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SOYBEAN RUST Phakopsora pachyrhizi

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Hosts include kutzu, crimson clover, white clover, sesbania, beans, peas etc. ... winter in alternative hosts such as crimson clover, vetch in the United States. ... – PowerPoint PPT presentation

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Title: SOYBEAN RUST Phakopsora pachyrhizi


1
SOYBEAN RUSTPhakopsora pachyrhizi
  • G. L. Sciumbato, Plant Pathologist
  • Delta Research and Extension Center
  • Stoneville, MS

2
Facts about the rust fungus
  • Obligate parasite-Cannot survive unless it is in
    a host.
  • Over 100 alternative legume hosts- Can complete
    life cycle on many legumes. Hosts include kutzu,
    crimson clover, white clover, sesbania, beans,
    peas etc.
  • Rust spores can survive for up to 30 days outside
    a host and can travel up to 400 miles.

3
Facts about the rust fungus
  • Optimum growing temperatures 69-89O
  • Fungal spores are sensitive to heat and die when
    temperatures are above 900
  • Fungus grows best under moist conditions. Long
    dew periods etc. Dry, hot weather inhibits growth
    of fungus.
  • Spores built up on host plants and are blown by
    wind currents to infect soybean plants.

4
Facts about the disease on soybeans
  • Can infect soybeans at most any growth stage
  • Soybeans become more susceptible when they enter
    the reproductive stage (R1).
  • No resistant varieties
  • Causes premature defoliation, reduction in seed
    size and numbers
  • Can cause up to 80 yield losses

5
Where we are-What we know!
  • Rust has been in China since 1902
  • Rust a bigger problem in Southern China, much
    less of a problem in Northern China. (Spores
    travel from south to north each year)
  • Rust found in Africa in 1996 and South America in
    1998.
  • In South America, susceptible hosts present year
    around.

6
Where we are-What we know!
  • Rust has become a serious problem every year in
    parts of South America because susceptible hosts
    are present year around.
  • Ninety percent plus of soybean acreage is
    treated with a foliar fungicide
  • Rust carried by hurricane to the United States in
    November 2004.
  • Rust found in late soybeans in most of the
    Southeastern United States. Also found in kitzu
    in Georgia and Florida.

7
What we have done to prepare
  • Training sessions have been and are being
    conducted on rust identification and control.
  • Numerous educational materials have been
    developed to train personnel how to identify rust
  • Section 18 registrations are being obtained to
    register fungicides for the rust control.

8
What we have done to prepare
  • A list of seven fungicides which have shown
    efficacy in controlling rust in South America are
    in the process of being approved for use in the
    United States.
  • Other fungicides are being added to the list and
    are under the process of being registered.
  • A program has been underway to breed soybeans for
    rust resistance. No resistant varieties are
    expected for 6-8 years.

9
Next year-2005 growing season
  • We do not know to what extent rust has infected
    alternative hosts in areas such as South Florida
    and the Caribbean where it can over winter.
  • We have been unable to detect rust in many
    alternative hosts from these areas.
  • Therefore, we believe that rust may or may not be
    a problem in the U.S. in 2005.

10
Next year-2005 growing season
  • Therefore, we are establishing Sentential plots.
    Sentential plots are small plantings of soybeans
    which are planted 2-3 weeks before the rest of
    the soybean crop is planted and monitored for
    rust. We hope to plant sentential plots along the
    Gulf Coast and up the Mississippi river. If rust
    is found in these plots, we will alert producers.

11
Now What?
  • Several different scenarios as to what will
    happen next have been proposed

12
Scenario One-most probable
  • Rust hosts die this winter in most of the United
    States. The fungus will over winter in hosts
    such as in South Florida or South Texas or in
    the Caribbean etc.
  • This is similar to what happens in China and the
    fungus will have be carried by wind currents to
    the Southern United States and from then to the
    Northern soybean growing areas.

13
Scenario One
  • If this scenario happens, the severity of the
    disease would depend on wind currents etc and
    the disease would have to built up.
  • If this scenario happens, the disease would be
    more severe in the Southern United States and
    would be a problem 1 or 2 years out of 5 in the
    Midwest and Northern United States

14
Scenario Two-Unlikely
  • The fungus is able to over winter in alternative
    hosts such as crimson clover, vetch in the United
    States.
  • If this scenario happens, the disease would
    spread from the alternative hosts and rust would
    be a problem throughout the United States.
  • This scenario is unlikely because the fungus does
    not over winter in China on alternative hosts.

