Continuous subglacial lake detection in Antarctica #125
Description
Find new active subglacial lakes in Antarctica automatically when new ICESat-2 datasets are available!
Processing Pipeline:
- Step 1. Setup a scheduled Continuous Integration service to detect when new data releases are available
- Ping https://n5eil02u.ecs.nsidc.org/opendap/hyrax/ATLAS/ATL06.003/catalog.xml or alternative source to get latest date
- Look at using intake-thredds or siphon or jupyterlab_thredds
- 👋 Need help figuring out how to authenticate to NASA URS without exposing personal credentials
- Step 2. If new data found, run the data processing pipeline
- I.e.
atl06_to_atl11, ...,atlxi_dhdt.py - 🤔 How to only run only a 'diff' between data releases instead of everything?
- I.e.
- Step 3. Generate maps of new subglacial lake locations
- Will need to run some cluster analysis, generate hydropotential contours, do image differencing, or something along those lines
- Include metadata information such as estimated lake area/volume, amount drained/filled, etc
- ❓ What other remote sensing information might help with this, and what should the output look like?
Open to ideas/suggestions, especially on the points with emojis above ⬆️.
References:
- Fricker, H. A., Scambos, T. A., Bindschadler, R., & Padman, L. (2007). An Active Subglacial Water System in West Antarctica Mapped from Space. Science, 315(5818), 1544–1548. https://doi.org/10.1126/science.1136897
- Siegfried, M. R., & Fricker, H. A. (2018). Thirteen years of subglacial lake activity in Antarctica from multi-mission satellite altimetry. Annals of Glaciology, 1–14. https://doi.org/10.1017/aog.2017.36
- Smith, B. E., Fricker, H. A., Joughin, I. R., & Tulaczyk, S. (2009). An inventory of active subglacial lakes in Antarctica detected by ICESat (2003–2008). Journal of Glaciology, 55(192), 573–595. https://doi.org/10.3189/002214309789470879