The rapid spread of clover root weevil (Sitona lepidus) (CRW) since its introduction in the early 1990s, threatens the competitive advantage of New Zealand's pastoral industry. When CRW was discovered, it had already spr ead too far for containment. The insect's distribution currently covers the North Island and there is no reason to prevent its spread ultimately throughout NZ. With no competing species, CRW is more damaging in NZ than in its native Europe. Clover root weevil affects white clover nitrogen (N) fixation while simultaneously reducing the clover content of pastures thereby lowering total forage quality. Legume germplasm was screened for resistance/tolerance and while no resistance was discovered, vigorous growing white c lover plants showed tolerance to CRW and gains from selection for tolerance were achieved. Eliminating remnant clover before pasture renovation or growing a crop between grass stages reduces the resident CRW population and improves clover re-establishment. However, CRW can reinvade and potentially return to its original density. Two candidate biological control agents are being pursued for release later in 2005. Clover root weevil's impact on pastoral farming varies, partially due to environmental variation, which dictates clover growth and CRW development. Keywords: clover root weevil, cultivar selection, life cycle analysis, pasture management, Sitona lepidus
The decimation of white clover in Waikato and Bay of Plenty pastures owing to the invasion clover root weevil (CRW) initiated an extensive screening of legume germplasm to identify plant material that could survive and remain productive under high CRW pressure. A total of 50 000 plants from 275 lines and six species, were planted on seven commercial farms and evaluated for tolerance/ resistance to CRW under conventional farming practices. Plant productivity and level of CRW damage were both highest on white clover. Significant CRW damage was also observed on red clover and caucasian clover, but not on birdsfoot trefoil, lotus major or lucerne. However, the productivity under stock grazing of the latter three species was not sufficient to consider them suitable alternatives to white clover. Within the white clover lines there was encouraging variability in the level of CRW damage, and in the ratio of damage to shoot production. While root damage is of greater importance than shoot damage, the latter reflects CRW activity and egg deposition and is a good indicator of likely larval development and root damage. Factors such as farm type (dairy farms versus dry stock farms) had some influence on shoot production, but very little influence on CRW damage. Climatic conditions appeared to have strong influences on clover shoot production and CRW damage, with dry conditions from late spring to early autumn having a particularly suppressive effect on CRW damage and CRW population growth. Top performing lines have been selected from this screening and are currently being evaluated in more detail under high CRW pressure. Keywords: clover, clover root weevil, plant screening, Sitona lepidus, tolerance, Trifolium repens
Field population studies of clover root weevil in the Waikato in 1996/97 showed that high levels of reproductive females in early summer were followed by a summer larval generation. However, in the 1997/98 summer, non-reproductive females predominated and a summer generation of larvae did not eventuate. Rainfall during the 1997/98 summer was less than in the preceding summer. The possibility that dry conditions inhibited the initiation of oviposition is supported by experimental evidence showing that females collected from irrigated pastures laid almost 100 times more eggs over a one month period than those from non-irrigated pastures.
Clover root weevil (Sitona lepidus) is established in Auckland, Waikato and Bay of Plenty provinces. A pasture survey in 1997 estimated that the rate of its spread at about 35 km annually. Adults feed on the foliage and larvae on roots and nodules of white clover. Pasture populations appear to be 10 times higher in New Zealand than in the UK. New Zealand's temperate climate and high clover content in pastures may offer a very favourable environment for S. lepidus, with serious implications for New Zealand's pastoral farming. Keywords: clover root weevil, pasture pests, Sitona lepidus, Trifolium repens, white clover
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