie, M. M. and Nozari, J.
Study on the effect of digital calling songs of Cicada orni and Okanagana rimosa (Hemiptera: Cicadidae) for attracting house sparrows, Passer domesticus (Passeriformes: Passeridae)

Khajehzadeh, Y., Hasany Moghadam, M., Baghery, S. and Keyhanian, A. A.
Determination of economic injury level of Lipaphis erysimi (Hemiptera: Aphididae) on canola var. Hayola 401 in Khuzestan

Karimpour, Y., Fathipour, Y., Talebi, A. A., Moharramipour, S. and Sedaratian, A.
Determination of the larval feeding indices of Hyles euphorbiae (Lep.: Sphingidae) on different species of weedy spurges

(Short communications)

Karimpour, Y. and Razmi, M.
Pegomya bicolor (Dip.: Anthomyiidae), a species new to Iran fauna

Gheibi, M., Ostovan, H., Kamali, K. and Gilasian, E.
The first report of six tachinid flies from Iran (Diptera: Tachinidae)

Kishani Farahani, H., Goldansaz, S. H. and Sabahi, G.
Report of two fly parasitoids of carob moth, Ectomyelois ceratoniae (Lepidoptera: Pyralidae)

Papers in English:

Latif, M. A., Rahman, M. M., Alam, M. Z., Hossain, M. M. and Solaiman, A. R. M.
Threshold based spraying of flubendiamide for the management of brinjal shoot and fruit borer, Leucinodes orbonalis (Lep.: Pyralidae)

Fekrat, L., Shishehbor, P., Manzari, S. and Soleiman Nejadian, E.
Comparative development, reproduction and life table parameters of three populations of Thrips tabaci (Thysanoptera: Thripidae) on onion and tobacco

Naseri, B., Fathipour, Y., Moharramipour, S. and Hosseininaveh, V.
Life table parameters of the cotton bollworm, Helicoverpa armigera (Lep.: Noctuidae) on different soybean cultivars

(Short communications)

Moghaddam, M., Ram, P., Kamali, H. and Bazoobandi, M.
Polystomophora orientalis (Hemiptera: Coccoidea: Pseudococcidae), a new genus and species record for Iran

Alipanah, H., Buszko, J. and Zibaiee, K.
Swammerdamia pyrella (Lep.: Yponomeutidae), a genus and species new to Iran fauna

The 6^th International Conference on the Biology of Butterflies will take place June 29 to July 2, 2010, in Edmonton, Alberta, Canada and is sponsored by the Department of Biological Sciences, University of Alberta.

The long-standing theme of this conference series, the biology of butterflies, focuses attention on recent developments in biology that rely on butterflies as research models, particularly in ecology and evolutionary biology.

The conference will include both invited symposia and contributed papers and posters.

Deadlines: 
Early Registration – March 31, 2010
Abstract Submission – May 17, 2010
 
We are frequently updating our website HERE. Please check back for the most recent information on symposia and organized tours!

 
The Australian Entomological Society’s 41st AGM & Scientific Conference
Entomology for Australia’s future
26 - 30 September 2010
The Vines Resort, Swan Valley, Perth WA
www.aes2010.org/
 
On behalf of the organising committee, we extend a warm invitation to you to attend our meeting in Perth.
All intending delegates are encouraged to submit an “Expression of Interest Form” as soon as possible to assist the organising committee in the early stages of the conference planning. 
 
Symposia details will also be available in February 2010 together with the
Call for Abstracts, Registration and accommodation
 
EXPRESSION OF INTEREST please click here

 
Sally Brown, Conference Secretariat
PO Box 108, Kenmore, QLD 4069, Australia
Sally.brown@uq.net.au

