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Environmental Chemistry Environmental Chemistry Society
Environmental problems - Chemical approaches
FOREWORD

Foreword to the tribute issue for Dr Graeme Batley

Simon C. Apte https://orcid.org/0000-0003-2427-413X A *
+ Author Affiliations
- Author Affiliations

A Centre for Environmental Contaminants Research, CSIRO Land and Water Lucas Heights, Lucas Heights, NSW, Australia.

* Correspondence to: Simon.Apte@csiro.au

Handling Editor: Jamie Lead

Environmental Chemistry 19(4) 101-103 https://doi.org/10.1071/EN22105
Submitted: 19 September 2022  Accepted: 23 September 2022   Published: 2 November 2022

© 2022 The Author(s) (or their employer(s)). Published by CSIRO Publishing.

Environmental context. This special issue is a tribute to Graeme Batley’s career and his many contributions to the field of environmental chemistry.


References

Batley GE (1989) ‘Trace Element Speciation, Analytical Methods and Problems.’ (CRC Press Inc, FL, USA)

Batley GE, Florence TM (1974). An evaluation and comparison of some techniques of anodic stripping voltammetry. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 55, 23–43.
An evaluation and comparison of some techniques of anodic stripping voltammetry.Crossref | GoogleScholarGoogle Scholar |

Batley GE, Florence TM (1976a). The effect of dissolved organics on the stripping voltammetry of seawater. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 72, 121–126.
The effect of dissolved organics on the stripping voltammetry of seawater.Crossref | GoogleScholarGoogle Scholar |

Batley GE, Florence TM (1976b). Determination of the chemical forms of dissolved cadmium, lead and copper in seawater. Marine Chemistry 4, 347–363.
Determination of the chemical forms of dissolved cadmium, lead and copper in seawater.Crossref | GoogleScholarGoogle Scholar | [a Current Contents Citation Classic as most cited paper in Marine Chemistry, 1988]

Batley GE, Gardner D (1978). A study of copper, lead and cadmium speciation in some estuarine and coastal marine waters. Estuarine and Coastal Marine Science 7, 59–70.
A study of copper, lead and cadmium speciation in some estuarine and coastal marine waters.Crossref | GoogleScholarGoogle Scholar |

Batley GE, Scammell MS (1991). Research on tributyltin in Australian estuaries. Applied Organometallic Chemistry 5, 99–105.
Research on tributyltin in Australian estuaries.Crossref | GoogleScholarGoogle Scholar |

Batley GE, Apte SC, Stauber JL (1999). Acceptability of aquatic toxicity data for the derivation of water quality guidelines for metals. Marine and Freshwater Research 50, 729–738.
Acceptability of aquatic toxicity data for the derivation of water quality guidelines for metals.Crossref | GoogleScholarGoogle Scholar |

Batley GE, van Dam RA, Warne MStJ, Chapman JC, Fox DR, Hickey CW, Stauber, JL (2018) Technical rationale for changes to the method for deriving Australian and New Zealand water quality guideline values for toxicants – update of 2014 version. In ‘Prepared for the revision of the Australian and New Zealand Guidelines for Fresh and Marine Water Quality’. (Australian and New Zealand Governments and Australian state and territory governments: Canberra, ACT, Australia)

Boily F, Fortin C, Campbell PGC (2022). Cadmium thiosulfate complexes can be assimilated by a green alga via a sulfate transporter but do not increase Cd toxicity. Environmental Chemistry 19, 167–176.
Cadmium thiosulfate complexes can be assimilated by a green alga via a sulfate transporter but do not increase Cd toxicity.Crossref | GoogleScholarGoogle Scholar |

Bowles KC, Beyer J (2022). Examining the utility of existing chemical hazard paradigms to predict future global-scale environmental impacts from emerging chemicals. Environmental Chemistry 19, 254–262.
Examining the utility of existing chemical hazard paradigms to predict future global-scale environmental impacts from emerging chemicals.Crossref | GoogleScholarGoogle Scholar |

Cheng H, Li Y, Pouran H, Davison W, Zhang H (2022). Investigation of diffusion and binding properties of uranium in the diffusive gradients in thin-films technique. Environmental Chemistry 19, 263–273.
Investigation of diffusion and binding properties of uranium in the diffusive gradients in thin-films technique.Crossref | GoogleScholarGoogle Scholar |

