Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/taylor-francis/predictive-value-of-species-sensitivity-distributions-for-effects-of-27rleCbT06
References (95)
-
S. Crum, G. Aalderink, T. Brock (1998)
FATE OF THE HERBICIDE LINURON IN OUTDOOR EXPERIMENTAL DITCHESChemosphere, 36
-
T. Brock, R. Wijngaarden, G. Geest (2000)
Ecological risks of pesticides in freshwater ecosystems; Part 2: insecticides -
V. Forbes, P. Calow (2002)
Species Sensitivity Distributions Revisited: A Critical AppraisalHuman and Ecological Risk Assessment: An International Journal, 8
-
J. Fairchild, D. Ruessler, P. Haverland, A. Carlson (1997)
Comparative Sensitivity of Selenastrum capricornutum and Lemna minor to Sixteen HerbicidesArchives of Environmental Contamination and Toxicology, 32
-
M. Scheringer, Dirk Steinbach, B. Escher, K. Hungerbühler (2002)
Probabilistic approaches in the effect assessment of toxic chemicalsEnvironmental Science and Pollution Research, 9
-
M. Kobraei, D. White (1996)
Effects of 2,4-Dichlorophenoxyacetic acid on Kentucky algae: Simultaneous laboratory and field toxicity testingsArchives of Environmental Contamination and Toxicology, 31
-
P. Brink, E. Hartgers, U. Fettweis, S. Crum, E. Donk, T. Brock (1997)
Sensitivity of macrophyte-dominated freshwater microcosms to chronic levels of the herbicide linuron. I. Primary producers.Ecotoxicology and environmental safety, 38 1
-
Barbara Bryfogle, W. Mcdiffett (1979)
Algal Succession in Laboratory Microcosms as Affected by an Herbicide StressAmerican Midland Naturalist, 101
-
S. Hannula, J. Wanagel, Che Li (1986)
ASTM Special Technical Publication -
P. Brink, J. Roelsma, E. Nes, M. Scheffer, T. Brock (2002)
Perpest model, a case‐based reasoning approach to predict ecological risks of pesticidesEnvironmental Toxicology and Chemistry, 21
-
H. Selck, B. Riemann, K. Christoffersen, V. Forbes, K. Gustavson, B. Hansen, J. Jacobsen, O. Kusk, S. Petersen (2002)
Comparing sensitivity of ecotoxicological effect endpoints between laboratory and field.Ecotoxicology and environmental safety, 52 2
-
N. Detenbeck, R. Hermanutz, Kathleen Allen, M. Swift (1996)
Fate and effects of the herbicide atrazine in flow‐through wetland mesocosmsEnvironmental Toxicology and Chemistry, 15
-
P. Campbell, D. Arnold, T. Brock, N. Grandy, W. Heger, F. Heimbach, S. Maund, M. Streloke (1999)
Higher-tier aquatic risk assessment for pesticides; guidance document from the SETAC-Europe/OECD/EC workshop, held at Lacanau Océan, France, 19-22 April 1998 -
P. Hamilton, G. Jackson, N. Kaushik, K. Solomon, G. Stephenson (1988)
The impact of two applications of atrazine on the plankton communities of in situ enclosuresAquatic Toxicology, 13
-
D. Moorhead, R. Kosinski (1986)
Effect of atrazine on the productivity of artificial stream algal communitiesBulletin of Environmental Contamination and Toxicology, 37
-
J. Fairchild, D. Ruessler, A. Carlson (1998)
Comparative sensitivity of five species of macrophytes and six species of algae to atrazine, metribuzin, alachlor, and metolachlorEnvironmental Toxicology and Chemistry, 17
-
E. Kenaga (1982)
Predictability of chronic toxicity from acute toxicity of chemicals in fish and aquatic invertebratesEnvironmental Toxicology and Chemistry, 1
-
T. Brock, S. Crum, J. Deneer, F. Heimbach, R. Roijackers, J. Sinkeldam (2004)
Comparing aquatic risk assessment methods for the photosynthesis-inhibiting herbicides metribuzin and metamitron.Environmental pollution, 130 3
-
(2002)
PERPEST, a Cased-Based -
D. Paterson, S. Wright (1987)
A Continuous-Flow Model Ecosystem for Studying Effects of Herbicides on Aquatic PlantsWeed Science, 35
-
E. Nes, P. Brink (2003)