تحقيقات جديد نشان مي دهد سبزيجاتي مانند سيب زميني و گوجه فرنگي گياهاني بسيار كشنده اند و مي توانند حشرات را ازبين ببرند.
    گياه شناسان به تازگي براي اولين بار دريافته اند كه گياهان شكارچيان گوشتخواري هستند كه به منظور باروري خود حشرات را ازبين مي برند.
    تحقيقات جديد نشان مي دهد گياهاني مانند سيب زميني و گوجه فرنگي حشرات كوچك را با كمك تارهاي چسبناك ساقه خود به دام انداخته و مي كشند و سپس مواد غذايي موجود در بدن آنها را جذب كرده و مورداستفاده قرار مي دهند. گمان مي رود اين رفتار گياهي زماني شكل گرفته كه كيفيت غذايي خاك براي گياهان كافي نبوده است.
    گياهان قاتل در ميان گياهاني شناسايي شده اند كه گياه شناسان معمولاً از آنها چشم پوشي كرده اند. درواقع متخصصان براي يافتن اين گياهان در مناطق دورافتاده به جستجو مي پرداخته اند اما درواقع تعداد گياهان گوشتخوار موجود بيش از 50درصد در جهان تخمين زده شده و اين گياهان د رميان گونه هايي كشف شده اند كه معمولاً به عنوان گياهان بي خطر و لطيف شناخته مي شده اند.
    پتونيا، گياه تنباكو، گوجه فرنگي، برخي گونه ها از سيب زميني و نوعي گياه از خانواده كلم ها ازجمله گياهان گوشتخوار شناسايي شده هستند. گياه شناسان در باغ ملي گياه شناسي اكنون بر اين باورند كه صدها نوع ديگر از گياهان گوشتخوار كه تاكنون به آنها توجهي نشده است نيز در جهان وجود دارند.
    براساس گزارش تلگراف، در مطالعه اين متخصصان آمده است بسياري از گونه هاي گياهي ويژگي هاي اوليه مرتبط با گونه هاي گوشتخوار را ازدست داده اند و خصوصيت گوشتخواري بسياري از آنها ناشناخته باقيمانده است.

روزنامه كيهان > شماره 19530 18/9/88 > صفحه 7 

يك متخصص مبارزه با آفات، قرص هاي تبخيري را خطرناك ترين راه مبارزه با حشرات دانست و گفت: در تبليغات نشان داه مي شود كه دستگاه و قرص حشره كش، بالاي سر كودك خوابيده اي نصب مي شود در حالي كه قرص هاي تبخيري عوارض بسيار سوئي دارند و استفاده از آنها تنها زماني مجاز است كه در و پنجره باز و كسي در اتاق حضور نداشته باشد. وي استفاده از حشره كش ها را هنگام شب وموقع خواب توسط بسياري از افراد، بسيار خطرناك خواند و افزود: در زمان استفاده از حشره كش ها بايد حداقل به مدت 10 تا20 دقيقه كسي در اتاق حضور نداشته باشد؛ چرا كه اين حشره كش ها اثرات سوئي بر سلامت انسان ها دارند. اين متخصص ادامه داد: اين شيوه استفاده، يكي از عواملي است كه موجب مرگ خاموش و مسموميت هاي منجر به شوك هاي حساسيتي مي شود. وي با بيان اين كه حشره كش ها روي سيستم دستگاه تنفسي انسان تاثير مخرب دارند افزود: استفاده از حشره كش ها مي تواند براي خانم هاي باردار، نوزادان، مصدومان شيميايي، مبتلايان به آسم، سالمندان و بيماراني كه در سيستم تنفسي مشكل دارند، خطرناك باشد. وي اظهار داشت:در حال حاضر سموم، به راحتي حتي از طريق داروخانه ها وعطاري ها در اختيار مردم قرار مي گيرد.

روزنامه آفتاب يزد > شماره 2797 18/9/88 > صفحه 6 

اهواز- خبرنگار«ايران»: 28 هزار هکتار از زمين هاي کشاورزي استان خوزستان زير پوشش طرح هاي بيولوژيک مي رود.
    اميد بخش مدير حفظ و اصلاح نباتات جهاد کشاورزي خوزستان بابيان اينکه اين ميزان نسبت به پارسال 100درصدافزايش يافته است، گفت: در اين طرح با رهاسازي حشرات مفيدي همچون زنبور تريموس؟، زنبور براکون و کفشدوزک با آفات محصولات کشاورزي مبارزه مي شود. وي جلوگيري از آسيب رساندن به محيط زيست، صرفه اقتصادي و کاهش مصرف سموم شيميايي را از جمله مزاياي اين طرح برشمرد و افزود: اين طرح در باغات مرکبات، مزارع گوجه فرنگي، ذرت، نيشکر و لوبيا اجرا مي شود. اميد بخش با اشاره به اينکه هشت مرکز توليد حشرات مفيد به منظور مبارزه بيولوژيک با آفات در شهرهاي دزفول ، انديمشک ، رامهرمز، شوشتر و شوش راه اندازي شده است، افزود: متقاضيان مي توانند براي تهيه اين حشرات به مراکز خدمات کشاورزي، ناظران حفظ نباتات و کلينيک هاي گياه پزشکي مراجعه کنند. استان خوزستان در اجراي طرح مبارزه بيولوژيک با آفات، مقام نخست را در کشور داراست.

روزنامه ايران > شماره 4377 11/9/88 > صفحه 23 (ايران زمين)