November 1998 Spear thistle suppression with the LC0147 spear thistle gall ISSN 1329-833X Keith Turnbull Research Institute, Frankston

Common and scientific Names separately. Eventually the tissues merge to form a hard, multi-chambered, woody gall. The larvae feed on the soft Spear thistle gall fly tissue lining the inside of the gall and mature by mid stylata (Fabricius) summer. Family , fruit An early partial generation of adults may emerge to lay eggs into flower heads which develop late in the season, Background but the majority of maggots hibernate inside the gall over In Victoria spear thistle, vulgare, is a Regionally winter, and pupate when temperatures rise and day length Controlled Weed in the Glenelg, Corangamite, Port Phillip increases in late spring. East, North East, West Gippsland and East Gippsland Flies mostly emerge from the galls in December. Males Catchment and Land Protection Regions. The spear thistle emerge before females and establish a territory around gall fly is common in Europe and parts of western Asia selected flower heads, which they defend against other where the weed originated. The gall fly strain imported to males. Mating commences one or two days after the is native to western France. The fly has been females emerge and occurs frequently. tested to ensure that it is specific to spear thistle and presents no danger to native plants or plants of economic importance. Description Adults - 4 to 8 mm long; mainly black with a pale yellow- green head and bright red eyes. The wings are distinctively patterned with two interrupted darker bans. Females (Figure 1) have an elongate, tapered ovipositor at the tip of the abdomen. Males (Figure 2) lack the ovipositor and have a rounded abdominal tip. Eggs - white, elongate and curved, approximately 0.7 mm by 0.2 mm. Figure 1. Female spear thistle gall fly. Larvae - legless maggots; pale yellow, approximately 4.0 by 2.5 mm when fully developed. Pupae - brown, cylindrical, fat and mummy-like, 4.0 by 1.5 mm. Life cycle Female flies lay eggs in small batches into unopened flower buds. The distinctive shapes of the spear thistle floret and spiny bracts stimulate egg laying. Larvae hatch from the eggs in 5 to 8 days and eat into the florets, burrowing down into the developing tissues at the base of Figure 2. Male spear thistle gall fly. the flower head (the receptacle). When a larva has fed on a developing seed, an abnormal Impact localised swelling starts to form around it. This tissue The larvae feed on the developing seed tissues of spear becomes a gall. Usually there are several larvae within the thistle. The plant reacts by forming a woody gall within the same flower head and tissue forms around each one flowering head. Gall formation diverts energy from the

© State of Victoria, Department of Natural Resources and Environment 2002 Page 1 Spear thistle suppression with the spear thistle gall fly LC0147 developing seed into growth of gall tissue. Many seeds are climates. It has been successfully established at a number locked up within the gall and cannot disperse. A large of sites in Victoria. population of flies reduces seed production and in turn slows down the spread of the thistle and decrease the Integrated control density of infestations. The thistle receptacle weevil, Rhinocyllus conicus, has also been widely released in Victoria to aid in the biological control of spear thistle. Both species have a direct effect on seed production. The crown-boring weevil, Trichosirocalus horridus, is also being released in Victoria, in cooperation with CSIRO. It is expected that the complimentary effects of these agents will increase pressure on the plants, making them less competitive. Biological control cannot totally eradicate a weed, it can only reduce the spread and density of infestations. In some cases control is achieved to the level where the weed is no longer of concern and no other control is necessary. More commonly, other methods are still required to achieve the desired level of control, although they do not need to be applied so frequently. Biological control is not the complete answer to a spear thistle problem, but can be used Figure 3. Female spear thistle gall fly. in conjunction with other control measures in an integrated management plant. Further information For further information on the management of spear thistles please refer to the Landcare Note Spear thistle. For further information on the biological control of spear thistle refer to the Biological Control Landcare Note Spear, variegated and nodding thistle suppression with the thistle receptacle weevil, or contact: Keith Turnbull Research Institute, PO Box 48, Frankston, Victoria, 3199. Tel (03) 9785 0111 Fax (03) 9785 2007 Acknowledgments Prepared by E. Bruzzese, P. Stevens, B.Roberts, I.Faithfull and N. Freeman, 1996. Revised November 1998.

Funding for the thistle biological control program has been Figure 4. Woody gall formed in the flower head of spear thistle provided by NRE’s Catchment Management and around gall fly larvae. Sustainable Agriculture Division, The Woolmark Releases Company and Meat and Livestock Australia. The biological control of thistles program is supported by the Adult gall flies are released into field cages at ‘nursery Cooperative Research Centre for Weed Management sites’ or free released. Populations at nursery sites are Systems. allowed to build up until sufficient numbers are available to be harvested for distribution to other sites. A proportion of the galled heads are harvested during autumn and stored over winter. The cage is moved to a new site the following season and the harvested heads are placed inside to establish a new infestation. Emerging flies are allowed to disperse from the initial nursery site. The advice contained in this publication is intended as a source of information only. The State of Victoria and its officers do not Local Department of Natural Resources and Environment guarantee that the publication is without flaw of any kind or is staff and KTRI officers select the nursery sites in wholly appropriate for your particular purposes and therefore consultation with landholders and landcare groups. disclaims all liability for any error, loss or other consequence which may arise from you relying on any information in this publication. The gall fly does not tolerate prolonged periods of extreme heat and is therefore better suited to areas with cooler

© State of Victoria Department of Natural Resources and Environment 2002 Page 2