Stability of Mg-sulphate minerals in the presence of smectites: possible mineralogical controls on H2O and nutrient cycling on Mars

Siobhan Wilson, David Bish

    Research output: Chapter in Book/Report/Conference proceedingConference PaperOtherpeer-review

    Original languageEnglish
    Title of host publicationCombined Australian Regolith Geoscientists Association and Australian Clay Minerals Society Conference - Proceedings
    EditorsG J Churchman, R Cresswell, B Singh
    Place of PublicationAustralia
    PublisherClay Minerals Society
    Pages43 - 45
    Number of pages3
    Publication statusPublished - 2012
    EventAustralian Clay Minerals Society Conference (ACMS) 2012 - Quality Hotel Mildura Grand, Mildura, Australia
    Duration: 7 Feb 20129 Feb 2012
    Conference number: 22nd
    http://www.smectech.com.au/ACMS/ACMS_Conferences/ACMS22/ACMS22.htm

    Conference

    ConferenceAustralian Clay Minerals Society Conference (ACMS) 2012
    Abbreviated titleACMS 2012
    CountryAustralia
    CityMildura
    Period7/02/129/02/12
    Internet address

    Cite this

    Wilson, S., & Bish, D. (2012). Stability of Mg-sulphate minerals in the presence of smectites: possible mineralogical controls on H2O and nutrient cycling on Mars. In G. J. Churchman, R. Cresswell, & B. Singh (Eds.), Combined Australian Regolith Geoscientists Association and Australian Clay Minerals Society Conference - Proceedings (pp. 43 - 45). Australia: Clay Minerals Society.
    Wilson, Siobhan ; Bish, David. / Stability of Mg-sulphate minerals in the presence of smectites: possible mineralogical controls on H2O and nutrient cycling on Mars. Combined Australian Regolith Geoscientists Association and Australian Clay Minerals Society Conference - Proceedings. editor / G J Churchman ; R Cresswell ; B Singh. Australia : Clay Minerals Society, 2012. pp. 43 - 45
    @inproceedings{91f55f8e0fd54f109574fda1f984125f,
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    author = "Siobhan Wilson and David Bish",
    year = "2012",
    language = "English",
    pages = "43 -- 45",
    editor = "Churchman, {G J} and R Cresswell and B Singh",
    booktitle = "Combined Australian Regolith Geoscientists Association and Australian Clay Minerals Society Conference - Proceedings",
    publisher = "Clay Minerals Society",
    address = "United States of America",

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    Wilson, S & Bish, D 2012, Stability of Mg-sulphate minerals in the presence of smectites: possible mineralogical controls on H2O and nutrient cycling on Mars. in GJ Churchman, R Cresswell & B Singh (eds), Combined Australian Regolith Geoscientists Association and Australian Clay Minerals Society Conference - Proceedings. Clay Minerals Society, Australia, pp. 43 - 45, Australian Clay Minerals Society Conference (ACMS) 2012, Mildura, Australia, 7/02/12.

    Stability of Mg-sulphate minerals in the presence of smectites: possible mineralogical controls on H2O and nutrient cycling on Mars. / Wilson, Siobhan; Bish, David.

    Combined Australian Regolith Geoscientists Association and Australian Clay Minerals Society Conference - Proceedings. ed. / G J Churchman; R Cresswell; B Singh. Australia : Clay Minerals Society, 2012. p. 43 - 45.

    Research output: Chapter in Book/Report/Conference proceedingConference PaperOtherpeer-review

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    T1 - Stability of Mg-sulphate minerals in the presence of smectites: possible mineralogical controls on H2O and nutrient cycling on Mars

    AU - Wilson, Siobhan

    AU - Bish, David

    PY - 2012

    Y1 - 2012

    M3 - Conference Paper

    SP - 43

    EP - 45

    BT - Combined Australian Regolith Geoscientists Association and Australian Clay Minerals Society Conference - Proceedings

    A2 - Churchman, G J

    A2 - Cresswell, R

    A2 - Singh, B

    PB - Clay Minerals Society

    CY - Australia

    ER -

    Wilson S, Bish D. Stability of Mg-sulphate minerals in the presence of smectites: possible mineralogical controls on H2O and nutrient cycling on Mars. In Churchman GJ, Cresswell R, Singh B, editors, Combined Australian Regolith Geoscientists Association and Australian Clay Minerals Society Conference - Proceedings. Australia: Clay Minerals Society. 2012. p. 43 - 45