Examining the influence of deep learning architecture on generalizability for predicting stream temperature in the Delaware River Basin

Published by U.S. Geological Survey | Department of the Interior | Metadata Last Checked: July 16, 2025 | Last Modified: 20230322

This data release and model archive provides all data, code, and modelling results used in Topp et al. (2023) to examine the influence of deep learning architecture on generalizability when predicting stream temperature in the Delaware River Basin (DRB). Briefly, we modeled stream temperature in the DRB using two spatially and temporally aware process guided deep learning models (a recurrent graph convolution network - RGCN, and a temporal convolution graph model - Graph WaveNet). The associated manuscript explores how the architectural differences between the two models influence how they learn spatial and temporal relationships, and how those learned relationships influence a model's ability to accurately predict stream temperature as domains shift towards out-of-bounds conditions. This data release and model archive contains three zipped folders for 1) Data Preparation, 2) Modelling Code, and 3) Model Predictions. Instructions for running data preparation code and modelling code can be found in the README.md files in 01_Data_Prep and 02_Model_Code respectively.

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DE Delaware MD Maryland NJ NY New Jersey New York PA Pennsylvania US USGS:63779139d34ed907bf6f2cc9 United States climate change domain shift environment explainable AI (XAI) generalization hybrid modeling inlandWaters machine learning modeling process guided deep learning stream temperature temperature water water resources

Complete Metadata

@id	http://datainventory.doi.gov/id/dataset/612aa76ef369db07313a0af9a42edf24
bureauCode	[ "010:12" ]
identifier	USGS:63779139d34ed907bf6f2cc9
spatial	-76.3956,38.6843,-74.3576,42.4625
theme	[ "geospatial" ]

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