Cobbler's pegs; it is also known as beggar's ticks, or pitchforks. The name beggar's ticks is usually given to a related species, Bidens alba.
Pacific Pests, Pathogens, Weeds & Pesticides - Online edition
Pacific Pests, Pathogens, Weeds & Pesticides
Cobbler's pegs (467)
Bidens pilosa. There are other closely related species, Bidens alba and Bidens odorata. Identification is complicated because of the similarity of other species; it should be done by specialists. These species are members of the Asteraceae.
Asia, Africa, North, South and Central America, the Caribbean, Europe (restricted), Oceania. It is recorded from Australia, American Samoa, Cook Islands, Federated States of Micronesia, Fiji, French Polynesia, Guam, Kiribati, Marshall Islands, Nauru, New Caledonia, New Zealand, Niue, Northern Mariana Islands, Palau, Papua New Guinea, Pitcairn, Samoa, Solomon Islands, Tonga, Vanuatu, and Wallis & Futuna.
It is naturalised in many regions of the world; it is thought to be of tropical American origin.
An annual invasive weed common in crops, plantations, pastures, parks, roadsides, disturbed sites and waste lands, but also in waterways, rainforest, open woodlands and coastal sites. A weed of vegetables and plantation crops in many regions of the world. The invasiveness of cobbler's pegs is due to the production of large amounts of viable seed, which can remain dormant for many years, ease of dispersal, ability to grow in a variety of habitats and the development of dense populations which out compete crop plants and native species.
A slender, erect, branching annual plant, growing 20-90 cm tall, occasionally to 1.5 m (Photo 1). Stems are square in cross section, hairless, green to purple. Leaves, opposite along the stems, leaf stalks, 1-6 cm, with saw-like margins. Leaves at the base are simple - there is one oval leaf blade attached to the leaf stalk; further up the stem, the leaves are compound, i.e., divided into three leaflets. Flowerheads in clusters at the end of branches, 7-8 mm across, with yellow central flowers (disc florets). Some plants have flowerheads with white or cream petals-like structures (ray florets), up to 1.5 cm long (Photo 2). However, these ray florets may be absent or quite small (Photo 3). The fruits are black, flattened, up to 1.6 cm long, with two or three hooked bristles (Photos 3&4). One plant can produce over 30,000 seeds. Cobbler's pegs has a strong tap root.
Spread by hooked bristles on the fruits that embed themselves in people's clothing as they brush past the plants. Also, spread on vehicles, water, accidently in agricultural produce, and contaminant of rice seed.
Direct impacts have been reported in soybean (Argentina), sugarcane (Japan) and beans (Brazil) where densities of infestation have been related to yield loss; in soybean, for instance, higher densities than eight plants per square metre produced yield loss of over 40%. Indirect effects on crops are reported as the weed is an alternative host for viruses (e.g., Tomato spotted wilt virus), nematodes (e.g., Meloidogyne and Rotylenchus species), leaf miners (e.g., Liriomyza species), and several fungal pathogens.
Eaten in Africa, and also in parts of Asia (although of low nutritive value); it is also used in Chinese medicine, and has a long history of medicinal use among people of the Amazon. In some Pacific island countries, the leaves and flowers are brewed into a tea to treat a range of ailments, and also used to treat cuts. None of the treatments have been thoroughly investigated.
BIOSECURITY
The risk of introduction is high. Countries not yet infested should consider all likely pathways for entry, and apply quarantine measures accordingly. Particular attention should be given to the risks associated with seed that can be transferred on people's clothing. It is also reported as a contaminant of rice seed.
Cobbler's peg is one of the worst weeds in New Caledonia and Guam, and abundant and widespread in Niue and American Samoa. It is important, too, in a variety of crops in Australia, New Zealand and Hawaii. Bidens pilosa is on the Global Invasive Species Database (2020) of information about alien and invasive species that negatively impact biodiversity, managed by the Invasive Species Specialist Group of the IUCN Species Survival Commission.
BIOCONTROL
None reported, although Waterhouse suggests agromyzid flies have potential.
CULTURAL CONTROL
- Physical & Mechanical
- Cultivation. Hand weeding, hoeing and mowing will control the weed. It is best done before flowering.
- Mechanical weeding. This is done between rows of, e.g., vegetables and root crops.
- Shading
- Intercropping. Growing maize and bean is recommended to suppress the weed. Densities may need to be adjusted to provide best results.
- Hygiene
- Treat vehicles and farm machinery. If moving from areas where the weed occurs to those weed-free, wash to remove soil. This is equally important if the machinery is being imported into a country or moved within a country. Also, ensure seeds are not carried on clothes between infested and 'clean' areas.
CHEMICAL CONTROL
In Australia: diuron; glyphosate; bentazone; metribuzin; 2,4-D (amine); glufosinate-ammonium; pendimethalin; dicamba; fluroxypyr, are registered for use against cobbler's pegs.
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Note, EU approval to use glyphosate ends in December 2022; its use after that date is under discussion.
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When using a pesticide, always wear protective clothing and follow the instructions on the product label, such as dosage, timing of application, and pre-harvest interval. Recommendations will vary with the crop and system of cultivation. Expert advice on the most appropriate herbicides to use should always be sought from local agricultural authorities.
AUTHORS Grahame Jackson & Aradhana Deesh
Adapted from Cobbler's pegs (Bidens pilosa) (2018) Weeds of SE Qld and Northern NSW. Lucidcentral. (https://www.lucidcentral.org/editors-pick-animal-and-plant-identification-keys/key-to-weeds-of-se-qld-and-northern-nsw/); and additional information from CABI (2019) Bidens pilosa (bitter vine). Invasive Species Compendium. (https://www.cabi.org/isc/datasheet/9148); and Waterhouse DF, Norris KR (1987) Bidens pilosa Linnaeus. Biological Control Pacific Prospects. Inkata Press, Melbourne; Bidens pilosa (2010) Wikipedia. (https://en.wikipedia.org/wiki/Bidens_pilosa). Photos 1&3 Joseph M. DiTomaso, University of California - Davis, Bugwood.org. Photo 2 William M. Ciesla, Forest Health Management International, Bugwood.org. Photo 4 Forest & Kim Starr, Forrest Environmental, bugwood.org.
Produced with support from the Australian Centre for International Agricultural Research under project HORT/2016/185: Responding to emerging pest and disease threats to horticulture in the Pacific islands, implemented by the University of Queensland, in association with the Pacific Community and Koronivia Research Station, Ministry of Agriculture, Fiji.