The Newsletter is the main way to provide information to all of our members (and also non-members).The information provided within the Newsletter can be used by everyone providing that a clear acknowledgement to the IOBC is made.
IOBC-APRS Newsletter 11,
BioControl is the official journal of the International organisation for Biological Control (IOBC) (www.springer.com/life+sci/entomology/journal/10526) and presents original papers on basic and applied research in all aspects of biological control of invertebrate, vertebrate and weed pests, and plant diseases.
Over the years, it has established a leading role in publishing the finest and most exciting work on all aspects of biological control of invertebrate, vertebrate and weed pests, and plant diseases.
Coverage includes biology and ecology of organisms for biological control, and aspects of use including biological controls for integrated pest management, such as plant resistance, pheromones and intercropping. Papers presenting only laboratory trials on non-target effects of pesticides on natural enemies are not considered but papers dealing with the corresponding effects on community dynamics of natural enemies are welcomed. IOBC-WPRS individual and supporting members can subscribe to BioControl at substantially reduced cost. Institutional members have the subscription included in their membership fee.
Great reasons for publishing in BioControl:
- Fast decision times: 20 days from submission to first decision
- Rapid online publication within 10 days once your paper is accepted
- Impact Factor: 1.918 (journal rank: 14/91 in category Entomology)
- 5-Year Impact Factor: 2.088
- h5-Index: 25
- High author satisfaction: 100% of authors who answered a survey reported that they would publish in the journal again.
- Readership: Your article will be available on SpringerLink which has over 50 million users at more than 15,000 institutions worldwide. In addition, you will be able to see the number of times your paper is being downloaded, its citations and social media shares.
- SharedIt: A read-only version of your article will be freely available to anybody you choose!
Online submission at www.editorialmanager.com/bico
IOBC Internet Book of Biological Control
Aim: to present the history, the current state of affairs and the future of biological control in order to show that this control method is sound, safe and sustainable.
Download PDF from the IOBC Global website:
IOBC-APRS Publications on Biological Control
Our members are producing scientific papers all the time. The IOBC-APRS would like to create an area for us all to share our work in the hopes of creating a closer working relationship.
Please send a list of your recent (since 2010) peer-reviewed publications on biological control and related IPM topics to email@example.com so that we can list them here for APRS members.
Members Publications Archive
Barratt BIP 2011. Assessing safety of biological control introductions. CAB Reviews: Perspectives in Agriculture, Veterinary Science, Nutrition and Natural Resources 6: 1-12.
Barratt BIP, Brodeur J, Mason PG, Heimpel GE, Roy HE, van Lenteren JC, Beukeboom LW, Werren JH 2012. IOBC Global – Symposia at ICE. Biocontrol News and Information 33: 31N-32N.
Barratt BIP, Howarth FG, Withers TM, Kean J, Ridley GS 2010. Progress in risk assessment for classical biological control. Biological Control 52: 245–254.
Barratt BIP, Oberprieler RG, Barton D, Mouna M, Stevens M, Alonso-Zarazaga MA, Vink CJ, Ferguson CM 2012. Could research in the native range, and non-target host range in Australia, have helped predict host range of the parasitoid Microctonus aethiopoides Loan (Hymenoptera: Braconidae), a biological control agent introduced for Sitona discoideus Gyllenhal (Coleoptera: Curculionidae) in New Zealand? Biocontrol 57: 735-750.
Cock MJW, van Lenteren JC, Brodeur J, Barratt BIP, Bigler F, Bolckmans K, Cônsoli FL, Haas F, Mason PG, Parra JRP 2010. Do new access and benefit sharing procedures under the Convention on Biological Diversity threaten the future of biological control? Biocontrol 55: 199-218.
Gao YL, SR Reitz, J Wang, XN Xu, ZR Lei. 2012. Potential of a strain of the entomopathogenic fungi Beauveria bassiana (Hypocreales: Cordycipitaceae) as a biological control agent against the western flower thrips, Frankliniella occidentalis (Thysanoptera: Thripidae). Biocontrol Science and Technology. 22: 491-495.
Gao YL, SR Reitz, J Wang, P Tamez-Guerra, ED Wang, XN Xu, ZR Lei. 2012. Potential use of the fungus Beauveria bassiana against the western flower thrips Frankliniella occidentalis without reducing the effectiveness of its natural predator Orius sauteri (Hemiptera: Anthocoridae). Biocontrol Science and Technology. 22: 803-812.
Goolsby JA, Kirk AA, Moran PJ, Alex E. Racelis AE, Adamczyk JJ, Cortés E, Ángeles Marcos García M, Jimenez M-M, Summy KR, Ciomperlik MA, Sands DPA 2011. Establishment of the armored scale, Rhizaspidiotus donacis, a biological control agent of Arundo donax. Southwest Entomologist 36: 373-374.
