Susanna Wood is a New Zealand scientist whose research focuses on understanding, protecting and restoring New Zealand's freshwater environments. One of her particular areas of expertise is the ecology, toxin production, and impacts of toxic freshwater cyanobacteria in lakes and rivers. Wood is active in advocating for the incorporation of DNA-based tools such as metabarcoding, genomics and metagenomics for characterising and understanding aquatic ecosystems and investigating the climate and anthropogenic drivers of water quality change in New Zealand lakes. She has consulted for government departments and regional authorities and co-leads a nationwide programme Lakes380 that aims to obtain an overview of the health of New Zealand's lakes using paleoenvironmental reconstructions. Wood is a senior scientist at the Cawthron Institute. She has represented New Zealand internationally in cycling.

Wood has a PhD from Victoria University of Wellington, with a thesis on microcystins in New Zealand freshwater organisms.^[1] From 2006 to 2009, Wood worked as a Foundation for Research, Science and Technology (FRST) Post-Doctoral Researcher (Cawthron and Waikato University).^[2][3] She has held honorary positions as a lecturer as Waikato University (2007–2011), and as honorary research associate, biological sciences, Victoria University (2010). Wood was senior research fellow, biological sciences, at Waikato University from 2011 to 2017, and since 2018 has been a senior adjunct fellow, Waterways Centre for Freshwater Management, University of Canterbury.^[4] Wood was employed at Cawthron Institute as a scientist in 2005 as scientist, Freshwater & Biotechnology groups in 2005, and from 2014 has been a senior scientist, Coastal & Freshwater group, Cawthon.^[2]

Wood contributed to a 2007 paper that identified risks associated with toxic planktonic cyanobacteria in drinking water, and highlighted the need for national guidance and policies for tackling the complex issues associated with benthic cyanobacteria which were not covered by the official government guidelines at the time,' Drinking-Water Standards for New Zealand 2005' and 'Guidelines for Drinking-Water Quality Management for New Zealand 2005'. The document stressed that "further research is required in New Zealand to establish the extent and latent risks posed by benthic cyanobacteria, particularly in drinking water supplies."^[7] In 2009, Wood co-authored the New Zealand Guidelines for Cyanobacteria in Recreational Fresh Waters – Interim Guidelines for the New Zealand government. The document aimed to provide a "monitoring framework for establishing the public health risk from cyanobacteria associated with contact recreation in lakes (mainly planktonic cyanobacteria) and rivers (mainly benthic cyanobacteria)".^[24]

In an international publication, Current approaches to Cyanotoxin risk assessment, risk management and regulations in different countries (2012), Wood summarised the documents that were guiding the regulation and management of cyanobacteria in New Zealand at the time. The summary noted that research had shown planktonic cyanobacteria in New Zealand produced a range of cyanotoxins, including anatoxin-a which had been shown to cause the death of animals, and saxitoxins in benthic mats that were likely to have contributed to humans becoming sick using the water recreationally. These concerns, as well as those around the safety of drinking water, are addressed in the government guidelines revised in 2008.^[25]

Wood co-authored a 2018 study commissioned by the NZ Ministry of the Environment to inform the development of a National Objectives Framework for the management of anatoxins in waters affected by Phormidium blooms. The report noted this study showed data would provide valuable information for the development of human health risk assessment models related to toxic blooms in rivers.^[26] Another study for the Ministry of the Environment (2018), made recommendations to a review of the 'Interim New Zealand Guidelines for Cyanobacteria in Recreational Fresh Waters', including updating the cyanobacteria alert-level framework, conducting further research to identify the health risks of benthic cyanobacteria in lakes and addressing the knowledge gaps to determine the risk posed by anatoxin in rivers.^[27]

Wood was invited to be a member of the NZ Ministry of Health, Drinking-water Advisory Committee (2018) which conducted a review of the regulations, leading to a reviewed set of Standards with a section on cyanotoxin compliance criteria.^[28]

In 2017 Wood became joint programme leader for Our Lakes Health; past, present and future (Lakes380), a MBIE funded five-year research project that aimed to improve water quality in New Zealand lakes by using scientific tools to collect and analyse water samples, lake bottom sediment samples and cores which are natural archives of the environmental history of aquatic communities and water quality. The project is co-led by the Cawthron Institute and GNS Science.^[29] Wood commented that the project would provide information to understand what was driving environmental change and to inform initiatives to restore the ecological vitality of New Zealand lakes.^[30] On RNZ, Wood explained that the sediment cores would be analysed using DNA techniques to understand how and why the biological communities have changed, and gave an example of eDNA revealing the coinciding of cyanobacterial blooms in one lake with the introduction of introduced species of fish such as trout and European perch in the 1870s. This knowledge informed a restoration plan for the lake.^[31]

