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Quagga Mussels In AZ

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Arizona Game and Fish Department. Quagga/Zebra Mussel. An ... Coordination in Arizona ... Obviously, Arizona, Nevada, and California have immediate issues. ... – PowerPoint PPT presentation

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Title: Quagga Mussels In AZ


1
Quagga Mussels In AZ
  • Larry Riley
  • Arizona Game and Fish Department

2
Quagga/Zebra Mussel
  • An Aquatic Invasive Species. Two closely related
    species of mussel or freshwater clam.
  • Introduced to the US in the mid-1980s into the
    Great Lakes. Have since spread across much of the
    Eastern US, where they have proliferated and
    caused serious concern and damage.
  • Leapt from the Great Lakes/Mississippi River to
    the Colorado River. First detected Jan. 2007.

3
Unwelcome Visitor
  • Quagga Mussel Detected Lake Mead, Jan 6

4
A Lake Mead Quagga
  • A close up view

5
Pretty Big Jump
  • Distribution of quagga mussel in North America

6
Quagga mussel in Arizona
  • First detection in the West at Lake Mead in Jan.
    2007.
  • Scientists have identified this clam as quagga
    mussel.
  • It is unknown how long they have been in Lake
    Mead, but may be up to 4 years.
  • While Lake Mead and other sites were being
    monitored for zebra mussel, the quagga escaped
    detection until this year.

7
Extent of Infestation
  • Current known range of quagga mussel in the west
    includes the Boulder Basin (lower basin) of Lake
    Mead, Lake Mohave, and Lake Havasu.
  • Adults are likely present in all basins of Lake
    Mead.
  • Adult mussels have been found at the Mark Wilmer
    Pumping Plant intakes in Lake Havasu, which feeds
    the Central Arizona Project.
  • Veligers are moving.

8
Potential Hazards from Quagga
  • We are trying hard not to exaggerate the
    potential impacts.
  • Impacts can include
  • Obstruction of canals, dams, intake structures,
    and water conveyance facilities. Mussels attach
    firmly to hard surfaces in potentially very dense
    clusters (up to 700,000 per square meter).
  • Damage to recreational facilities and equipment
    including boats, marinas, boat ramps, etc.

9
Impacts Continued
  • There are potential ecological impacts to
    fisheries resources, with mussels affecting the
    food resources available to fish principally in
    lakes, but potentially in rivers as well.
  • Mussels can foul beaches and other places where
    people recreate.

10
Likely Pathways for Further Movement
  • The larval or juvenile form of the mussel will
    move with the water. There is evidence for spread
    down river and via the CAP and SRP systems.
  • Adult, and potentially larval, mussels can be
    moved from lake to lake on boats and recreational
    equipment. (Note, there are more than 4.5 million
    boater days on the Lower Colorado River)

11
Learn More
  • Visit www.azgfd.gov
  • Visit www.100thmeridian.org
  • Visit www.Protectyourwaters.net
  • http//cars.er.usgs.gov/Nonindigenous_Species
  • http//el.erdc.usace.army.mil/zebra/zmis/

12
What We Are Asking Folks to Do
  • Remove any mud or vegetation from your boat or
    trailer mussels can hide and hitchhike with
    this material.
  • Drain the water from your boat motor, livewell,
    and bilge on land before leaving the immediate
    area of the lake.
  • Completely inspect your vessel and trailer,
    removing any visible mussels, but also feel for
    any rough or gritty spots on the hull. These may
    be young mussels that can be hard to see.

13
More To Dos
  • Wash the hull, equipment, bilge, and any other
    exposed surface with hot, soapy water.
  • Clean and wash your trailer, truck or any other
    equipment that comes in contact with lake water.
    Mussels can live in small pockets anywhere water
    collects.
  • Air-dry the boat and other equipment for at
    least five days before launching in any other
    waterway.
  • Do not reuse bait once it has been exposed to
    infested waters. AND NEVER DUMP YOUR BAIT
    BUCKET.

14
How Did Quagga Escape Detection
  • Monitoring for zebra mussels was based on use of
    artificial habitat substrates suspended in the
    water at about 4 feet in depth. The quagga mussel
    in the Colorado River are being found at depths
    of 25 feet to over 100 feet. Samplers were not
    effective at detecting them at that depth.
  • Original detection at Lake Mead was by commercial
    divers moving breakwaters anchored in deeper
    water.

15
What Was the Likely Pathway for Introduction of
Quagga
  • The exact pathway is unknown, but strongest
    likelihood was the rapid movement of a larger
    boat or piece of maintenance equipment infested
    with mussels from infested areas to Lake Mead
    (more than 1,000 miles).
  • Large boats that are moored in the water can be
    encrusted with these kinds of mussels, including
    interior wet spaces.

16
How Did a Mussel Infested Boat Get Into Lake Mead
  • It is difficult to say.
  • Lake Mead and Lake Powell NRA staff have been on
    the lookout for mussels for nearly a decade.
  • Concessionaires at marinas were on the lookout
    for mussels, and suspect boats being identified
    and required to be cleaned before launching.

