Losses in productivity of subterranean clover swards caused by sowing cucumber mosaic virus-infected seed

During 1990-92, narrow-leafed lupins (Lupinus angustifolius) cv. Gungurru, were grown in six field experiments in which plots were sown with healthy seed or seed that carried 0.5-5% infection with cucumber mosaic virus (CMV). Seed-infected plants were the primary source for subsequent virus spread by aphids. The rate of CMV spread and the extent of infection in plots depended on the level of infection in the seed sown, the proportion of infected seeds that successfully developed into established plants and the time of arrival and number of aphid vectors. In general, higher seed infection levels, better establishment of seed-infected plants and early aphid arrival favoured greater virus spread, yield loss and infection in the harvested seed. In 1991, in two experiments, late arrival of aphids resulted in minimal CMV spread, no effect on yield and much less infection in the harvested seed than in the seed sown. In the other four experiments, significant yield losses (25-42%) always resulted when seed with 5% or 3% infection was sown. Sowing 1% infected seed resulted in significantly decreased yields in two experiments, while 0.75% and 0.5% infected seed caused significant losses in one experiment (16-19% losses). Yield decreases were due to both fewer seeds being formed and decreased seed size. Levels of infection in harvested seed did not exceed 15%. In a further field experiment in 1991, individual plants that developed CMV symptoms before initiation of flowering or during flowering had significantly smaller yields than those that developed symptoms after flowering had finished. In four field experiments during 1990-91, 10-15% CMV-infected lupin seed was sown at rates of 20-150 kg ha-1 to generate a range of plant densities. The numbers of seed-infected plants were recorded at different times. The extent of loss of seed-infected plants due to shading by neighbouring healthy plants depended on plant density and the time when canopy closure developed. Where no canopy formed there was little or no loss of seed-infected plants, while early canopy formation at high plant density was most effective in removing them. Current-season spread was also decreased by early canopy formation and high plant density, but this effect was smaller when aphids arrived early. This work supports recommendations for management of CMV infection in lupins by sowing seed with low infection (<0.5%) to minimize infection sources, and sowing early at high seeding rates to remove seed-infected plants through improved canopy formation.

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Seed-borne cucumber mosaic virus infection of subterranean clover in Western Australia

Annals of Applied Biology ◽

10.1111/j.1744-7348.1990.tb06587.x ◽

1990 ◽

Vol 116 (1) ◽

pp. 73-86 ◽

Cited By ~ 23

Author(s):

R. A. C. JONES ◽

S. J. McKIRDY

Keyword(s):

Virus Infection ◽

Cucumber Mosaic Virus ◽

Mosaic Virus ◽

Western Australia ◽

Subterranean Clover ◽

Cucumber Mosaic Virus Infection ◽

Mosaic Virus Infection

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Bean leafroll virus is widespread in subterranean clover (Trifolium subterraneum L.) seed crops and can be persistently transmitted by bluegreen aphid (Acyrthosiphon kondoi Shinji)

Crop and Pasture Science ◽

10.1071/cp12121 ◽

2012 ◽

Vol 63 (9) ◽

pp. 902 ◽

Cited By ~ 5

Author(s):

D. M. Peck ◽

N. Habili ◽

R. M. Nair ◽

J. W. Randles ◽

C. T. de Koning ◽

...

Keyword(s):

Cucumber Mosaic Virus ◽

Mosaic Virus ◽

Seed Production ◽

Alfalfa Mosaic Virus ◽

South Australia ◽

Subterranean Clover ◽

Trifolium Subterraneum ◽

Bean Leafroll Virus ◽

Leafroll Virus ◽

Clover Seed

In the mid 2000s subterranean clover (Trifolium subterraneum) seed producers in South Australia reported symptoms of a red-leaf disease in fields with reduced seed yields. The red-leaf symptoms resembled those caused by several clover-infecting viruses. A set of molecular diagnostic tools were developed for the following viruses which are known to infect subterranean clover: Alfalfa mosaic virus; Bean leafroll virus (BLRV); Beet western yellows virus; Bean yellow mosaic virus; Cucumber mosaic virus; Pea seed-borne mosaic virus; Soybean dwarf virus and Subterranean clover stunt virus. Surveys of subterranean clover seed production fields in 2008 in the south-east of South Australia and western Victoria identified Bean leafroll virus, Alfalfa mosaic virus and Cucumber mosaic virus as present, with BLRV the most widespread. Surveys of pasture seed production fields and pasture evaluation trials in 2009 confirmed that BLRV was widespread. This result will allow seed producers to determine whether control measures directed against BLRV will overcome their seed losses. Bluegreen aphid (Acyrthosiphon kondoi) was implicated as a potential vector of BLRV because it was observed to be colonising lucerne plants adjacent to subterranean clover seed production paddocks with BLRV, and in a glasshouse trial it transmitted BLRV from an infected lucerne plant to subterranean clover in a persistent manner.

