By: Donn Branstrator and Matt TenEyck University of Minnesota Duluth September 24, 2010
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Transcript of By: Donn Branstrator and Matt TenEyck University of Minnesota Duluth September 24, 2010
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Evaluating Ballast Water Treatment Standards: Testing Relationships Between
Propagule Pressure and Colonization Success of Daphnia magna, a Surrogate
Invader.
By: Donn Branstrator and Matt TenEyckUniversity of Minnesota Duluth
September 24, 2010
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Participation
• Dissertation committee members: Dr. Mary Balcer (UWS), Dr. Stephanie Guildford (UMD), Dr. Ray Newman (UMTC), and Dr. John Pastor.
• UWS In kind services – Testing laboratory
• Great Ships Initiative – Monetary support for laboratory infrastructure
• Graduate and undergraduate student support – 10 students
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Rationale• Freshwater ecosystems are vulnerable to invasions by
nonindigenous species (NIS)1) Municipal and industrial water supplies2) Natural resources development3) Recreation4) Commercial navigation
• NIS are causing environmental changes and imposing higher economic costs1) Zebra and quagga mussels altering food web structure2) Zebra and quagga mussels adding increased costs to raw
water users of the Great Lakes
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Rationale cont.• Laurentian Great Lakes have received an increasing
number of NIS1) Since the 1800s 139 NIS have established2) 1959-1989 establishment rate = 0.6 species per year3) 1989-2001 establishment rate = 1.8 species per year4) Many of the NIS are believed to have entered via
ballast water of ships
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Dispersal (arrival)
Establishment (self-sustaining population)
Dispersal
Biological invasions require a pair of steps -
Rationale cont.
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• A goal of invasion ecology is to determine what factor(s) lead to establishment
• Propagule pressure – number of organisms introduced per event and the number of events1) Large introduced populations are less likely to become extinct 2) Large populations more likely to tolerate environmental extremes3) Declining populations are sustained through addition of propagules
• General theory based predictions suggest that higher propagule pressure increases probability of establishment success.
• Few experimental studies have quantified explicitly how much propagule pressure is required to overcome establishment barriers.
Rationale cont.
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• U. S. Congress passed and reauthorized legislation in the 1990s that requires vessels to manage their ballast water in one of two ways to reduce dispersal and establishment:
1) Ballast Water Exchange (BWE) by flushing ballast tanks in the open ocean
2) Ballast Water Treatment (BWT) by proactive decontamination
Rationale cont.
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• International Maritime Organization (IMO) standards1) Less than 10 viable organisms per cubic meter greater than 50
microns in min. dimension2) Less than 10 viable organisims per mL between 10-50 microns in
min. dimension
• Federal Standard–Coast Guard Authorization Act of 20081) 100 times more strict than IMO
• California's standard1) No detectable living organisms that are greater than 50 microns
in min. dimension 2) Less than 0.01 living organisms per mL between 10-50 microns
in min. dimension
Rationale cont.
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Dispersal (arrival)
Establishment (self-sustaining population)IMO standard = less than 10 viable organism per m3
Dispersal
Biological invasions require a pair of steps -
Rationale cont.
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Methods• Objective: Conduct dose-gradient experiments to
quantify how a model non-native species (Daphnia magna) establishes in response to different levels of propagule pressure and in response to different recipient communities
• Hypothesis: Current IMO ballast water treatment standards prevent establishment of D. magna, a surrogate invader.
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Methods cont.• Daphnia magna served as the surrogate
invader
• 230-L mesocosm tanks
• 16:8 h light:dark cycle
• Temperature, Light, pH, Dissolved Oxygen, Chlorophyll measured weekly
• Experiment length: 8 weeks1) Nov-Dec 2009 2) May-June 20103) Aug-Sep 2010 4) Oct-Nov 2010
3 mm
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Methods cont.• Tanks were stocked with
starting densities of D. magna that straddled IMO standards.
• Doses = 0, 5, 10, 15, 20 D. magna per m3
randomly assigned to tanks (n=3)
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Methods cont.