PERPEST Version 1.0, manual and technical description; a model that predicts the ecological risks of pesticides in freshwater ecosystems -
D. Versteeg, S. Belanger, G. Carr (1999)
Understanding single‐species and model ecosystem sensitivity: Data‐based comparisonEnvironmental Toxicology and Chemistry, 18
-
I. Jüttner, A. Peither, J. Lay, A. Kettrup, S. Ormerod (1995)
An outdoor mesocosm study to assess ecotoxicological effects of atrazine on a natural plankton communityArchives of Environmental Contamination and Toxicology, 29
-
G. Geest, N. Zwaardemaker, R. Wijngaarden, J. Cuppen (1999)
Effects of a pulsed treatment with the herbicide afalon (active ingredient linuron) on macrophyte‐dominated mesocosms. II. Structural responsesEnvironmental Toxicology and Chemistry, 18
-
Tim Jurgensen, K. Hoagland (1990)
Effects of short-term pulses of atrazine on attached algal communities in a small streamArchives of Environmental Contamination and Toxicology, 19
-
(2001)
FOCUS Surface Water Scenarios in the EU Evaluation Process under 91/414/ EEC -
K. Kersting, R. Wijngaarden (1999)
Effects of a pulsed treatment with the herbicide afalon (active ingredient linuron) on macrophyte‐dominated mesocosms. I. Responses of ecosystem metabolismEnvironmental Toxicology and Chemistry, 18
-
L. Maltby, Naomi Blake, T. Brock, P. Brink (2005)
Insecticide species sensitivity distributions: Importance of test species selection and relevance to aquatic ecosystemsEnvironmental Toxicology and Chemistry, 24
-
D. Zwart (2001)
Observed Regularities in Species Sensitivity Distributions for Aquatic Species -
Amy Ritter, J. Shaw, W. Williams, K. Travis (2000)
Characterizing aquatic ecological risks from pesticides using a diquat dibromide case study. I. Probabilistic exposure estimatesEnvironmental Toxicology and Chemistry, 19
-
L. Goldsborough, G. Robinson (1983)
The effect of two triazine herbicides on the productivity of freshwater marsh periphytonAquatic Toxicology, 4
-
(2001)
Evaluation of Direct and Indirect Effects of a 400 g / L SC Formulation ( STOMP 400 ) of Pendimethalin ( AC 92553 ) on Aquatic Organisms in Outdoor Pond Mesocosms -
W. Kettle, F. Denoyelles, B. Heacock, A. Kadoum (1987)
Diet and reproductive success of bluegill recovered from experimental ponds treated with atrazineBulletin of Environmental Contamination and Toxicology, 38
-
M. Newman, D. Ownby, Laurent Mézin, D. Powell, T. Christensen, Scott Lerberg, Britt Anderson (2000)
Applying species‐sensitivity distributions in ecological risk assessment: Assumptions of distribution type and sufficient numbers of speciesEnvironmental Toxicology and Chemistry, 19
-
R. Knoben, M. Beek, A. Durand (1998)
Application of species sensitivity distributions as ecological risk assessment tool for water managementJournal of Hazardous Materials, 61
-
(1988)
Effects of herbicides on stream Aufwuchs productivity and nutrient uptake -
E. Hartgers, G. Aalderink, P. Brink, R. Gylstra, J. Wiegman, T. Brock (1998)
Ecotoxicological threshold levels of a mixture of herbicides (atrazine, diuron and metolachlor) in freshwater microcosmsAquatic Ecology, 32
-
(2002)
Addressing Interspecific Variation in Sensitivity and the Potential to Reduce This Source of Uncertainty in Ecotoxicological Assessments. Final Project Report (PN0932) -
C. Tomlin (1994)
The pesticide manual : incorporating The agrochemicals handbook -
D. Herman, N. Kaushik, K. Solomon (1986)
Impact of Atrazine on Periphyton in Freshwater Enclosures and Some Ecological ConsequencesCanadian Journal of Fisheries and Aquatic Sciences, 43
-
Sharon Dewey (1986)
Effects of the Herbicide Atrazine on Aquatic Insect Community Structure and EmergenceEcology, 67