Fowler SV, Paynter Q, Dodd S, Groenteman R 2012. How can ecologists help practitioners minimize non-target effects in weed biocontrol? Journal of Applied Ecology 49:307-310.
Goldson SL, McNeill MR, Gerard PJ, Proffitt JR, Phillips CB, Cane RP, Murray PJ 2004. British-based search for natural enemies of the clover root weevil, Sitona lepidus in Northwest Europe. New Zealand Journal of Zoology 31: 233-240.
Goldson SL, McNeill MR, Proffitt JR, Barratt BIP 2005. Host specificity testing and suitability of a 'European' strain of the Braconid parasitoid Microctonus aethiopoides Loan as a biological control agent against Sitona lepidus (Coleoptera: Curculionidae) in New Zealand. Biocontrol, Science and Technology 15 (8): 791 – 813.
Goldson SL, Wratten SD, Ferguson CM, Gerard PJ, Barratt BIP, Hardwick S, McNeill MR, Phillips CB, Popay AJ, Tylianakis JM, Tomasetto F 2014. If and when successful classical biological control fails. Biological Control 72: 76-79.
Groenteman R, Fowler SV, Sullivan JJ 2011. St. John's wort beetles would not have been introduced to New Zealand now: A retrospective host range test of New Zealand's most successful weed biocontrol agents. Biological Control 57: 50-58.
Groenteman R, Kelly D, Fowler S, Bourdôt G 2011. Abundance, phenology and impact of biocontrol agents on nodding thistle (Carduus nutans) in Canterbury 35 years into a biocontrol programme. New Zealand Journal of Agricultural Research 54:1-13.
Hayes L, Fowler SV, Paynter Q, Groenteman R, Peterson P, Dodd S, Bellgard S 2013. Biocontrol of weeds: achievements to date and future outlook. In: Dymond JR ed. Ecosystem Services in New Zealand: Conditions and Trends. Lincoln, New Zealand, Manaaki Whenua Press. Pp. 375–385.
Huang H, Xu XN, Lv JL, Li GT, Wang ED, Gao YL 2013. Impact of Proteins and Saccharides on Mass Production of Tyrophagus putrescentiae (Acari: Acaridae) and its Predator Neoseiulus barkeri (Acari: Phytoseiidae) Biocontrol Science and Technology. 23(11): 1231-1244
Marchetto KM, Shea K, Kelly D, Groenteman R, Sezen Z, Jongejans E 2014. Unrecognized impact of a biocontrol agent on the spread rate of an invasive thistle. Ecological Applications 24 (5): 1178–1187.
McNeill MR, Goldson SL, Proffitt JP, Phillips CB, Addison PJ 2002. A description of the commercial rearing and distribution of Microctonus hyperodae (Hymenoptera: Braconidae) for biological control of Listronotus bonariensis (Kuschel) (Coleoptera: Curculionidae). Biological Control 24: 167-175.
McNeill MR, Fletcher CJ 2005. Interspecific competitionbetween Rhinocyllus conicus and Urophora solstitialis L. on nodding thistle in Canterbury? New Zealand Plant Protection 58: 140-147.
Palmer WA 2012. Australia's current approval procedures for biological control with particular reference to its Biological Control Act. In: Proceedings of the Thirteenth International Symposium on the Biological Control of Weeds. Y. Wu, ed. USDA Forest Service-FHTET, Morgantown,WV. p. (In press).
Palmer WA 2012. Cryptostegia grandifolia (Roxb.) R. Br. - rubber vine. In: Biological Control of Weeds in Australia. M. Julien, R. McFadyen and J. Cullen, eds. CSIRO Publishing, Melbourne. pp. 190-197.
Palmer WA 2012. Senna obtusifolia (L.) Irwin & Barneby - sicklepod. In: Biological Control of Weeds in Australia. M. Julien, R. McFadyen and J. Cullen, eds. CSIRO Publishing, Melbourne. pp. 537-543.
Palmer WA 2012. Sporobolus spp. - weedy sporobolus grasses. In: Biological Control of Weeds in Australia. M. Julien, R. McFadyen and J. Cullen, eds. CSIRO Publishing, Melbourne. pp. 569-575.
Palmer WA, Lockett C, Dhileepan K 2012. Acacia nilotica subsp. indica (Benth.) Brenan - prickly acacia. In: Biological Control of Weeds in Australia. M. Julien, R. McFadyen and J. Cullen, eds. CSIRO Publishing, Melbourne. pp. 18-28.