• During the 8 week experiment, weekly estimates of D. magna are made by subsampling 1.0 L of water1) All D. magna will be returned to
respective tank2) Background community
concentrated and preserved3) On day 56 the entire 200 L is
searched for D. magna
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Schematic of the 9 sampling sites A-I (maximum depth) in the Duluth-Superior Harbor and St. Louis Estuary.
REGION 1 REGION 3
REGION 2
St. Louis River Flow
(6.0 m)
(5.0 m)
(4.0 m)
(7.0 m)
(8.0 m)
(10.0 m)
(9.0 m)
(9.0 m)
(8.0 m)
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Average water column densities of crustacean zooplankton and average integrated water column temperatures as a function of date (Julian Day, where day 100 =
April 10 and day 300 = October 27) shown by region.
0
10000
20000
30000
40000
0
10000
20000
30000
400002007
Julian Day Julian Day
2008
Region 3
Region 2
Region 1Non-Bosminid cladocerans
0
20000
40000
60000
80000
Den
sity
(No.
m-3
)
Region 2
Region 3
0
10
20
30
0
10
20
30
0
10
20
30
CopepodsBosminids
Water column temperature
Tem
pera
ture
(°C
)
100 300200150 250 100 300200150 250
Region 1
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0 10 20 30 40 50 600
2
4
6
8
10
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16
18
20 D. magna Growth CurvesTrial No. 1
072856112
Number of Days
Ave
rage
Num
ber
of D
. mag
na p
er li
ter
Surrogate Invader Stocking Density (Number per cubic meter)
IMO Standard
Establishment criteria
Nov – Dec. 2009
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0 10 20 30 40 50 600
2
4
6
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20D. magna Growth Curves
Trial No. 2
051015
Number of Days
Ave
rage
Num
ber
of D
. mag
na p
er li
ter
Surrogate Invader Stocking Density (Number per cubic meter)
Establishment criteria
IMO Standard
May – June 2010
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0 5 10 15 20 25 30 35 40 45 500
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4
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20 D. magna Growth CurvesTrial No. 3
05101520FHW control at 20
Number of Days
Ave
rage
Num
ber
of D
. mag
na p
er li
ter
Aug – Sept. 2010
Surrogate Invader Stocking Density (Number per cubic meter)
Establishment criteria
IMO Standard
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Model Development
X
b
c
d
Propagule Supply (Concentration of Organisms)
Prob
abili
ty o
f Inv
asio
n Su
cces
s
a
0
Incr
easi
ng p
roba
bilit
y
Increasing # of organismsX
b
c
d
Propagule Supply (Concentration of Organisms)
Prob
abili
ty o
f Inv
asio
n Su
cces
s
a
0
Incr
easi
ng p
roba
bilit
y
Increasing # of organisms
Modified from Ruiz G.M. and J.T. Carlton 2003. Invasion vectors: a conceptual framework for management. In: Invasive Species, Vectors and Management Strategies. Ruiz G.M. and J.T. Carlton (Eds). Washington D.C.: Island Press. 459-504.
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Preliminary Conclusions
• Natural densities of crustacean zooplankton in the Duluth-Superior Harbor are seasonally variable.
• Experimental evidence indicates that establishment success of a surrogate invader introduced at IMO standards is non-zero.
• Data not shown - establishment success may be related to the density and or composition of the recipient community.
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Average water column densities of crustacean zooplankton and average integrated water column temperatures as a function of date (Julian Day, where day 100 =
April 10 and day 300 = October 27) shown by region.
0
10000
20000
30000
40000
0
10000
20000
30000
400002007
Julian Day Julian Day
2008
Region 3
Region 2
Region 1Non-Bosminid cladocerans
0
20000
40000
60000
80000
Den
sity
(No.
m-3
)
Region 2
Region 3
0
10
20
30
0
10
20
30
0
10
20
30
CopepodsBosminids
Water column temperature
Tem
pera
ture
(°C
)
100 300200150 250 100 300200150 250
Region 1
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Future Work
• Conduct 4th trial in Oct-Nov 2010• Conduct 5th, 6th, and 7th trials in 2011• Develop a model of ballast water based invasion
that relates establishment risk to propagule pressure.
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Thank You