-
(1994)
Aquatic mesocosms in ecological effects -
Herbicide SSDs: Species Selection and Ecological Relevance -
B. Nyström, M. Paulsson, Klara Almgren, H. Blank (2000)
Evaluation of the capacity for development of atrazine tolerance in periphyton from a swedish freshwater site as determined by inhibition of photosynthesis and sulfolipid synthesisEnvironmental Toxicology and Chemistry, 19
-
T. Boyle (1980)
Effects of the aquatic herbicide 2,4-D DMA on the ecology of experimental pondsEnvironmental Pollution Series A, Ecological and Biological, 21
-
M. Crane, P. Whitehouse, S. Comber, C. Watts, J. Giddings, D. Moore, E. Grist (2003)
Evaluation of probabilistic risk assessment of pesticides in the UK: chlorpyrifos use on top fruit.Pest management science, 59 5
-
(1999)
ETX-2000. Normal Distribution Based Hazardous Concentration and Potentially Affected Fraction. Rijksinstituut voor Volksgezondheid en Milieu -
C. Duboudin, P. Ciffroy, Hélène Magaud (2004)
Acute‐to‐chronic species sensitivity distribution extrapolationEnvironmental Toxicology and Chemistry, 23
-
A. Schroer, J. Belgers, C. Brock, A. Matser, S. Maund, P. Brink (2004)
Comparison of Laboratory Single Species and Field Population-Level Effects of the Pyrethroid Insecticide λ-Cyhalothrin on Freshwater InvertebratesArchives of Environmental Contamination and Toxicology, 46
-
P. Hamilton, G. Jackson, N. Kaushik, K. Solomon (1987)
The impact of atrazine on lake periphyton communities, including carbon uptake dynamics using track autoradiography.Environmental pollution, 46 2
-
C. Duboudin, P. Ciffroy, Hélène Magaud (2004)
Effects of data manipulation and statistical methods on species sensitivity distributionsEnvironmental Toxicology and Chemistry, 23
-
P. Brink, E. Donk, R. Gylstra, S. Crum, T. Brock (1995)
Effects of chronic low concentrations of pesticides chlorpyrifos and atrazine in indoor freshwater micro-cosmsHydrobiologia
-
J. Pratt, N. Bowers, B. Niederlehner, J. Cairns (1988)
Effects of atrazine on freshwater microbial communitiesArchives of Environmental Contamination and Toxicology, 17
-
N. Straalen (2002)
Threshold models for species sensitivity distributions applied to aquatic risk assessment for zinc.Environmental toxicology and pharmacology, 11 3-4
-
R. Stephenson, D. Kane (1984)
Persistence and effects of chemicals in small enclosures in pondsArchives of Environmental Contamination and Toxicology, 13
-
(1981)
Fate and Effects of 2,4-D Formulations as Herbicides -
B. Preston, J. Shackelford (2002)
Risk-Based Analysis of Environmental Monitoring Data: Application to Heavy Metals in North Carolina Surface WatersEnvironmental Management, 30
-
R. Lozano, J. Pratt (1994)
Interaction of toxicants and communities: The role of nutrientsEnvironmental Toxicology and Chemistry, 13
-
G. Hose, P. Brink (2004)
Confirming the Species-Sensitivity Distribution Concept for Endosulfan Using Laboratory, Mesocosm, and Field DataArchives of Environmental Contamination and Toxicology, 47
-
S. Gurney, G. Robinson (1989)
The influence of two triazine herbicides on the productivity, biomass and community composition of freshwater marsh periphytonAquatic Botany, 36
-
(1991)
toxicology, pp 133–54 -
(1990)
Contamination and Toxicology -
D. Brockway, P. Smith, F. Stancil (1984)
Fate and effects of atrazine in small aquatic microcosmsBulletin of Environmental Contamination and Toxicology, 32
-
T. Flum, L. Shannon (1987)
The effects of three related amides on microecosystem stability.Ecotoxicology and environmental safety, 13 2
-
J. Hamala, Heinz Kollig (1985)
The effects of atrazine on periphyton communities in controlled laboratory ecosystemsChemosphere, 14
-