Palmer WA, McFadyen RC 2012. Ambrosia artemisiifolia L. - annual ragweed. In: Biological Control of Weeds in Australia. M. Julien, R. McFadyen and J. Cullen, eds. CSIRO Publishing, Melbourne. pp. 52-60.
Palmer WA, Rafter MA 2012. Bryophyllum delagoense (Ecklon & Zeher) Schinz - mother-of-millions. In: Biological Control of Weeds in Australia. M. Julien, R. McFadyen and J. Cullen, eds. CSIRO Publishing, Melbourne. pp. 99-107.
Palmer WA, Senaratne KAD 2012. Anredera cordifolia (Ten.) Steenis – Madeira vine. In: Biological Control of Weeds in Australia. M. Julien, R. McFadyen and J.M. Cullen, eds. CSIRO Publishing, Melbourne. pp. 60-64.
Paynter Q, Fowler SV, Gourlay AH, Groenteman R, Peterson PG, Smith L, Winks CJ 2010. Predicting parasitoid accumulation on biological control agents of weeds. Journal of Applied Ecology 47:575-582.
Sands DPA, Goolsby JA 2011. The case for biological control of exotic African grasses in Australia & USA using introduced detritivores. Pp. 103-109 (in: Y Wu, T Johnson, S Sing, S Raghu, G Wheeler, P Pratt, K Warner, T Center, J Goolsby, R Reardon (eds.)), Proceedings of the XIII International Symposium on Biological Control of Weeds, September 11-16, 2011, Waikoloa, Hawaii USA.
Sands DPA 2011. Invasive African Grasses: rising threats to Australian invertebrate biodiversity. 101BCC. Joint Invertebrate Biodiversity & Conservation / Society of Australian Biologists Conference, Parkville Victoria 4-8 December 2011. p. 55. (Abstract).
Sands DPA 2013. (Expanded Abstract) Effects of invasive scales on forest butterflies in Australia, and benefits following biological control, pp. 82-85 (in: PG Mason, DR Gillespie, C Vincent (eds.)). Proceedings of the 4th International Symposium on Biological Control of Arthropods, Pucon, Chile March 4-8.
Sands DPA, Goolsby JA, Palmer WA 2014. (Abstract) Rising threats from Arundo donax: Australian contribution to a successful US project. Proceedings of the 45th Annual Conference of the Australian Entomological Society. Canberra, Australia.
Todd JH, Barratt BIP, Tooman L, Beggs JR, Malone LA 2015. Selecting non-target species for risk assessment of entomophagous biological control agents: Evaluation of the PRONTI decision-support tool. Biological Control 80: 77-88.
Van Driesche RG, Carruthers RJ, Centre T, Hoddle, MS, Hough-Goldstein J, Morin l, Smith l, Wagner DL, Blossey B, Brancatini V, Casagrande R, Causton CE, Coetzee JA, Cuda J, Ding J, Fowler SV, Frank, JH, Fuester R, Goolsby J, Grodowitz M, Heard TA, Hill MP, Hoffmann JH, Huber J, Julien M, Kairo MTK, Kenis M, Mason P, Medal J, Messing R, Miller R, Moore A, Neuenschwander P, Newman R, Norambuena H, Palmer WA, Pemberton R, Perez Pandura A, Pratt PD, Rayamajhi M, Salom S, Sands D, Schooler S, Schwartzlander M, Sheppard A, Shaw R, Tipping PW, van Klinken RD 2010. Classical biological control for protection of natural ecosystems. Biological Control 54: S2-S33.
van Lenteren JC, Cock MJW, Brodeur J, Barratt BIP, Bigler F, Bolckmans K, Haas F, Mason PG, Parra JRP 2011. Will the Convention on Biological Diversity put an end to biological control? Revista Brasileira de Entomologia 55: 1-5.
Wu SY, Gao YL, Xu XN, Wang HH, Wang ED, Lei ZR 2014. Evaluation of Hypoaspis miles and Neoseiulus barkeri for biological control of thrips on greenhouse cucumbers. Biocontrol Science and Technology. 24(10): 1110-1121.
Wu SY, Gao YL, Zhang YP, Wang EN, Xu XN, Lei ZR 2014. An entomopathogenic strain of Beauveria bassiana against Frankliniella occidentalis with no detrimental effect on the predatory mite Neoseiulus barkeri: Evidence from laboratory bioassay and scanning electron microscopic observation. PLoS ONE. 9(1):e84732
Wu SY, Gao YL, Xu XN, Zhang YP, Wang J, Lei ZR, Smagghe G 2013. Laboratory and greenhouse evaluation of a new entomopathogenic strain of Beauveria bassiana for control of the onion thrips Thrips tabaci. Biocontrol Science and Technology. 23(7): 794-802.