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Lancaster University 2004
Biocontrol Working Group Workshop
7 - 9 September 2004
BIOCONTROL WORKING GROUP MEETING 7 – 9 SEPTEMBER 2004
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Biocontrol abstracts from BES/EWRS
meeting Lancaster September 2004
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CHARUDATTAN, R. (University of Florida, USA)
Plant Pathogens – An Underexploited Resource to Counteract Invasive
Weeds.
Pathogens
are under-utilised in the global efforts to counter invasive weeds. Past
successes and our recent discovery of a virus-induced herbicidal action
in the Tobacco mild green mosaic tobamovirus-Solanum viarum
system provide the basis to argue for intensified efforts to discover,
develop, and use pathogens as weed-control agents.
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SHAW, R.H.1, GREATREX, R.2 (1 CABI Bioscience, UK,
2 Syngenta Bioline, UK)
Why is biological control so
difficult in the UK?
Developing
and implementing UK classical weed biocontrol programmes has proven
challenging. Biocontrol in the glasshouse is more established but not
without its own hurdles. This paper compares the theory and reality
facing both practitioners and suggests improvements to bring the UK
situation closer to that of more experienced countries.
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DJEDDOUR, D.H. SHAW, R.H. TANNER, R.A. (CABI Bioscience, UK)
The biological control of Japanese
knotweed (Fallopia
japonica): the story so far.
This
programme, the first of its kind in the UK, began in earnest in 2003
after 13 years of development. We present the weed's profile, including
its original source, the findings of Japanese field surveys and
introduce the natural enemies so far studied in quarantine, highlighting
those still under consideration.
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KIRK, A.A.1, WIDMER, T.1, DUDLEY, T.2,
CAMPOBASSO, G.1 (1 United States Department of Agriculture,
Montpellier, France, 2 University of Nevada, Reno, USA)
Biological control of
Arundo donax;
a practical solution.
Arundo donax is an invasive weed in the southwestern USA. It
replaces native vegetation causing flooding and wildfires. In its native
Mediterranean natural enemies such as Diptera and Hymenoptera reduce its
invasiveness. Biological control of Arundo may be a practical
solution. |
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EVANS, H.C.1, TOMLEY, A.J.2 (1 CABI Bioscience, UK,
2 Alan Fletcher Research Station, UK)
Towards successful management of the
Madagascan rubber-vine weed in Australia: an integrated approach
underpinned by classical biological control.
Rubber-vine
weed (Cryptostegia grandiflora) covers over 40,000 km2
of Queensland, Australia. The purposeful introduction of the coevolved
rust Maravalia cryptostegiae has resulted in sustained
defoliation of the target weed and the regeneration of indigenous
grasses. It also permits the integration of more traditional fire
management practices that were previously impossible.
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GERBER, E. HINZ, H.L. (CABI Bioscience, Switzerland Centre)
Impact of two potential biological
control agents on
Alliaria petiolata
and the interactions between them.
We
investigated the individual and joint effects of two weevils,
Ceutorhynchus scrobicollis and C. alliariae, which are
currently studied for biological control of Alliaria petiolata in
North America. Results indicate that both species could be
released together but preference should be given to C. scrobicollis
due to its stronger impact. |
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MUELLER-SCHAERER, H.1, SCHAFFFNER, U.2, STEINGER,
T.1 (1 University of Fribourg, CH, 2 CABI Bioscience Centre,
CH)
Evolution in invasive plants and
implications for biological control.
Evidence
is mounting that invasive plants can undergo rapid adaptive evolution
during the process of range expansion. Here, we argue that evolutionary
change during invasions will affect plant-antagonist interactions and
thus have important implications for biological control programmes
targeted at invasive plants. |
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UYGUR, S.1, SMITH, L.2, UYGUR, F.N.1 (1
Cukurova University, Turkey, 2 USDA-ARS Western Regional Research Center,
USA)
Biological Control Studies on
Centaurea solstitialis
L. (Yellow starthistle) in Turkey.
Centurea solstitialis L. which is native to southern Europe and
western Eurasia.It was accidentally introduced to western USA and became
an alien weed.It occurs throughout Turkey as an annual weed especially
in pastures.Our ongoing studies starting from 1999 were conducted to
understand occurance of C. solstitialis, to determine natural
enemies,to study on its promising agents and population growth towards
its biological control.Ceratapion spp. were the most
common natural enemies. Our previous studies show that C. basicorne
was the most promising biocontrol agents against to control of C.
solstitialis. |
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SALZMANN, D. HANDLEY, R.J. MÜLLER-SCHÄRER, H. (University of Fribourg,
CH)
Effect of reduced photosynthetic
rate in Senecio
vulgaris on resistance and
tolerance to the rust fungus
Puccinia lagenophorae.
