interactive effects of two environmental stressors, pah contamination and hypoxia, in the
DESCRIPTION
Interactive Effects of Two Environmental Stressors, PAH Contamination and Hypoxia, in the Brown Shrimp, Penaeus aztecus Enmin Zou Department of Biological Sciences Nicholls State University Thibodaux, LA 70310. Dissolved Oxygen Contours (mgl). Hypoxic Zone in Northern Gulf of Mexico. - PowerPoint PPT PresentationTRANSCRIPT
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Interactive Effects of Two Environmental Stressors, PAH Contamination and Hypoxia, in the
Brown Shrimp, Penaeus aztecus
Enmin Zou
Department of Biological SciencesNicholls State University
Thibodaux, LA 70310
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Dissolved OxygenContours (mgl)
Hypoxic Zone in NorthernGulf of Mexico
Algal Blooms
Depletion of Oxygen
Degradation of Organic Materials
Nutrients input
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Hypoxia is an environmental stress for aquatic organisms, such as penaeid shrimps, inhabiting thesewaters.
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Contamination of polycylcic aromatic hydrocarbons (PAHs) from gas and petroleum production on the northern continental slope of the Gulf of Mexico
Total PAH in Gulf of Mexico sediments:
< 0.005 – 36.7 ppm< 0.005 – 36.7 ppm (Wade et al., 1988)
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Aquatic animals in the northern Gulf of Mexico are subject to dual stresses of hypoxia and PAH contamination
Hypoxia PAH Contamination
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The brown shrimp, Penaeus aztecus, is animportant commercial shrimp, whose life history overlaps with the hypoxic zone in the northern Gulf of Mexico.
Penaeus aztecus is faced with two stressors:• Hypoxia• PAH contamination
Hypoxia
PAHs
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Objectives:
1. To investigate whether acute exposure to naphthalene, a representative petroleum PAH, can make shrimps more vulnerable to hypoxia.
2. To investigate whether hypoxia can promotenaphthalene bioaccumulation.
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Oxy
gen
Con
sum
ptio
n R
ate
(OC
R)
0O2 Concentration (C)
Oxyregulation
Oxy
conf
orm
atio
n
Cc
OCR = C/(a + bC)
Impacts of hypoxia on oxyregulation of the brown shrimp,Penaeus aztecus
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O2 Concentration (C)
Oxy
gen
Con
sum
ptio
n R
ate
(OC
R)
0Cc Cs
Cc = (aCs/b)1/2
Oxyregulating Capacity = a/b
OCR = b – a/C (Zou et al., 1993)
S = ∫Ca/ba/b(OCR-A)dC + (OCR-A)dC + ∫Cs
C (OCR-B)dC(OCR-B)dC = minimum
Oxy
conf
orm
atio
nA
Oxyregulation
B
Or when S = 0•
a/b
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a/b, an index for oxyregulation, reflects an animal’s susceptibility to hypoxia.
The greater a/b, the smaller the oxyregulatingcapacity, i.e. the sooner onset of hypoxic stress.
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Four groups of brown shrimps were respectively exposed to:
• Clean seawater
• Seawater with 0.05% v/v acetone
• Seawater with 0.5 mg/l naphthalene
• Seawater with 2.0 mg/l naphthalene
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0.00
1.00
2.00
3.00
4.00
5.00
6.00
0.00 2.00 4.00 6.00 8.00
Oxygen Concentration (mg/l)
OC
R (
gO2
• g
-1 •
min
-1)
OCR = 3.64 - 1.54/C ( p < 0.05)A
0.00
1.00
2.00
3.00
4.00
5.00
6.00
0.00 2.00 4.00 6.00 8.00
Oxygen Concentration (mg/l)
OC
R (
gO2
• g
-1 •
min
-1)
OCR = 4.81 - 2.18/C (p < 0.001)
B
0.001.002.003.004.005.006.00
0.00 2.00 4.00 6.00 8.00
Oxygen Concentration (mg/l)
OC
R (
gO2
• g
-1 •
min
-1)
OCR = 4.99 - 4.32/C (p < 0.0005)C
0.001.002.003.004.005.006.00
0.00 2.00 4.00 6.00 8.00
Oxygen Concentration (mg/l)
OC
R (
gO2
• g
-1 •
min
-1)
OCR = 7.21 - 14.55/C (p < 0.0005)
D
Clean Seawater (wt = 9.00 g) 0.05% v/v Acetone (wt = 7.02 g)
0.5 mg/l Naphthalene (wt = 8.17 g) 2.0 mg/l naphthalene (wt = 7.53 g)
Cc = 2.53 mg/l
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0.00
0.50
1.00
1.50
2.00
2.50
3.00
3.50a/
b
(6)(20)
(12)
(18)
Control A Control B 0.5 mg/lNaphthalene
2.0 mg/lNaphthalene
#***
Effects of acute exposure to naphthalene on oxyregulating capacity of Penaeus aztecus
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Changes in critical oxygen concentration (Cc) due to naphthalene
Clean Seawater 2.53 mgO2/l
Seawater with 0.05%v/v acetone
2.89 mg O2 /l
0.5 mg/l Naphthalene
3.76 mg O2 /l
2.0 mg/l Naphthalene
4.22 mgO2/l
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Conclusion:
Acute exposure to naphthalene reduces oxyregulating capacity of the brown shrimp, Penaeus aztecus, subjected to progressive hypoxia,thereby making shrimps more suceptible to hypoxia.