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Infection of alternative hosts associated with narrow-leafed lupin (Lupinus angustifolius) and subterranean clover (Trifolium subterraneum) by cucumber mosaic virus and its persistence between growing seasons

Australian Journal of Agricultural Research ◽

10.1071/ar9941035 ◽

1994 ◽

Vol 45 (5) ◽

pp. 1035 ◽

Cited By ~ 19

Author(s):

SJ McKirdy ◽

RAC Jones

Keyword(s):

Cucumber Mosaic Virus ◽

Mosaic Virus ◽

Host Species ◽

Subterranean Clover ◽

Trifolium Subterraneum ◽

Seed Transmission ◽

Lupinus Angustifolius ◽

Minor Role ◽

Alternative Hosts ◽

A Minor

Under conditions of natural cucumber mosaic virus (CMV) spread, eight alternate host species found associated with Lupinus angustifolius (narrow-leafed lupin) and/or Trifolium subterraneum (subterranean clover) were infected commonly and another nine sporadically. Five of these were new records. Because seed of herbaceous plant hosts provides a possible route for virus persistence through dry summer conditions, CMV seed transmission was tested for in alternative hosts. Seed of seven species systemically infected following sap inoculation was tested, but CMV seed transmission was only detected in M. polymorpha (0.7%) and M. indica (0.1%). When seed of 14 potential alternative host species that became systemically infected through natural virus spread was tested, CMV seed transmission was found only in C. decumbens (0.5%). No CMV was detected in Citrullus lanatus growing as a deep-rooted, herbaceous summer weed following CMV-infected L. angustifolius crops, or in the perennial Acacia saligna growing adjacent to a previously CMV-infected L. angustifolius field. CMV persisted through seed transmission over summer for up to 5 years in grazed, self-regenerated T. subterraneum swards. It is concluded that under the conditions of broadacre agriculture, in the Mediterranean-type climate of Western Australia, weed hosts are unlikely to be an important means by which CMV persists over summer, but seed transmission in naturalized M. polymorpha and C. decumbens may occassionally play a minor role. Moreover, despite being seed-borne in T. subterraneum, CMV did not persist readily enough from year to year in grazed swards for T. subterraneum pastures to play more than a minor role as a CMV source for infection of L. angustifolius .

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Effects of applying insecticides to control aphid vectors and cucumber mosaic virus in narrow-leafed lupins Lupinus angustifolius)

Australian Journal of Experimental Agriculture ◽

10.1071/ea96041 ◽

1997 ◽

Vol 37 (1) ◽

pp. 93 ◽

Cited By ~ 24

Author(s):

A. M. Bwye ◽

W. Proudlove ◽

F. A. Berlandier ◽

R. A. C. Jones

Keyword(s):

Grain Yield ◽

Cucumber Mosaic Virus ◽

Mosaic Virus ◽

Field Experiments ◽

Virus Transmission ◽

Primary Source ◽

Lupinus Angustifolius ◽

Current Season ◽

Infected Seed ◽

Carbamate Insecticides

Summary. Narrow-leafed lupins (Lupinus angustifolius) were sown in 4 field experiments to investigate the effects of applying organophosphorus and carbamate insecticides on the spread of cucumber mosaic virus (CMV), which is transmitted non-persistently by aphids. The seed sown carried 0 or 5% CMV infection and seed-infected plants were the primary source for subsequent virus transmission by aphids. Virus incidence was gauged by calculating the percentage of plants per plot showing typical current-season CMV symptoms. At final assessment in plots sown with 5% infected seed, recorded CMV incidence was always significantly smaller (up to 3-fold less) when they received sprays of pirimicarb and/or methamidophos every 2 weeks than when they received no insecticide. When single or double strategic sprays of methamidophos or a mixture of pirimicarb/thiometon were applied in late August or early September, they either decreased recorded CMV incidence (up to 2-fold less infection) or had no significant effect on it. Recorded CMV incidence was not significantly diminished by dressing seed with disulfoton or by single- or double-foliar applications of pirimicarb used alone. However, pirimicarb sprays applied every 2 weeks improved grain yield (24% increase), as also did single or double applications of pirimicarb (14%). In one experiment, applications of methamidophos every 2 weeks to plots originally sown with 5% infected seed resulted in increased grain yield (35%) and yields were increased in plots sown with healthy seed whether sprayed every 2 weeks with methamidophos or left unsprayed (42–61%). Pirimicarb suppressed numbers of colonising Acyrthosiphon kondoi and Aphis craccivora to a greater extent than those of Myzus persicae, especially when sprayed every 2 weeks. Single-, double- and sprays of methamidophos every 2 weeks also decreased numbers of Acyrthosiphon kondoi, but had less effect on M. persicae. When different insecticides were tested for their abilities to kill colonising, insecticide-resistant M. persicae, methamidophos was the most effective. This work suggests that single or double strategic foliar sprays of organophosphorus or carbamate insecticides cannot be relied on to control CMV adequately to be recommended for use in increasing grain yields in CMV-infected lupin grain crops.

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THESIS SUMMARY STUDIES OF ALFALFA MOSAIC VIRUS AND SUBTERRANEAN CLOVER RED LEAF VIRUS

Proceedings of the New Zealand Grassland Association ◽

10.33584/jnzg.1979.41.1530 ◽

1979 ◽

pp. 163-164

Author(s):

P.B. Teh

Keyword(s):

Mosaic Virus ◽

Alfalfa Mosaic Virus ◽

Subterranean Clover ◽

Test Plant ◽

Transmission Frequency ◽

Virus Source ◽

Leaf Virus

AMV was shown to be transmitted by sap, aphids and through lucerne seed, but not by Cuscuta. Virus source and test plant influenced transmission frequency. Sap-inoculation tests showed that 20 species of plants were susceptible to this virus. Thirteen species of plants from the fields where AMV had been detected were tested but only three were found to be infected with the virus.

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