15
Scenario Three- Unlikely
  • The fungus does not over winter in alternative
    hosts such as crimson clover, vetch in the
    northern hemisphere.
  • If this scenario happens, the disease would have
    to be carried back into the United States by
    Hurricanes etc.

16
Best Guess?
  • Rust will probably not be severe in 2005 because
    the fungus has not built up in alternative hosts
    in areas where these hosts are not killed by
    winter. (South Florida, Caribbean, etc).
  • Rust will built up in these areas and after 2005
    or 2006 rust will be blown into the Southern
    United States every year.

17
Best Guess?
  • Rust severity when this happens will depend on
    wind currents, temperature and moisture etc after
    the soybeans are planted.
  • It will be possible to develop forecasting
    systems to predict rust severity etc.

18
Rust Control and Management
  • No resistant varieties for 6-8 years
  • Cultural practices such as row spacing, seeding
    rates etc have little effect.
  • We will have to depend on sentential plots and
    forecasting systems to identify and predict rust
    severity.
  • Foliar fungicides will have to be used to manage
    rust.

19
Foliar Fungicides to Control Rust
  • Experience in Africa and South America has shown
    that 1-4 foliar fungicide applications beginning
    at the R1 growth stage are needed to manage rust.
  • Fungicide labels will read that if you have 3-5
    rust infection, it is too late to spray
  • Two main types of fungicides 1. Preventative or
    Protectant 2. Curative

20
Foliar Fungicides to Control Rust
  • Preventative fungicides such as Quadris and
    Headline have to be applied before rust
    infection.
  • Curative fungicides such as Tilt, Folicur, Loredo
    etc. have some curative properties after rust
    infection.
  • Mixtures of preventative and curative fungicides
    such as Stratego are also used.

21
What to do?
  • We are proposing the following options to
    producers
  • 1. Plan on applying a foliar fungicide at R1 and
    R3. If rust is present use a curative fungicide.
  • 2. Monitor the sentential plots and apply a
    fungicide when rust is detected. If this method
    is used you run the risk of missing rust
    infections and not applying the fungicide soon
    enough.

22
What to do?
  • 3. Wait until rust is detected and spray. This
    is very risky because rust is hard to detect.
  • If you do not have to spray until R3, or for the
    R5 spraying, it is recommended that a fungicide
    such as Quadris, Headline, or the mixture
    Stratego be used. The reason for this is that
    these fungicides control other late season
    diseases and the control of these diseases will
    help defray fungicide costs.

23
STROBILURINS
  • PREVENTATIVE ACTION ONLY-cannot be applied after
    disease is present.
  • VERY EFFECTIVE IN PREVENTING DISEASE DEVELOPMENT.
  • DEPENDING ON DOSAGE CAN PROVIDE LONG PERIODS OF
    DISEASE CONTROL
  • CANOPY COVERAGE CRITICAL.
  • CONTROL A NUMBER OF OTHER DISEASES.

24
QUADRIS (Syngenta)
  • Common name AZOXYSTROBIN
  • Preventative action only.
  • Potential for resistance to develop.
  • Depending on dosage, active for several weeks.
  • Use rate 6.2 oz/A. Can be up to 15.4 oz/A.
  • Cost per acre for each application12.89 for
    fungicide 3.90 ground or 5.47 aerial
    applications costs.

25
HEADLINE (BASF)
  • Common name Pyraclostrobin
  • Recommended as a preventative, has some systemic
    activity.
  • Potential for resistance to develop.
  • Not quite as long lived as Quadris.
  • Use rate 6.0 oz/A. Can be up to 12 oz/A
  • Cost per acre for each application10.83 and up
    for fungicide 3.90 ground or 5.47 aerial
    applications costs.

26
TRIAZOLES
  • Primarily Preventative action but can have some
    curative activity.
  • Some are very systemic and therefore spray
    coverage not as important.
  • Some are short lived.
  • No resistance to trizoles confirmed.
  • Control some other diseases.
  • Often mixed with other fungicides to manage
    fungicide resistance.

27
TILT, BUMPER, PROPIMAX(Syngenta, Dow, etc.)
  • Common name PROPICONAZOLE.
  • Has curative activity
  • Short lived
  • Often mixed with other fungicides.
  • Use rate 4.0 oz/A. Can be up to 8 oz/A
  • Cost per acre for each application10.16 and up
    for fungicide 3.90 ground or 5.47 aerial
    applications costs.