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Impacts of hypoxia on naphthalene bioaccumulationin the brown shrimp, Penaeus aztecus
Working Hypothesis
Hypoxia
Increased Ventilation
Increased Water-flow over Gills
Enhanced Bioaccumulationof Naphthalene
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N2 Tank
Degassing Tank
Exposure Tank
Oxygenation Tank
Pump
Schematic diagram of hypoxia experimental system
Shrimps
Exposure Tank O2 Concentration: 1.32 – 2.61 mg/l
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Hypoxia system 1 Exposure tank
2 Oxygenation tank
3 Nitrogen saturated tank
3
2
1
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• Clean Seawater• 0.005% v/v Acetone + Normoxia• 0.005% v/v Acetone + Hypoxia• 10 g/l Naphthalene + Normoxia• 10 g/l Naphthalene + Hypoxia
•Clean Seawater• 0.01% v/v Acetone + Normoxia• 0.01% v/v Acetone + Hypoxia• 250 g/l Naphthalene + Normoxia• 250 g/l Naphthalene + Hypoxia
Ten groups of 25 shrimps each were respectively exposed to:
At days 3 and 7 shrimps were sacrificed for branchial andHepatopancreatic tissues.
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0
5
10
15
20
25
Normoxia Hypoxia Normoxia Hypoxia
A
Hepatopancreas Gill
0
5
10
15
20
25
Normoxia Hypoxia Normoxia Hypoxia
B
Hepatopancreas Gill
0
5
10
15
20
Normoxia Hypoxia Normoxia Hypoxia
C
Hepatopancreas Gill
01020304050607080
Normoxia Hypoxia Normoxia Hypoxia
D
Hepotapancreas Gill
10 g/L, day3 10 g/L, day 7
250 g/L, day 3 250 g/L, day 7
7.62 (8) 9.59 (8)
0.51 (8)1.37 (8)
3.35 (6)
9.8 (8)
0.43 (8) 0.67 (8)
8.16 (7)
4.06 (7)
1.21 (7) 1.00(7)
18.98 (7)
26.33 (6)
0.66 (7)0.80 (6)
Naphthalene bioaccumulation in Penaeus aztecusunder hypoxia
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Conclusions:
• Naphthalene was found to mainly accumulate in the hepatopancreas---Naphthalene burden in the hepatopancreas up to 60 times that in the gills.
• Hypoxia did not significantly alter naphthalene bioaccumuluation in either organs.
NaphthaleneBioaccumulation
Uptake
Elimination
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Naphthalene
Naphthalene epoxide
Glutathione conjugates
Naphthalene Metabolism
CYP 1A (Ethoxyresorufin O-deethylase, or EROD)
Glutathione S-transferase(GST)
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EROD activities in the hepatopancreas of Penaeus aztecus subjected to various treatments (pM/min/mg protein)
Ace, acetone; Nor, normoxia; Hyp, hypoxia; Nap, naphthalene; (A) * p < 0.05, versus Nap + Nor; (B) * p < 0.05, versus Nap + Nor; (C) * p< 0.05, ** p< 0.01, versus Clean + Nor; (D) ** p < 0.01, versus Ace + Nor ;
0
20
40
60
80
100
120
Ace+Nor Ace+Hyp Nap+Nor Nap+Hyp Clean+Nor
A
01020304050607080
Ace+Nor Ace+Hyp Nap+Nor Nap+Hyp Clean+Nor
C
*
0
20
40
60
80
100
Ace+Nor Ace+Hyp Nap+Nor Nap+Hyp Clean+Nor
D
01020304050607080
Ace+Nor Ace+Hyp Nap+Nor Nap+Hyp Clean+Nor
B10 g/L, day 3 10 g/L, day 7
250 g/L, day 3 250 g/L, day 7
*
** **
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Summary of results for EROD activities in the hepatopancreas
• Naphthalene significantly induced hepatopancreatic EROD activity under normoxia.
• Hypoxia had no significant effects on hepatopancreatic EROD activity in the presence of naphthalene.
• Acetone significantly inhibited EROD activity in the hepatopancreas.
