Climplicit

Climplicit: Climatic Implicit Embeddings for Global Ecological Tasks

¹EcoVision Lab, DM3L, University of Zurich ²Swiss Federal Research Institute WSL
ICLR 2025 Workshop: Tackling Climate Change with Machine Learning

Abstract

Deep learning on climatic data holds potential for macroecological applications. However, its adoption remains limited among scientists outside the deep learning community due to storage, compute, and technical expertise barriers. To address this, we introduce Climplicit, a spatio-temporal geolocation encoder pretrained to generate implicit climatic representations anywhere on Earth. By bypassing the need to download raw climatic rasters and train feature extractors, our model uses x3500 less disk space and significantly reduces computational needs for downstream tasks. We evaluate our Climplicit embeddings on biomes classification, species distribution modeling, and plant trait regression. We find that single-layer probing our Climplicit embeddings consistently performs better or on par with training a model from scratch on downstream tasks and overall better than alternative geolocation encoding models.

Summary

Climplicit is a small-scale spatio-temporal encoder (15MB) that compresses the 1-km resolution global monthly climatic raster CHELSA (60GB). It can be applied to downstream task learning by freezing the network and training a probe on the embeddings.

The backbone of Climplicit is a novel residual extension to the Siren network dubbed ReSIREN. ReSIREN works by adding inter-layer residual connections between the pre-activation vectors that follow a Gaussian distribution. It improves the scaling capabilities of the network to more layers.

We compare the embeddings of Climplicit with other pretrained geolocation embeddings and models trained from scratch on climatic data and geo-coordinates. When using a single layer as probe on the three tasks of biome classification, species distribution modeling and plant trait regression, Climpicit performs competitive or better. When using a small MLP as probe, Climplicit outperforms all other methods.

We provide the codebase to run the CHELSA pretraining or only use the pretrained embeddings. The codebase furthermore contains the code for running the various downstream evaluations that we compared the models on.

BibTeX

@article{dollinger2025climplicit, title={Climplicit: Climatic Implicit Embeddings for Global Ecological Tasks}, author={Dollinger, Johannes and Robert, Damien and Plekhanova, Elena and Drees, Lukas and Wegner, Jan Dirk}, journal={International Conference on Learning Representations (ICLR) Workshops}, year={2025} }

Climplicit: Climatic Implicit Embeddings for Global Ecological Tasks

Abstract

Summary

Poster

BibTeX