Cossart T, Garcia-Calleja J, Santos JP, Kalahroodi EL, Worms IAM, Pedrero Z, Amouroux D, Slaveykova VI (2022). Role of phytoplankton in aquatic mercury speciation and transformations. Environmental Chemistry 19, 104–115.
Role of phytoplankton in aquatic mercury speciation and transformations.Crossref | GoogleScholarGoogle Scholar |

Florence TM, Batley GE (1976). Trace metals species in sea-water – I: removal of trace metals from sea-water by a chelating resin. Talanta 23, 179–186.
Trace metals species in sea-water – I: removal of trace metals from sea-water by a chelating resin.Crossref | GoogleScholarGoogle Scholar |

Florence TM, Batley GE (1977a). Determination of the chemical forms of trace metals in natural waters, with special reference to copper, lead, cadmium and zinc. Talanta 24, 151–158.
Determination of the chemical forms of trace metals in natural waters, with special reference to copper, lead, cadmium and zinc.Crossref | GoogleScholarGoogle Scholar |

Florence TM, Batley GE (1977b). Determination of copper in seawater by anodic stripping voltammetry. Journal of Electroanalytical Chemistry and Interfacial Electrochemistry 75, 791–798.
Determination of copper in seawater by anodic stripping voltammetry.Crossref | GoogleScholarGoogle Scholar |

Florence TM, Batley GE, Benes P (1980). Chemical speciation in natural waters. C R C Critical Reviews in Analytical Chemistry 9, 219–296.
Chemical speciation in natural waters.Crossref | GoogleScholarGoogle Scholar |

Fox DR, Batley GE (2022). Assessment factors in species sensitivity distributions for the derivation of guideline values for aquatic contaminants. Environmental Chemistry 19, 201–209.
Assessment factors in species sensitivity distributions for the derivation of guideline values for aquatic contaminants.Crossref | GoogleScholarGoogle Scholar |

Franklin NM, Rogers NJ, Apte SC, Batley GE, Gadd GE, Casey PS (2007). Comparative toxicity of nanoparticulate ZnO, bulk ZnO, and ZnCl2 to a freshwater microalga (Pseudokirchneriella subcapitata): the importance of particle solubility. Environmental Science & Technology 41, 8484–8490.
Comparative toxicity of nanoparticulate ZnO, bulk ZnO, and ZnCl2 to a freshwater microalga (Pseudokirchneriella subcapitata): the importance of particle solubility.Crossref | GoogleScholarGoogle Scholar |

Gissi F, Koppel D, Boyd A, Kho F, von Hellfeld R, Higgins S, Apte SC, Cresswell T (2022). A review of the potential risks associated with mercury in subsea oil and gas pipelines in Australia. Environmental Chemistry 19, 210–227.
A review of the potential risks associated with mercury in subsea oil and gas pipelines in Australia.Crossref | GoogleScholarGoogle Scholar |

Glabonjat RA, Duncan EG, Krikowa F, Francesconi KA, Maher WA (2022). Arsenosugars and arsenolipids are formed simultaneously by the unicellular alga Dunaliella tertiolecta.. Environmental Chemistry 19, 183–200.
Arsenosugars and arsenolipids are formed simultaneously by the unicellular alga Dunaliella tertiolecta..Crossref | GoogleScholarGoogle Scholar |

Golding LA, Angel BM, Batley GE, Apte SC, Krassoi R, Doyle CJ (2015). Derivation of a water quality guideline for aluminium in marine waters. Environmental Toxicology and Chemistry 34, 141–151.
Derivation of a water quality guideline for aluminium in marine waters.Crossref | GoogleScholarGoogle Scholar |

Golding LA, Valdivia MV, van Dam JW, Batley GE, Apte SC (2022). Toxicity of arsenic(v) to temperate and tropical marine biota and the derivation of chronic marine water quality guideline values. Environmental Chemistry 19, 116–131.
Toxicity of arsenic(v) to temperate and tropical marine biota and the derivation of chronic marine water quality guideline values.Crossref | GoogleScholarGoogle Scholar |

Hourtané O, Rioux G, Campbell PGC, Fortin C (2022). Algal bioaccumulation and toxicity of platinum are increased in the presence of humic acids. Environmental Chemistry 19, 144–155.
Algal bioaccumulation and toxicity of platinum are increased in the presence of humic acids.Crossref | GoogleScholarGoogle Scholar |

Klaine SJ, Alvarez PJJ, Batley GE, Fernandes TF, Handy RD, Lyon DY, Mahendra S, McLaughlin MJ, Lead JR (2008). Nanomaterials in the environment: behavior, fate, bioavailability, and effects. Environmental Toxicology and Chemistry 27, 1825–1851.
Nanomaterials in the environment: behavior, fate, bioavailability, and effects.Crossref | GoogleScholarGoogle Scholar |

