pesticide impacts on larval prawns and detection in...
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Pesticide impacts on larval prawns and detection in estuarine intake water
OCEANS AND ATMOSPHERE
Sharon E. Hook, Hai Doan, Debra Gonzago, Dean Musson, Jun Du, Rai Kookana, Melony Sellars, and Anu Kumar
Modern use pesticides| Sharon.Hook@csiro.au2 |
Organophoshate pesticides malathion, parathion, diazinon, chlorpyrifos, ethion Inhibit acetylcholinesterase
Human and environmental health concerns Used in horticulture and agricultural
Pyrethroid pesticides bifenthrin, cypermethrin, esfenvalerate, permethrin Alter nerve repolarization
Arthropods are more sensitive Residential -Termites and ant control
Neonicotinoid pesticides clothianidin, imidacloprid, nithiazine, thiacloprid Inhibit nicotinic acetylcholine esterase activity
Specific to arthropods Used in sugarcane, horticulture, pest control
3 |
Toxicity as survival
Imidacloprid concentration ( g/L)
0.1 1
10
100
1000
10000
100000
1000000
3 |
How toxic are these compounds?
Data from Smit et al., 2015 Human and Ecological Risk Assessment 21:1608-1630Modern use pesticides| Sharon.Hook@csiro.au
PL15Penaeus monodon
4 | R. Turner, DSITI, unpublished dataModern use pesticides| Sharon.Hook@csiro.au
Townsville
Neonicotinoid: Imidaclorprid concentrations
Line = where PL’s don’t catch prey
5 |
Objectives:
1. Review the literature around modern use insecticides impacts on non target crustaceans.
2. Determine the sensitivity of your post larval black tiger prawns to modern - use insecticides
3. Measure the concentrations of insecticides in your farm intake waters
Modern use pesticides| Sharon.Hook@csiro.au
6 |
Approach: Toxicity studies
• Range finder experiment – Prawns were exposed to a “step 10” of pesticide concentrations
• Exposed post larval prawns to a range of concentrations of each pesticide• Four treatments plus two controls per contaminant• Five replicates with 10 PL’s per treatment• Animals were fed, and flasks were “bubbled”
• We measured: • Survival over 48 hours• Ability to capture live food
Modern use pesticides| Sharon.Hook@csiro.au
7 |Modern use pesticides| Sharon.Hook@csiro.au
Approach: Feeding Inhibition
• Prawns were fed every three hours during the day, but fasted overnight
• First thing in the morning, aliquots of 50 artemia were counted out
• Each flask of post larval prawns were given an artemia aliquot
• After two hours, the number of artemia remaining was counted
8 |
Sampling locations
Modern use pesticides| Sharon.Hook@csiro.au
Approach: Analytical Chemistry
• Water samples were collected from the locations indicated
• Pesticides were concentrated on SPE filters
• Pesticides were eluted from the filters in methanol
• Concentrations were determined via LC/MS
9 |
Findings: Range finder experiments
Modern use pesticides| Sharon.Hook@csiro.au
Insecticide Dose, µg/L Survival S.E.
