AstroAgents: A Multi-Agent AI for Hypothesis Generation from Mass Spectrometry Data

With upcoming sample return missions across the solar system and the increasing availability of mass spectrometry data, there is an urgent need for methods that analyze such data within the context of existing astrobiology literature and generate plausible hypotheses regarding the emergence of life on Earth.

Hypothesis generation from mass spectrometry data is challenging due to factors such as environmental contaminants, the complexity of spectral peaks, and difficulties in cross-matching these peaks with prior studies. To address these challenges, we introduce AstroAgents, a large language model-based, multi-agent AI system for hypothesis generation from mass spectrometry data.

AstroAgents is structured around eight collaborative agents: a data analyst, a planner, three domain scientists, an accumulator, a literature reviewer, and a critic. The system processes mass spectrometry data alongside user-provided research papers. The data analyst interprets the data, and the planner delegates specific segments to the scientist agents for in-depth exploration.

The accumulator then collects and deduplicates the generated hypotheses, and the literature reviewer identifies relevant literature using Semantic Scholar. The critic evaluates the hypotheses, offering rigorous suggestions for improvement.

To assess AstroAgents, an astrobiology expert evaluated the novelty and plausibility of more than a hundred hypotheses generated from data obtained from eight meteorites and ten soil samples. Of these hypotheses, 36% were identified as plausible, and among those, 66% were novel. Project website: https://astroagents.github.io/

a, The input interface allows users to upload mass spectrometry data (in this case, coupled with gas chromatography (GC)), relevant research papers, anc specific instructions to follow. b, The data processing agent analyzes mass spectrometry data, identifies significant patterns, detects unexpected findings, and recognizes potential environmental contamination. c, The planner agent delegates specific segments of the input data to a team of three scientist agents for in-depth analysis. d, The scientist agents generate hypotheses based on distinct aspects of the data, as assigned by the planner agent. In this illustration the first scientist focuses on unsubstituted polycyclic aromatic hydrocarbons (PAHs), the second examines sulfur and oxygen-containing compounds, and the third investigates alkylated PAHs. e, The accumulator agent consolidates hypotheses generated by the scientist agents, eliminating duplicates. f, The literature review agent searches Semantic Scholar for relevant papers corresponding to each hypothesis and provides summarized findings. g, The critic agent evaluates the generated hypotheses alongside their corresponding literature reviews, offering rigorous critique and suggestions for improvement. The critic agent’s feedback is then sent to the data analyst, facilitating an iterative refinement process to enhance subsequent analyses and hypothesis generation. — cs.AI

Daniel Saeedi, Denise Buckner, Jose C. Aponte, Amirali Aghazadeh

Subjects: Artificial Intelligence (cs.AI)
Cite as: arXiv:2503.23170 [cs.AI] (or arXiv:2503.23170v1 [cs.AI] for this version)
https://doi.org/10.48550/arXiv.2503.23170
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Submission history
From: Amirali Aghazadeh
[v1] Sat, 29 Mar 2025 17:58:52 UTC (1,147 KB)
https://arxiv.org/abs/2503.23170
Astrobiology,