Kong X, Garg S, Chen G, Li W, Wang Y, Wang J, Ma J, Yuan Y, Waite TD (2022). Coal chemical industry membrane concentrates: characterisation and treatment by ozonation and catalytic ozonation processes. Environmental Chemistry 19, 156–166.
Coal chemical industry membrane concentrates: characterisation and treatment by ozonation and catalytic ozonation processes.Crossref | GoogleScholarGoogle Scholar |

Lead JR, Batley GE, Alvarez PJJ, Croteau MN, Handy RD, McLaughlin MJ, Judy JD, Schirmer K (2018). Nanomaterials in the environment: behavior, fate, bioavailability, and effects – an updated review. Environmental Toxicology and Chemistry 37, 2029–2063.
Nanomaterials in the environment: behavior, fate, bioavailability, and effects – an updated review.Crossref | GoogleScholarGoogle Scholar |

Maher WA, Batley GE, Krikowa F, Ellwood MJ, Potts J, Swanson R, Scanes P (2022). Selenium cycling in a marine dominated estuary: Lake Macquarie, NSW, Australia a case study. Environmental Chemistry 19, 132–143.
Selenium cycling in a marine dominated estuary: Lake Macquarie, NSW, Australia a case study.Crossref | GoogleScholarGoogle Scholar |

Price GAV, Stauber JL, Stone S, Koppel DJ, Holland A, Jolley D (2022). Does toxicity test variability support bioavailability model predictions being within a factor of 2?. Environmental Chemistry 19, 177–182.
Does toxicity test variability support bioavailability model predictions being within a factor of 2?.Crossref | GoogleScholarGoogle Scholar |

Rogers NJ, Franklin NM, Apte SC, Batley GE, Angel BM, Lead JR, Baalousha M (2010). Physico-chemical behaviour and algal toxicity of nanoparticulate CeO2 in freshwater. Environmental Chemistry 7, 50–60.
Physico-chemical behaviour and algal toxicity of nanoparticulate CeO2 in freshwater.Crossref | GoogleScholarGoogle Scholar |

Scammell MS, Batley GE, Brockbank CI (1991). A field study of the impact on oysters of tributyltin introduction and removal in a pristine lake. Archives of Environmental Contamination and Toxicology 20, 276–281.
A field study of the impact on oysters of tributyltin introduction and removal in a pristine lake.Crossref | GoogleScholarGoogle Scholar |

Simpson SL, Batley GE (2007). Predicting metal toxicity in sediments: a critique of current approaches. Integrated Environmental Assessment and Management 3, 18–31.
Predicting metal toxicity in sediments: a critique of current approaches.Crossref | GoogleScholarGoogle Scholar |

Simpson SL, Batley GE (2016) ‘Sediment Quality Assessment; A Practical Handbook.’ (CSIRO Publishing: Melbourne, Vic., Australia)

Simpson SL, Apte SC, Batley GE (2000). Effect of short-term resuspension events on the oxidation of cadmium, lead, and zinc sulfide phases in anoxic estuarine sediments. Environmental Science & Technology 34, 4533–4537.
Effect of short-term resuspension events on the oxidation of cadmium, lead, and zinc sulfide phases in anoxic estuarine sediments.Crossref | GoogleScholarGoogle Scholar |

Wenning R, Batley G, Ingersoll C, Moore D (2005) ‘Use of Sediment Quality Guidelines and Related Tools for the Assessment of Contaminated Sediments.’ (SETAC Press: Pensacola, FL, USA)

Yan Y, Colenbrander Nelson TE, Twible L, Whaley-Martin K, Jarolimek CV, King JJ, Apte SC, Arrey J, Warren LA (2022). Sulfur mass balance and speciation in the water cap during early-stage development in the first pilot pit lake in the Alberta Oil Sands. Environmental Chemistry 19, 236–253.
Sulfur mass balance and speciation in the water cap during early-stage development in the first pilot pit lake in the Alberta Oil Sands.Crossref | GoogleScholarGoogle Scholar |

Yeung KWY, Zhou G-J, Leung KMY (2022). Degradation and transformation of all-trans-retinoic acid in seawater: implications on its fate and risk in the marine environment. Environmental Chemistry 19, 228–235.
Degradation and transformation of all-trans-retinoic acid in seawater: implications on its fate and risk in the marine environment.Crossref | GoogleScholarGoogle Scholar |