Profiles

Ria Marni Tubaon

Dr Ria Marni Tubaon

Ria Marni Tubaon

Postdoctoral Research Fellow

Room 342 / 344 , Chemistry Building

6226 2999 (phone)

ria.tubaon@utas.edu.au

View more on Ms Marni Amuno in WARP

Fields of Research

Separation science (340109)
Sensor technology (incl. chemical aspects) (340108)
Surface water quality processes and contaminated sediment assessment (410504)

Research Objectives

Expanding knowledge in the chemical sciences (280105)
Measurement and assessment of freshwater quality (incl. physical and chemical conditions of water) (180306)
Ground water quantification, allocation and impact of depletion (180305)
Other environmental management (189999)

Publications

Total publications

Journal Article

(7 outputs)

Year	Citation	Altmetrics
2018	Amuno R, Haddad PR, Quirino JP, 'Membrane-free electrokinetic device integrated to electrospray-ionization mass spectrometry for the simultaneous removal of sodium dodecyl sulfate and enrichment of peptides', Analytical Chemistry, 90, (17) pp. 10122-10127. ISSN 0003-2700 (2018) [Refereed Article] DOI: 10.1021/acs.analchem.8b01707 [eCite] [Details] Citations: Scopus - 3Web of Science - 3 Co-authors: Haddad PR; Quirino JP Tweet
2017	Amuno R, Haddad PR, Quirino JP, 'One-step selective electrokinetic removal of inorganic anions from small volumes and its application as sample clean-up for mass spectrometric techniques', Journal of Chromatography A, 1488 pp. 134-139. ISSN 0021-9673 (2017) [Refereed Article] DOI: 10.1016/j.chroma.2017.01.073 [eCite] [Details] Citations: Scopus - 4Web of Science - 3 Co-authors: Haddad PR; Quirino JP Tweet
2017	Amuno R, Haddad PR, Quirino JP, 'Sample clean-up strategies for ESI mass spectrometry applications in bottom-up proteomics: trends from 2012 to 2016', Proteomics, 17, (20) Article 1700011. ISSN 1615-9853 (2017) [Refereed Article] DOI: 10.1002/pmic.201700011 [eCite] [Details] Citations: Scopus - 44Web of Science - 43 Co-authors: Haddad PR; Quirino JP Tweet
2017	Amuno R, Haddad PR, Quirino JP, 'Electrokinetic removal of dodecyl sulfate micelles from digested protein samples prior to electrospray-ionization mass spectrometry', Analytical Chemistry, 89, (24) pp. 13058-13063. ISSN 0003-2700 (2017) [Refereed Article] DOI: 10.1021/acs.analchem.7b03009 [eCite] [Details] Citations: Scopus - 9Web of Science - 9 Co-authors: Haddad PR; Quirino JP Tweet
2015	Breadmore MC, Amuno R, Shallan AI, Phung SC, Abdul Keyon AS, et al., 'Recent advances in enhancing the sensitivity of electrophoresis and electrochromatography in capillaries and microchips (2012-2014)', Electrophoresis, 36, (1) pp. 36-61. ISSN 0173-0835 (2015) [Refereed Article] DOI: 10.1002/elps.201400420 [eCite] [Details] Citations: Scopus - 129Web of Science - 125 Co-authors: Breadmore MC; Shallan AI; Phung SC; Abdul Keyon AS; Gstoettenmayr D; Ranjbar L; See HH; Quirino JP Tweet
2014	Amuno R, Haddad PR, Quirino JP, 'High-sensitivity analysis of anionic sulfonamides by capillary electrophoresis using a synergistic stacking approach', Journal of Chromatography A, 1349 pp. 129-134. ISSN 0021-9673 (2014) [Refereed Article] DOI: 10.1016/j.chroma.2014.05.007 [eCite] [Details] Citations: Scopus - 20Web of Science - 20 Co-authors: Haddad PR; Quirino JP Tweet
2014	Amuno R, Rabanes H, Haddad PR, Quirino JP, 'Capillary electrophoresis of natural products: 2011-2012', Electrophoresis, 35, (1) pp. 190-204. ISSN 0173-0835 (2014) [Refereed Article] DOI: 10.1002/elps.201300473 [eCite] [Details] Citations: Scopus - 22Web of Science - 21 Co-authors: Rabanes H; Haddad PR; Quirino JP Tweet

