Phd Position Marine Heatwaves

OverviewEarth Sciences New Zealand (ESNZ) is a public research organisation formed in July 2025 through the merger of NIWA and GNS Science, bringing together around 1,200 staff with expertise spanning the atmosphere, oceans, freshwater, climate, geology, geophysics, and natural hazards.

Its mission is to harness Earth, water, and climate science to support Aotearoa's resilience, sustainability, and prosperity by improving understanding of hazards such as earthquakes, volcanoes, and extreme weather; monitoring and managing marine and freshwater ecosystems; advancing renewable energy and low-carbon solutions; and providing evidence-based science to guide policy, infrastructure, and community decision-making.Atmospheric Sciences (AS)Climate : Past, Present & Future (CL)Ocean Sciences (OS)TypeFull timeLevelStudent / Graduate / InternshipOpenPreferred educationMaster12 October 2025Posted19 September 2025PhD Opportunity : Characteristics, Drivers, and Mechanisms of Recent Marine Heatwaves to Improve PredictabilityStep into the growing field of climate extremes and their predictability to increase climate resilience of ecosystems and marine businesses.The projectMarine heatwaves (MHWs) have intensified and become more frequent worldwide over recent decades, impacting fisheries, aquaculture, biodiversity, and coastal communities.

One way to reduce this growing risk is through improved predictability and the establishment of early warning systems (de Boisséson & Balmaseda, 2024; Hartog, Spillman, Smith, & Hobday, 2023; Holbrook et al., 2020; Jacox et al., 2022; Spillman et al., 2025; Sun et al., 2023).

A 3-year project has been initiated to improve the predictability of these extremes over the southwest Pacific using advanced data science techniques.

The project brings together researchers from Australia, New Caledonia, USA, and New Zealand.This PhD will contribute to this international project by : Characterising recent MHWs and diagnosing their drivers and mechanismsImproving our ability to predict these events on subseasonal to seasonal timescalesUtilising and evaluating MHW forecasting productsThe successful applicant will work at the interface of climate dynamics, oceanography, and data science—linking process understanding with practical prediction tools for stakeholders (fisheries, aquaculture, conservation).

What you will doCompile and analyse in-situ observations and high-resolution hindcast simulations.Detect and characterise MHWs; attribute events using circulation patterns, heat-budget, and teleconnection diagnostics.Improve our understanding of mechanisms, dependencies, and timeframes to advance predictability.Evaluate existing and newly developed MHW forecasts.Contribute to early-warning products with end-users; publish in leading journals and present at conferences.About youMSc / First-class Honours (or equivalent) in physical oceanography, climate science, or atmospheric science.Strong skills in Python (xarray, numpy, pandas, scipy; netCDF; version control) or Matlab and quantitative analysis.Demonstrated interest in climate / ocean dynamics and predictability.Experience with seasonal prediction datasets, reanalysis, or climate model output.Background in time-series verification, extreme-value analysis, or machine learning (PyTorch / TensorFlow, scikit-learn).

HPC / Linux workflow skills; stakeholder engagement.You will be based at Earth Sciences New Zealand (ESNZ

• ) in Wellington, New Zealand, and enrolled through the University of Auckland's PhD programme in the Physics Department.

Supervisors of your project are Prof. Craig Stevens (Univ. Auckland and ESNZ), Professor Neil Holbrook (University of Tasmania), and Dr. Erik Behrens (ESNZ).

You'll join a collaborative team of ocean and climate scientists working across observation, modelling, and AI over a range of scales.

The project offers access to national supercomputing resources, rich forecast archives, and strong links to government, industry, and international partners.In addition, you will become part of the University of Auckland / ESNZ Joint Graduate School in Coastal and Marine Science.

Predictability of marine heatwaves : assessment based on the ECMWF seasonal forecast system.

Ocean Science, 20(1), 265–278.Hartog, J. R., Spillman, C. M., Smith, G., & Hobday, A. J. (2023).

Forecasts of marine heatwaves for marine industries : Reducing risk, building resilience and enhancing management responses.

Deep Sea Research Part II : Topical Studies in Oceanography, 209, 105276.Holbrook, N. J., Sen Gupta, A., Oliver, E. C., Hobday, A. J., Benthuysen, J. A., Scannell, H. A., .

Wernberg, T. (2020).

Keeping pace with marine heatwaves.

Nature Reviews Earth & Environment, 1(9), 482–493.Jacox, M. G., Alexander, M. A., Amaya, D., Becker, E., Bograd, S. J., Brodie, S., .

Tommasi, D. (2022).

Global seasonal forecasts of marine heatwaves.

Nature, 604(7906), 486–490.

doi : 10.1038 / s41586-022-04573-9Spillman, C. M., Hobday, A. J., Behrens, E., Feng, M., Capotondi, A., Cravatte, S., .

Gupta, A. S. (2025).

What makes a marine heatwave forecast useable, useful and used?

Progress In Oceanography, 234, 103464.Sun, W., Zhou, S., Yang, J., Gao, X., Ji, J., & Dong, C. (2023).

Artificial intelligence forecasting of marine heatwaves in the South China Sea using a combined U-Net and ConvLSTM system.

Remote Sensing, 15(16), 4068.Application materialsCover letter (max 2 pages) : motivation, fit, ideas around your experience and interests which could inform the project.CV (incl. publications, talks, software).

Academic transcripts.Subject line : PhD Application – Marine HeatwavesWe welcome applications from all backgrounds and are committed to creating a supportive, inclusive research environment.

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