Control 100 0
Solvent Control 96.7 5.8
Fipronil 0.1 90 17.3
1 0 0
10 0 0
100 0 0
Bifenthrin 0.001 100 0
0.01 90 10
0.1 86.7 11.5
1 90 17.3
Imidacloprid 1 93.3 5.8
10 93.3 5.8
100 83.3 28.9
1000 60 17.3
10 |
Findings: Imidacloprid Toxicity
Modern use pesticides| Sharon.Hook@csiro.au
• Imidacloprid decreased survival at concentrations greater than 175 μg/L• LC50 is 175 μg/L
• Capture of live prey was decreased at all concentrations tested, lowest is 0.5 μg/L
11 |
Findings: Fipronil Toxicity
Modern use pesticides| Sharon.Hook@csiro.au
• Fipronil decreased survival at concentrations tested, the lowest being 0.0625 μg/L• LC50 is 0.2 μg/L
• No sublethal toxicity was measured with fipronil
12 |
Findings: Bifenthrin Toxicity
Modern use pesticides| Sharon.Hook@csiro.au
• Bifenthrin decreased survival at concentrations greater than 0.5 μg/L• LC50 is 0.36 μg/L
• Capture of live prey was decreased at all concentrations tested, lowest is 0.125 μg/L
13 |
Findings: water insecticide concentrations
Modern use pesticides| Sharon.Hook@csiro.au
Insecticides (μg/L)Catchment Farm Date Bifenthrin Chlorpyrifos Fipronil ImidaclopridClarence, NSW
A 20-Mar-17 <0.0025 0.0076
(<0.005-0.0179)
<0.005 <0.0025
Logan, QLD B 22-Sep-16 0.0091 (0.0027-0.0206*)
0.0247 (0.0063-0.0430*)
0.028 (<0.005-0.0738*)
0.0136 (0.0047-0.0297)
Burnett-Mary, QLD
C 4-April-17 <0.0025 <0.005 <0.005 0.0146 (0.0115-0.0173)
Mackay, QLD D 13-Dec -17 <0.0025 0.0036 (<0.005-0.0057)
<0.005 0.3450 (0.271-0.415*)
Burdekin, QLD
E 19-April-2017
(Cyclone
Debbie?)
<0.0025 <0.005 <0.005 <0.0025
Wet Tropics F 27-Sept-2016 <0.0025 <0.005 <0.005 0.0028 (0.0027-0.003)
Wet Tropics G 27-Sept-2016 <0.0025 <0.005 <0.005 0.0029 (0.0026-0.0032)
14 |
Implications: Insecticide risk
Modern use pesticides| Sharon.Hook@csiro.au
15 |
Unanswered questions:
• Bifenthrin and Fipronil bind to sediment? Are they in the ponds? Could pesticides in the pond sediment impact post larval prawns?
• These were short exposures – are the prawns more sensitive to long ones? Is the feeding inhibition reversible? Does it affect survival? What about growth? What is the lowest concentration we see it at?
• We tested one compound at a time, but the real world is a mixture… What happens with exposures to mixtures? All of these insecticides target the neurological system of prawns – What happens when they are applied together?
• Are the concentrations we measured in intake waters typical? Best case scenario? Worst case scenario?
Modern use pesticides| Sharon.Hook@csiro.au
16 |
Recommendations: water treatmentActivated charcoal at the intake will remove the insecticides
Developing Low Cost sorbents:
• Ability to deal with a range of contaminants• Nutrients
• Organics (DOC, Pesticides etc)
• Pathogens
• Cost effective
Types of materials include:
• Biochars
• Mining waste products - NUA
• Natural polymers – chitosan
• Modified clays
• othersSharon.Hook@csiro.au
Modern use pesticides| Sharon.Hook@csiro.au
17 |Modern use pesticides| Sharon.Hook@csiro.au
Take Home Messages:
• Post larval phase prawns have a sensitivity to modern use pesticides that is comparable to other crustaceans
• In some of the water samples, pesticides were measured at concentrations that would be high enough to pose risk
• Further study is needed, (1) to better characterise the concentrations in the environment; (2) to better understand the impacts of these exposures on the organisms; (3) to develop low cost means of removing the contaminants for the intake waters
18 |
Acknowledgments:
• The farmers who collected water samples • Brian Murphy (CSIRO Agriculture & Food)• Simon Irvin (CSIRO Agriculture & Food)• The staff members at the Bribie Island Research Station• Monique Binet (CSIRO Land & Water) • Graeme Batley (CSIRO Land & Water)
This project was supported by funding from the Australian Prawn Farmers Association (APFA) and the Fisheries Research and Development Corporation (FRDC) on behalf of the Australian Government. Report is finished and is available.
Modern use pesticides| Sharon.Hook@csiro.au
Oceans and Atmosphere
Sharon HookSenior Research Scientist
t +61 2 9710 6839e Sharon.Hook@csiro.au
Agriculture and Food
Melony SellarsSenior Research Scientist
t +61 437 025 821e Melony.Sellars@csiro.au
CSIRO
Thank youLand and Water
Anu KumarGroup Leader
t +61-8-8303 8597 e Anupama.Kumar@csiro.au
FRDC Project No 2016-049 IPA APFA
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