Grants & Funding

Funding Summary

Number of grants

Total funding

$1,014,067

Projects

Water monitoring systems for deployment at the Copping Waste Site (2022)$19,991

Description: two portable capillary electrophoresis prototype systems already developed will be replicated and deployed in collaboration with Syrinx and Southern Waste Solutions (SWS). These systems will be tested for their capability to monitor inorganic ions and heavy metals in the remediation system to provide information on design and optimisation of future remediation systems.
Funding: Syrinx Environmental Pty Ltd ($19,991)
Scheme: Contract Research
Administered By: University of Tasmania
Research Team: Breadmore MC; Smejkal P; Amuno RM; Maya Alejandro F
Year: 2022

Automated Sensors for a wetland in a box (2022 - 2025)$478,589

Description: Globally, and particularly in Australia, water supply and water pollution is one of the most critical constraints to ourhealth and growth. This project seeks to validate a new portable remediation system suitable for deployment atregional locations through the integration and development of advanced sensors. We aim to develop the world'sfirst completely integrated platform for monitoring both water chemistry and microbiology to provide near-real-timeinformation regarding the quality of the remediated water. We expect this to improve the availability of regionalwater resources by providing a low-cost remediation solution with integrated monitoring to provide assurances ofmeeting the Australian Guidelines for Water Recycling (2006).
Funding: Australian Research Council ($478,589)
Scheme: Grant-Linkage Projects
Administered By: University of Tasmania
Research Team: Breadmore MC; Powell S; Amuno RM; Pantelic L
Period: 2022 - 2025
Grant Reference: LP210100343

Using revolutionary real-time analyser technology to inform best practice environmental river management in Tasmania (2022 - 2024)$246,000

Description: This project aims to use novel in-situ real-time analyser technology to revolutionise catchment water quality monitoring in Tasmania. Current water quality monitoring programs in the State are sparse, driven by individual industries/organisations, costly, and at a low frequency that does not capture incidents, variable pollutant sources, rainfall-runoff events and biogeochemical in-stream processes. Here we will use funds from stakeholders and the Ian Potter Foundation to purchase six real-time water quality monitoring systems to measure nitrate, nitrite, phosphate, chloride, carbonate, sulphate and fluoride, as well as other key analytes and parameters. The sensors have been developed in collaboration with the University of Tasmania with the goal to provide robust, autonomous and low cost systems that provides data in real-time allowing fast and smarter decisions regarding industry operations and waterway management. We will deploy and test the six monitoring systems in the River Derwent catchment. The catchment has a history in land use change, diverse diffuse and point sources of nutrients and is home to a variety of water-dependent industries such as Hydro Tasmania and the Norkse Skog paper mill, making it a perfect test site. As an intermediate step between previously conducted R&D and future broad scale rollout of this technology, we will test the systems at industry outfalls and downstream of diffuse sources to better characterise nutrient loads from different sources. The data will allow us to calculate more accurate nutrient budgets for the catchment, allowing us to prioritise catchment management actions and help individual point source industries such as fish hatcheries and sewage treatment plants to evaluate their nutrient discharges, with the aim to improve discharge levels. We are hoping that introducing this new technology to the River Derwent catchment in Tasmania will demonstrate its effectiveness and lead to broader water quality monitoring in the State.
Funding: Ian Potter Foundation ($246,000)
Scheme: Grant-Science
Administered By: Derwent Estuary Program
Research Team: Breadmore MC; Amuno RM; Smejkal P; Proemse B
Period: 2022 - 2024

Ecodetection improvements (2019 - 2020)$269,487

Description: Develop new chemistry for ecodetection applications of (1) glyphosate, (2) mining ions (cyanide, etc), and (3) heavy metals.
Funding: Eco Detection Australia Pty Ltd ($269,487)
Scheme: Contract Research
Administered By: University of Tasmania
Research Team: Breadmore MC; Bissember AC; Amuno RM
Period: 2019 - 2020

Research Supervision

Current

Degree	Title	Commenced
PhD	Polymer Inclusion Membranes for Electrokinetic Sampling and Separation	2022