17
What Has Happened Since the January Detection
  • We have been collaborating with the National Park
    Service, Fish and Wildlife Service, States of
    Nevada, California, Utah, and many others
  • Determine extent of infestation
  • Stimulate public awareness of the infestation and
    issues associated with it.
  • Planning and Execution of Actions
  • Communications strategies for lake visitors.
  • Containment strategies to prevent spread.
  • Evaluate feasibility of eradication or control.

18
Extent of Infestation
  • Adult mussels have not been identified in the
    Central Arizona Project Aqueduct or Salt River
    Canals. We are working with CAP, Salt River
    Project, and others to monitor the Aqueduct and
    SRP canal system, and Central Arizona Reservoirs
    for quagga mussel.
  • Divers and biologists have evaluated key portions
    of Lake Pleasant with no detection of adult
    quagga mussel.
  • Densities of mussel populations are not high at
    this time, with largest populations in Lake Mead
    and smallest at Lake Havasu.

19
Pretty Big Jump
  • Distribution of quagga mussel in North America

20
Coordination in Arizona
  • We are working with Land and Water Mangers in
    Arizona to inform them, collaborate on
    monitoring, and outreach to the public about
    steps that can be taken to limit the spread of
    quagga mussels.
  • Partners include ADWR, ASP, USFS, USBLM, USBR,
    SRP, CAP, and others.

21
Concerns from Other States
  • Obviously, Arizona, Nevada, and California have
    immediate issues.
  • Most other western states are very concerned
    because of the proximity of quagga mussel to
    other western waters (Utah, Oregon, Washington,
    Idaho, etc) and potential effects to the upper
    Colorado River and the Columbia River systems.

22
Response
  • Initially have focused on identifying
    distribution and outreach (media). Media
    attention will wane, so longer-term outreach
    tools are being developed.
  • Organize and network with partners and affected
    communities.
  • Determine if there are feasible control or
    eradication(?) strategies to contain them where
    they are or remove them. Eradication is not
    likely.
  • Develop and implement feasible ways to interdict
    movement as hitchhikers.

23
More Detail
  • More detail is available on
  • Where these mussels come from,
  • Impacts where they have been introduced,
  • The biology of the zebra/quagga mussel,
  • Messages we are sharing with the public to enlist
    their aid in preventing the spread.
  • The 100th Meridian Website (www.100thmeridian.org)
    has been our focal coordination area.

24
Native Range
  • Dreissena bugensis is indigenous to the Dneiper
    River drainage of Ukraine. It was discovered in
    the Bug River in 1890 by Andrusov, who named the
    species in 1897 (Mills et al., 1996). Canals
    built in Europe have allowed range expansion of
    this species, and it now occurs in almost all
    Dneiper reservoirs in the eastern and southern
    regions of Ukraine and deltas of the Dnieper
    River tributaries (Mills et al.,1996).

25
Reproduction
  • Prolific breeders possibly contributing to their
    spread and abundance.
  • Dreissena are dioecious (either male or female)
    with external fertilization.
  • A fully mature female mussel is capable of
    producing up to one million eggs per season.
    Reproductive at 9 C.
  • After fertilization, pelagic microscopic larvae,
    or veligers, develop within a few days and these
    veligers soon acquire minute bivalve shells.
  • Free-swimming veligers drift with the currents
    for three to four weeks
  • Veligers settle and secure with byssal threads.
  • Mortality in this transitional stage from
    planktonic veliger to settled juveniles may
    exceed 99

26
A Quagga Veliger
27
Zebra Mussel - Early Post-veliger Stage
28
Veligers contain crystalline calcite
Other invertebrates also have this indicator - O
stracoda Some have similar shapes during some l
ife stages - Cladocera
29
Feeding
  • Filter feeders they use their cilia to pull
    water into their shell cavity where it passes
    through an incurrent siphon and it is here that
    desirable particulate matter is removed.
  • Adult mussel is capable of filtering one or more
    liters of water each day, where they remove
    phytoplankton, zooplankton, algae
  • Undesirable particulate matter is bound with
    mucus, known as pseudofeces, and ejected out the
    incurrent siphon. The particle-free water is then
    discharged out the excurrent siphon.

30
What Areas Will They Occupy
  • Attach to substrate. They appear to be broader in
    their use of substrate than zebra mussel, and may
    use small rocks, pebbles, even perhaps sand.
  • We currently are finding them between 25 and 100
    feet in depth. But patterns of colonization and
    population dynamics in Ukraine and North America
    indicate that D. bugensis is not limited to
    deep-water habitats.

31
Limiting Factors?
  • In North America, zebra mussel survive
    indefinitely at 30C, but quagga exhibits high
    mortality at this same temperature (not the case
    in Russia).
  • Quagga mussels are usually found in fresh water
    in salinities up to 1 they can reproduce in
    salinities below 2-3, and are killed by
    salinities exceeding 6
  • Larvae negatively affected at salinities of 4
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