Isonuclear
triazine herbicide resistant (with reduced photosynthetic capacity) and
susceptible biotypes of Senecio vulgaris were compared to: (1)
examine the role of photosynthetic rate and its compensatory increase (a
potential tolerance mechanism) after damage imposed by the rust fungus
Puccinia lagenophorae; (2) find potential negative cross
resistance.
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HINZ, H.L.1, SCHWARZLAENDER, M.2 (1 CABI Bioscience
Switzerand Centre, Switzerland, 2 University of Idaho, USA)
Comparing invasive plants in their
native and exotic range: what can we learn for biocontrol?
This paper
reviews and summarizes data sets that attempt to compare performance,
population dynamics, and herbivory of invasive plant species at field
sites in their native and exotic range and under standardized
conditions. We will discuss how such studies can benefit biological
control programs and suggest future research.
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BUCKLEY, Y.M.1, REES, M.1, PAYNTER, Q.2,
LONSDALE, M.2 (1 NERC Centre for Population Biology, Imperial
College London, UK, 2 CSIRO Entomology, Australia)
An integrated approach to managing
invasive weeds.
The giant
sensitive plant (Mimosa pigra) is the worst invasive weed in
tropical Australia. We use experimental data to parameterise an
integrated weed management model and predict optimal management
incorporating biocontrol, herbicides, fire and mechanical control. The
model includes much of the basic ecology of mimosa while retaining a
simple framework.
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INGLESE, S.J. CACHU, Y. PAUL, N.D. (Lancaster University, UK)
Tolerance of
Senecio vulgaris
attacked by a native and alien rust fungus.
It is
generally accepted that plants are more vulnerable to the effects of
alien pathogens due to a lack of resistance. We are testing the
hypothesis that tolerance of disease is also lower in the face of alien
pathogens using Senecio vulgaris attacked by native and introduced rust
fungi.
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ROSE, K.E.1, LOUDA, S.M.2, REES, M.1 (1
Imperial College, UK, 2 University of Nebraska, USA)
Demographic and evolutionary impacts
of native and invasive insect herbivores: a case study with Platte
thistle,
Cirsium canescens.
We quantify
evolutionary effects of herbivory by native and invasive insects on
monocarpic thistles. Models specified how demographic rates varied with
individual size and herbivore damage. These were used to parameterise
integral projection models (IPMs) investigating the effects of herbivory
on lamba, equilibrium population size and evolutionary stable flowering
strategy.
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ODURO, C.1, HATCHER, P.1, NEWMAN, J.2 (1
University of Reading, UK, 2 Centre for Aquatic Plant Mgt., Sonning, UK)
Control of red water fern (Azolla
filiculoides) using tarragon (Artemisia
dracunculus) and mugwort (Artemisia
vulgaris) leaf extracts.
Effect of
tarragon and mugwort leaf extracts on Azolla growth was examined.
Leaves were extracted sequentially with methylene chloride, ethanol, and
water. Extracts were introduced into growth medium. Tarragon and
mugwort aqueous extracts and mugwort ethanol extract inhibited Azolla
growth whilst methylene chloride and ethanol extracts of tarragon were
lethal.
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REEDER, R.H. SHAW, R.H. (CABI Bioscience, UK)
Innundative biocontrol of
Azolla filiculoides
using a specialist weevil.
The
non-native fern, Azolla filiculoides, causes problems in many
aquatic habitats. Fortunately, the monophagous weevil, Stenopelmus
rufinasus, has also become naturalised in the UK but has failed to
emulate its spectacular South African performance. The reasons are
examined and the potential for early inundative releases of overwintered
weevils is explored.
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Many thanks
to the British Ecological Society for allowing us to publish these
abstracts, which first appeared in their ‘Annual Meeting and AGM,
Programme and Abstracts’. |
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