28
FOLICUR (Bayer)
  • Common name TEBUCONAZOLE.
  • Has some curative activity.
  • Looks good in trials in South America.
  • Very systemic.
  • Use rate 4.0 oz/A.
  • Cost per acre for each application10.47 for
    fungicide 3.90 ground or 5.47 aerial
    applications costs.

29
LOREDO, SYSTHANE (Dow)
  • COMMON NAME MYCLOBUTANIL.
  • Has some curative activity.
  • Systemic.
  • Use rate 4.0-8.0 oz/A.
  • Cost per acre for each application5.75 and up
    for fungicide 3.90 ground or 5.47 aerial
    applications costs.

30
DOMARK (Valent)
  • Common name TETRACONAZOLE.
  • Has some curative activity.
  • Systemic. Looks good in South America.
  • Use rate 10.0-13.0 oz/A.
  • One of original seven to be granted a section 18
    label when rust was found.
  • Soybean registration pending.
  • Cost per acre for each application12.42 and up
    for fungicide 3.90 ground or 5.47 aerial
    applications costs.

31
CARAMBA (Bayer)
  • Common name METCONAZOLE.
  • Has some curative activity, systemic.
  • Registration to be submitted in Feb.
  • Use rate unknown.
  • May also be premix with Headline
  • Cost per acre for each application unknown
    3.90 ground or 5.47 aerial applications costs.

32
PUNCH (Dupont)
  • Common name FLUSILAZOLE.
  • Has some curative activity, systemic.
  • Registration to be submitted in Feb.
  • Use rate unknown.
  • Also premix with famoxadone (Charisma)
  • Cost per acre for each application unknown
    3.90 ground or 5.47 aerial applications costs.

33
IMPACT (CHEMINOVA)
  • Common name FLUTRIAFOL.
  • Has curative activity, systemic.
  • Registration to be submitted in ?.
  • Use rate unknown.
  • Has looked good in South America
  • Cost per acre for each application unknown
    3.90 ground or 5.47 aerial applications costs.

34
ALTO (SYNGENTA)
  • Common name CYPROCONAZOLE.
  • Has curative activity, systemic.
  • Registration to be submitted in Feb.
  • Use rate unknown.
  • Has looked good in South America
  • Also premix with Quadris Quadris Extra
  • Cost per acre for each application unknown
    3.90 ground or 5.47 aerial applications costs.

35
JAU6476 (BAYER)
  • Common name is PROTHIOCANAZOLE.
  • Has curative activity, systemic.
  • Registration to be submitted in Feb.
  • Use rate unknown.
  • Also premix with Trifloxystobin
  • Cost per acre for each application unknown
    3.90 ground or 5.47 aerial applications costs.

36
OTHER FUNGICIDES-BRAVO, EQUUS, ECHO (Syngenta,
etc.)
  • Common name CHLOROTHALONIL.
  • Protectant activity only
  • Short lived
  • Not as effective as other fungicides
  • Use rate 1 1/3 pt 2 ΒΌ pt/A
  • Cost per acre for each application 7.20 and
    up for fungicide 3.90 ground or 5.47 aerial
    application costs.

37
FUNGICIDE MIXES
  • Two modes of action- reduces chances of
    resistance to fungicide building up.
  • Broader spectrum of activity.

38
STRATEGO (Bayer)
  • Mixture of trifloxystrobin propiconazole
  • Use rates of both fungicides are lower than when
    the fungicide is used alone.

39
PRISTINE (BASF)
  • Mixture of pyraclostrobin boscalid
  • One of original seven to be granted a section 18
    label when rust was found
  • Boscalid has little activity on rust.
  • Not registered on soybeans.

40
QUILT (Syngenta)
  • Mixture of azoxystrobin proponazole
  • Use rates of both fungicides are lower than when
    the fungicide is used alone.
  • Registration will be submitted in February.

41
Some Final thoughts
  • It is an advantage to grow short season varieties
    (IV and early V) because fewer fungicide sprays
    are needed.
  • It may be an advantage to plant early because the
    early planted beans are maturing in July and
    August when it is hot and weather conditions are
    not favorable for rust development.

42
Some Final thoughts
  • Rust is manageable, however rust control will add
    30-50 per acre to the cost of growing soybeans.
  • Rust control must began before the disease is
    severe in your field.
  • Rust has been managed in other areas where it is
    present and it can be managed in the United
    States.
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