Wood has acknowledged that the lakes in the project had cultural importance to the local iwi, because they were often "important sites for mahinga kai (traditional food gathering)". She said that working with Ngāti Kurī using environmental DNA and scanning techniques to measure the current and past biodiversity of past biodiversity of lakes in the far north of New Zealand, [was] "a unique opportunity to learn from their long association with these lakes and further enrich our knowledge of these precious places".^[32] In 2020, it was announced that the Lakes380 Research Project would undertake the largest sampling of lakes ever undertaken in the Waikato area. Wood noted that during the sampling, there would be considerable engagement with local Iwi, [who are] "important partners in this project because one of our major goals is to ensure our lakes are valued and protected – now and for generations to come and our ability to do so is greatly enhanced by incorporating mātauranga Māori and indigenous knowledge into the research".^[33]

While researching lakes in the Rotorua area, the Lakes380 Team worked with Partnership Through Collaboration to offer an educational opportunity for students to take part in the extraction and analysis of lake sediment.^[34]

A collaboration between Lakes380 and researchers at the University of Windsor was confirmed in 2020 and Wood acknowledged it was an important opportunity to learn about their "metagenetic techniques" and how they could be used in New Zealand environments.^[35]

• Wood is a member of Global Harmful Algae Bloom Scientific Steering Committee, an international group with the goal of improving understanding and prediction of Harmful Algal Blooms (HABs) in aquatic ecosystems, and management and mitigation of their impacts.^[36]

• She is an Invited Member of the Scientific Steering Committee, International Barcode of Life, an organisation which aims to use sequence variation in short gene regions, DNA barcodes to understand biodiversity by identifying species worldwide.^[37]

• Wood works with Inland Waters (Journal of the International Society of Limnology) as an Associate Editor.^[38]

• As part of a team that is recognised for being "experts in paleoecology, paleogenomics, [and] molecular ecology", Wood is on the advisory board of The SedaDNA Scientific Society.^[39]

• The Waterways Centre for Freshwater Management was established in 2009 as a joint partnership between Canterbury and Lincoln Universities to coordinate research and teaching in water resource management, and Wood is a Core Staff Member.^[4]

2020: Keynote Speaker, as part of the Lakes380 team, at Weathering the Storm, a joint conference organised by the NZ Hydrological Society, Rivers Group and Freshwater Science Society, with papers covering all aspects of Hydrology, River System Management and Freshwater Science.^[40]

2019: Keynote speaker, 11th International Toxic Cyanobacteria Conference, Poland.^[41]

2019: Presented "Toxic Cyanobacteria: Ancient Organisms Thriving in the Anthropocene" at the Urbanization, Water and Food Security Gordon Research Conference.^[42]

2018: Presented at the 6th Australian and New Zealand Cyanobacteria Workshop, 25 September 2018, UNSW Sydney.^[43]

2016: Presented on the topic 'Risky rivers: identifying river susceptibility and factors that promote benthic Phormidium proliferations', at the Fifth National Cyanobacterial Workshop Brisbane, 29–30 September 2016.^[44]

In 2019, Wood was the winner of the New Zealand Freshwater Sciences Society Medal, "For her outstanding contribution to freshwater science and management, and her leadership of women in science."^[45]

Wood has represented New Zealand as a cyclist at the Commonwealth Games and World Cup in 2006.^[46][47] In 2009 she was second in the XTERRA New Zealand event,^[48] and prior to taking part in a triathlon in Nelson in 2012, this success was acknowledged, with a local news article noting Wood was "strong on the road bike and can run pretty quickly on the flat".^[49] Speaking at the Nelson Mail and Network Tasman Top Student Awards in 2012, Wood said that passion, making the most of opportunities and learning from experience were what had driven her as a cyclist. She noted in her talk [that] "opportunity is a bird that never perches...[and]...learn backwards from experiences, but live forwards".^[50] Wood was a winner of the Reg Davies Memorial Trophy in 2014.^[51]