R. Kosinski (1984)
The effect of terrestrial herbicides on the community structure of stream periphytonEnvironmental Pollution Series A, Ecological and Biological, 36
-
B. Gruessner, M. Watzin (1996)
Response of aquatic communities from a vermont stream to environmentally realistic atrazine exposure in laboratory microcosmsEnvironmental Toxicology and Chemistry, 15
-
L. Goldsborough, G. Robinson (1986)
Changes in periphytic algal community structure as a consequence of short herbicide exposuresHydrobiologia, 139
-
M. Stephenson, G. Mackie (1986)
Effects of 2,4-D treatment on natural benthic macroinvertebrate communities in replicate artificial pondsAquatic Toxicology, 9
-
T. Aldenberg, J. Jaworska (2000)
Uncertainty of the hazardous concentration and fraction affected for normal species sensitivity distributions.Ecotoxicology and environmental safety, 46 1
-
J. Belgers, R. Lieverloo, L. Pas, P. Brink (2006)
Effects of the herbicide 2,4-D on the growth of submersed aquatic macrophyte species -
J. Pratt, N. Bowers, J. Cairns (1990)
Effect of sediment on estimates of diquat toxicity in laboratory microcosmsWater Research, 24
-
R. Kosinski, M. Merkle (1984)
The effect of four terrestrial herbicides on the productivity of artificial stream algal communitiesJournal of Environmental Quality, 13
-
F. Seguin, C. Leboulanger, F. Rimet, J. Druart, A. Bérard (2001)
Effects of Atrazine and Nicosulfuron on Phytoplankton in Systems of Increasing ComplexityArchives of Environmental Contamination and Toxicology, 40
-
F. Stay, D. Larsen, A. Katko, CM Rohm (1985)
Effects of Atrazine on Community Level Responses in Taub Microcosms -
R. Draxl, K. Neugebaur, F. Zieris, W. Huber (1991)
Comparison of the ecological effects of diquat on laboratory multi species and outdoor freshwater systems, 24
-
Jeffrey Cunningham, W. Kemp, M. Lewis, J. Stevenson (1984)
Temporal responses of the macrophyte,Potamogeton perfoliatus L., and its associated autotrophic community to atrazine exposure in estuarine microcosmsEstuaries, 7
-
D. Jack, H. gaarn, S. Johansson, Luotamo Marita, M. J., C. Musset, Olsen i., H. Olsson, Paya-Perez beatriz, F. Pedersen, R. Kirsten, S. Birgit (2002)
Technical Guidance Document on risk Assessment. Part 1. Part 2 -
(1999)
Guidance Document on Higher-tier Aquatic Risk Assessment for Pesticides (HARAP) -
P. Brink, T. Brock, L. Posthuma (2002)
The value of the species sensitivity distribution concept for predicting field effects: (non-)confirmation of the concept using semifield experiments -
J. Fairchild, T. Point, T. Schwartz (1994)
Effects of an herbicide and insecticide mixture in aquatic mesocosmsArchives of Environmental Contamination and Toxicology, 27
-
(1989)
Use of experimental ponds to assess the effects -
L. Goldsborough, G. Robinson (1985)
Effect of an aquatic herbicide on sediment nutrient flux in a freshwater marshHydrobiologia, 122
-
Paul Hamilton, D.R.S. Lean, G. Jackson, N. Kaushik, Keith Solomon (1989)
The effect of two applications of atrazine on the water quality of freshwater enclosures.Environmental pollution, 60 3-4
-
F. Denoyelles, W. Kettle, Donald Sinn (1982)
The Responses of Plankton Communities in Experimental Ponds to Atrazine, the Most Heavily Used Pesticide in the United StatesEcology, 63
-
T. Boyle, Aquatic Section, Environmental Fate (1985)
Validation and predictability of laboratory methods for assessing the fate and effects of contaminants in aquatic ecosystems : a symposium -
D. Forsyth, P. Martin, G. Shaw (1997)
Effects of herbicides on two submersed aquatic macrophytes, Potamogeton pectinatus L. and Myriophyllum sibiricum Komarov, in a prairie wetland.Environmental pollution, 95 2
