Abstract
1. This account presents information on all aspects of the biology of Cirsium arvense that are relevant
to understanding its ecological characteristics and behaviour. The main topics are presented
within the standard framework of the Biological Flora of the British Isles: distribution, habitat, communities,
responses to biotic factors, responses to environment, structure and physiology, phenology,
floral and seed characters, herbivores and disease, history, conservation and management.
2. Cirsium arvense, creeping thistle (Californian thistle, Canada thistle), one of the world’s most
troublesome and persistent weeds, is native to Europe and the east northern hemisphere but introduced
to North America and the southern hemisphere. Latitudinal distribution north or south is
limited by low winter and summer maximum temperatures and by a long day requirement for flowering.
3. Cirsium arvense is believed to have originated in the temperate Middle East and its spread has
closely followed human migration and agricultural activity. Colonization of new sites is by seed
which establishes best in bare or disturbed ground, mirroring its prehistoric ecology as an opportunist
pioneer of bare ground and organic residues. It is now a widespread and scheduled agricultural
weed in both arable crops and pastures and also a constituent in over 70 British (National Vegetation
Classification) plant communities, occurring mainly on waste neglected land, roadsides, hedgerows
and disturbed areas.
4. Its presence in crops leads to yield losses and in pastures seriously interferes with utilization due
to the deterrent effect of the leaf spines on grazing animals. This has led to a long history of investigation
into control measures: mechanical, chemical, biological and integrated, which are summarized.
Combination treatments and integrated control have achieved some success but effective
control requires follow-up procedures over a number of seasons. Climate change studies suggest
C. arvense could grow better and be more difficult to control in future.
5. Success and persistence derives from an extensive, far-creeping and deep rooting system which
ensures survival and rapid vegetative spread under a wide range of soil and management conditions,
and a means of escape from sub-aerial control treatments. New adventitious buds capable of shoot
development can arise at any point along the horizontal roots, even when these are cut into pieces
or damaged. Root buds remain dormant until released fromdormancy through damage or decay of
the aerial shoots. Carbohydrate root reserves, stored in swollen cortical tissue, fall to a minimum
just before flowering and are then replenished for perennation during the subsequent winter. Strategies
for control aimto treat the plant when root carbohydrate reserves are at a minimum, to exhaust
these reserves and to prevent replenishment for further perennation.
6. Balanced against its difficulty as a weed, C. arvense has significant conservation value as a host
to numerous insects, many attracted by copious and accessible nectar and strong flower fragrance.
It is however a strong competitor to low-growing plants in natural communities.
7. Cirsium arvense is dioecious and for flowering has a 14–16 h day length requirement. Seed set is
successful if male and female plants are no more than 50–90 m apart to allow insect pollination. In
spite of the conspicuous wind-borne pappus, this rarely carries a seed which normally falls near the
parent plant. The flower heads and other plant parts are regularly attacked by numerous insects
and less frequently by diseases.
8. Germination of seed is mainly during the high temperatures of early summer in the year following
dispersal and establishment is most successful in open areas. Development of the branching root
system and vegetative spread follow rapidly.
9. A combination of dioecy and vegetative reproduction has resulted in the maintenance of genotypic
and genetic diversities within populations allowing efficient colonization and persistence, contributing
greatly to success in the species.
Original language | English |
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Pages (from-to) | 938 - 983 |
Number of pages | 46 |
Journal | Journal of Ecology |
Volume | 98 |
Publication status | First published - 2010 |
Bibliographical note
65800023Keywords
- Mycorrhiza
- Reproductive biology
- Soils