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What's in a name? Everything, if you're a fruit fly

Date:
October 28, 2014
Source:
Plant Biosecurity Cooperative Research Centre
Summary:
This study confirms that four of the world's most destructive agricultural pests, the Oriental, Philippine, Invasive and Asian Papaya fruit flies, are actually one and the same. The study took a multidisciplinary and integrated approach involving over 40 researchers from more than 20 countries and has major implications for global plant biosecurity, including reduced barriers to international trade, improved fundamental research and enhanced food security for some of the world's poorest nations.
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FULL STORY

A global research effort has finally resolved a major biosecurity issue: four of the world's most destructive agricultural pests are actually one and the same.

For twenty years some of the world's most damaging pest fruit flies have been almost impossible to distinguish from each other. The ability to identify pests is central to quarantine, trade, pest management and basic research.

In 2009 a coordinated research effort got underway to definitively answer this question by resolving the differences, if any, between five of the most destructive fruit flies: the Oriental fruit fly, the Philippine fruit fly, the Invasive fruit fly, the Carambola fruit fly, and the Asian Papaya fruit fly. These species cause incalculable damage to horticultural industries and food security across Asia, Africa, the Pacific and parts of South America.

The Philippine fruit fly was formally recognised as the same species as the Asian Papaya fruit fly in 2013. The latest study goes further, conclusively demonstrating that they are also the same biological species as the Oriental and Invasive fruit flies. These four species have now been combined under the single name: Bactrocera dorsalis, the Oriental fruit fly. The closely-related Carambola fruit fly remains distinct.

Professor Tony Clarke, Chair of Fruit Fly Biology and Management from the Plant Biosecurity Cooperative Research Centre (PBCRC) and the Queensland University of Technology (QUT), believes the integrated multidisciplinary nature of the project leaves little doubt the species are identical.

"More than 40 researchers from 20 countries examined evidence across a range of disciplines, using morphological, molecular, cytogenetic, behavioural and chemoecological data to present a compelling case for this taxonomic change," he said.

"This outcome has major implications for global plant biosecurity, especially for developing countries in Africa and Asia," said Professor Clarke.

"For example, Invasive (now Oriental) fruit fly has devastated African fruit production with crop losses exceeding 80 per cent, widespread trade restrictions with refusal of shipments into Europe and Japan, and significant economic and social impacts to farming communities."

Keeping exotic fruit fly out is a major concern for Australian biosecurity agencies. While an outbreak of Papaya fruit fly near Cairns in the mid-1990s inflicted $A100 million in eradication and industry costs, current estimates rate the Oriental fruit fly as the biggest threat to Australian plant biosecurity, with the total cost to the nation of an invasion estimated at $A1 billion. Combining the four species will mean a major reassessment of Australia's exotic fruit fly risk.

"Globally, accepting these four pests as a single species will lead to improved international cooperation in pest management, more effective quarantine measures, reduced barriers to international trade, the wider application of established post-harvest treatments, improved fundamental research and, most importantly, enhanced food security for some of the world's poorest nations," said Professor Clarke.


Story Source:

Materials provided by Plant Biosecurity Cooperative Research Centre. Note: Content may be edited for style and length.


Journal Reference:

  1. MARK K. SCHUTZE, NIDCHAYA AKETARAWONG, WEERAWAN AMORNSAK, KAREN F. ARMSTRONG, ANTONIS A. AUGUSTINOS, NORMAN BARR, WANG BO, KOSTAS BOURTZIS, LAURA M. BOYKIN, CARLOS CÁCERES, STEPHEN L. CAMERON, TONI A. CHAPMAN, SUKSOM CHINVINIJKUL, ANASTASIJA CHOMIČ, MARC DE MEYER, ELLENA DROSOPOULOU, ANNA ENGLEZOU, SUNDAY EKESI, ANGELIKI GARIOU-PAPALEXIOU, SCOTT M. GEIB, DEBORAH HAILSTONES, MOHAMMED HASANUZZAMAN, DAVID HAYMER, ALVIN K. W. HEE, JORGE HENDRICHS, ANDREW JESSUP, QINGE JI, FATHIYA M. KHAMIS, MATTHEW N. KROSCH, LUC LEBLANC, KHALID MAHMOOD, ANNA R. MALACRIDA, PINELOPI MAVRAGANI-TSIPIDOU, MAULID MWATAWALA, RITSUO NISHIDA, HAJIME ONO, JESUS REYES, DANIEL RUBINOFF, MICHAEL SAN JOSE, TODD E. SHELLY, SUNYANEE SRIKACHAR, KENG H. TAN, SUJINDA THANAPHUM, IHSAN HAQ, SHANMUGAM VIJAYSEGARAN, SUK L. WEE, FARZANA YESMIN, ANTIGONE ZACHAROPOULOU, ANTHONY R. CLARKE. Synonymization of key pest species within theBactrocera dorsalisspecies complex (Diptera: Tephritidae): taxonomic changes based on a review of 20 years of integrative morphological, molecular, cytogenetic, behavioural and chemoecological data. Systematic Entomology, 2014; DOI: 10.1111/syen.12113

Cite This Page:

Plant Biosecurity Cooperative Research Centre. "What's in a name? Everything, if you're a fruit fly." ScienceDaily. ScienceDaily, 28 October 2014. <www.sciencedaily.com/releases/2014/10/141028082632.htm>.
Plant Biosecurity Cooperative Research Centre. (2014, October 28). What's in a name? Everything, if you're a fruit fly. ScienceDaily. Retrieved December 26, 2024 from www.sciencedaily.com/releases/2014/10/141028082632.htm
Plant Biosecurity Cooperative Research Centre. "What's in a name? Everything, if you're a fruit fly." ScienceDaily. www.sciencedaily.com/releases/2014/10/141028082632.htm (accessed December 26, 2024).

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