-
J. Sherry (1994)
Effects of 2,4‐dichlorophenoxyacetic acid on fungal propagules in freshwater pondsEnvironmental Toxicology & Water Quality, 9
-
F. Stay, A. Katko, Christina Rohm, M. Fix, D. Larsen (1989)
The effects of atrazine on microcosms developed from four natural plankton communitiesArchives of Environmental Contamination and Toxicology, 18
-
C. Stephan (2001)
Use of Species Sensitivity Distributions in the Derivation of Water Quality Criteria for Aquatic Life by the U.S. Environmental Protection Agency -
D. Jenkins, A. Buikema (1990)
Response of a winter plankton food web to simazineEnvironmental Toxicology and Chemistry, 9
-
C. Tomlin (2003)
The Pesticide Manual -
I. Muñoz, M. Real, H. Guasch, E. Navarro, S. Sabater (2001)
Effects of atrazine on periphyton under grazing pressure.Aquatic toxicology, 55 3-4
-
J. Cuppen, Paul Brink, H. Woude, N. Zwaardemaker, T. Brock (1997)
Sensitivity of macrophyte-dominated freshwater microcosms to chronic levels of the herbicide linuron. II. Community metabolism and invertebrates.Ecotoxicology and environmental safety, 38 1
-
B. Johnson (1986)
Potential impact of selected agricultural chemical contaminants on a northern prairie wetland: A microcosm evaluation.Environmental toxicology and chemistry, 5 5
- Publisher
- Taylor & Francis
- Copyright
- Copyright Taylor & Francis Group, LLC
- ISSN
- 1549-7860
- eISSN
- 1080-7039
- DOI
- 10.1080/10807030500430559
- Publisher site
- See Article on Publisher Site
Abstract
In this article we present a review of the laboratory and field toxicity of herbicides to aquatic ecosystems. Single-species acute toxicity data and (micro)mesocosm data were collated for nine herbicides. These data were used to investigate the importance of test species selection in constructing species sensitivity distributions (SSDs), and in estimating hazardous concentrations (i.e., HC5) protective for freshwater aquatic ecosystems. A lognormal model was fitted to toxicity data (acute EC50s and chronic NOECs) and the resulting distribution used to estimate lower (95% confidence), median (50% confidence), and upper (5% confidence), HC5 values. The taxonomic composition of the species assemblage used to construct the SSD does have a significant influence on the assessment of hazard and only sensitive primary producers should be included for the risk assessment of herbicides. No systematic difference in sensitivity between standard and non-standard test species was observed. Hazardous concentrations estimated using laboratory-derived acute and chronic toxicity data for sensitive freshwater primary producers were compared to the response of herbicide-stressed freshwater ecosystems using a similar exposure regime. The lower limit of the acute HC5 and the median value of the chronic HC5 were protective of adverse effects in aquatic micro/mesocosms even under a long-term exposure regime. The median HC5 estimate based on acute data was protective of adverse ecological effects in freshwater ecosystems when a pulsed or short-term exposure regime was used in the microcosm and mesocosm experiments. There was also concordance between the predictions from the effect model PERPEST and the concentrations at which clear effects started to emerge in laboratory and field studies. However, compared to the SSD concept, the PERPEST model is able to provide more information on ecological risks when a common toxicological mode of action is evaluated as it considers both recovery and indirect effects.
Journal
Human & Ecological Risk Assessment – Taylor & Francis
Published: Aug 1, 2006
Keywords: ecological risk assessment; review; pesticides; herbicides; aquatic ecosystem