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0
20
40
60
80
100
Ace+Nor Ace+Hyp Nap+Nor Nap+Hyp Clean+Nor
B
EROD activities in the gills of Penaeus aztecus subjected to various treatments (pM/min/mg protein)
Ace, acetone; Nor, normoxia; Hyp, hypoxia; Nap, naphthalene; (A) ** p < 0.01, versus Nap + Nor; (C) ** p < 0.01, versus Clean + Nor; (D) * p < 0.05, versus Clean + Nor, ** p < 0.01, versus Ace + Nor and Nap + Nor, # p < 0.05, versus Ace + Hyp;
0
50
100
150
200
250
300
Ace+Nor Ace+Hyp Nap+Nor Nap+Hyp Clean+Nor
A
**
0
10
20
30
40
50
60
70
Ace+Nor Ace+Hyp Nap+Nor Nap+Hyp Clean+Nor
C**
0
20
40
60
80
100
120
Ace+Nor Ace+Hyp Nap+Nor Nap+Hyp Clean+Nor
D*
#
10 g/L, day 3 10 g/L, day 7
250 g/L, day 3250 g/L, day 7
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Summary of results for EROD activities in the gills
• Hypoxia significantly inhibited branchial EROD activities when naphthalene was present.
• Acetone significantly suppressed branchial EROD activities under normoxia
• Under hypoxia, naphthalene at 250 g/l inhibited EROD activities in the gills.
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GST activities in the hepatopancreas of Penaeus aztecus subjected to various treatments (nM/min/mg protein)
Ace, acetone; Nor, normoxia; Hyp, hypoxia; Nap, naphthalene; (B) * p <0.05, ** p < 0.01, versus Nap + Nor; (C) * p < 0.05, versus Clean + Nor, ** p < 0.01, versus Nap + Nor; (D) ** p < 0.01, versus Nap + Hyp;
0
5
10
15
20
Ace+Nor Ace+Hyp Nap+Nor Nap+Hyp Clean+Nor0
5
10
15
20
Ace+Nor Ace+Hyp Nap+Nor Nap+Hyp Clean+Nor
B*
0
5
10
15
20
25
30
Ace+Nor Ace+Hyp Nap+Nor Nap+Hyp Clean+Nor
C
0
5
10
15
20
25
Ace+Nor Ace+Hyp Nap+Nor Nap+Hyp Clean+Nor
D
10 g/L, day 3 10 g/L, day 7
250 g/L, day 3 250 g/L, day 7
A
** ****
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Summary of results for hepatopancreatic GST activities
• Naphthalene significantly induced GST activities in the hepatopancreas under both normoxia and hypoxia.
• Hypoxia significantly elevated GST activities in the hepatopancreas when naphthalene was present.
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0
5
10
15
20
25
30
Ace+Nor Ace+Hyp Nap+Nor Nap+Hyp Clean+Nor
D
GST activities in the gills of Penaeus aztecus subjected to various treatments (nM/min/mg protein)
Ace, acetone; Nor, normoxia; Hyp, hypoxia; Nap, naphthalene; (A) * p < 0.05, ** p < 0.01, versus Nap + Nor; (B) ** p < 0.01, versus Nap + Nor; (C) * p < 0.05, ** p < 0.01, versus Ace + Nor;
B
0
5
10
15
20
25
Ace+Nor Ace+Hyp Nap+Nor Nap+Hyp Clean+Nor
A
02468
10121416
Ace+Nor Ace+Hyp Nap+Nor Nap+Hyp Clean+Nor
02468
10121416
Ace+Nor Ace+Hyp Nap+Nor Nap+Hyp Clean+Nor
C
10 g/L, day 3 10 g/L, day 7
250 g/L, day 3 250 g/L, day 7
*
**
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Summary of results for branchial GST activities
• Hypoxia significantly decreased branchial GST activities in the presence of naphthalene.
• Under normoxia, naphthalene at 250 g/l significantly suppressed branchial GST activities.
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EROD GST
Hepatopancreas No effect +
Gill – –
Effects of hypoxia on activities of EROD and GSTin the presence of naphthalene
NaphthaleneBioaccumulation
Uptake
Elimination
• The significant increase in GST activity may explain the absence of increased naphthalene bioaccumulation in the hepatopancreas when Penaeus aztecus is subjected to hypoxia.
• Alterations in activities of EROD and GST have no bearings on naphthalene bioaccumulation in the gills because gills are not an ideal organ for bioaccumulation of chemicals.
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Take-home messages:
• Acute exposure to PAH compound naphthalene reduces oxyregulating capacity of the brown shrimp.
• Hypoxia does not promote bioaccumulation of the PAH compound naphthalene in the brown shrimp. The absence of such a significant effect is attributed to increased naphthalene metabolism in the hepatopancreas when the shrimp is subjected to hypoxia
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Appreciation to the funding agencies, NOAA and USGS, and my students Rongzhong Ye and Ben Stueben.
Acknowledgements
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Questions?