English

A decentralized future for the open-science databases

Databases 2025-09-24 v1 Hardware Architecture Computers and Society Digital Libraries Other Quantitative Biology

Abstract

Continuous and reliable access to curated biological data repositories is indispensable for accelerating rigorous scientific inquiry and fostering reproducible research. Centralized repositories, though widely used, are vulnerable to single points of failure arising from cyberattacks, technical faults, natural disasters, or funding and political uncertainties. This can lead to widespread data unavailability, data loss, integrity compromises, and substantial delays in critical research, ultimately impeding scientific progress. Centralizing essential scientific resources in a single geopolitical or institutional hub is inherently dangerous, as any disruption can paralyze diverse ongoing research. The rapid acceleration of data generation, combined with an increasingly volatile global landscape, necessitates a critical re-evaluation of the sustainability of centralized models. Implementing federated and decentralized architectures presents a compelling and future-oriented pathway to substantially strengthen the resilience of scientific data infrastructures, thereby mitigating vulnerabilities and ensuring the long-term integrity of data. Here, we examine the structural limitations of centralized repositories, evaluate federated and decentralized models, and propose a hybrid framework for resilient, FAIR, and sustainable scientific data stewardship. Such an approach offers a significant reduction in exposure to governance instability, infrastructural fragility, and funding volatility, and also fosters fairness and global accessibility. The future of open science depends on integrating these complementary approaches to establish a globally distributed, economically sustainable, and institutionally robust infrastructure that safeguards scientific data as a public good, further ensuring continued accessibility, interoperability, and preservation for generations to come.

Keywords

Cite

@article{arxiv.2509.19206,
  title  = {A decentralized future for the open-science databases},
  author = {Gaurav Sharma and Viorel Munteanu and Nika Mansouri Ghiasi and Jineta Banerjee and Susheel Varma and Luca Foschini and Kyle Ellrott and Onur Mutlu and Dumitru Ciorbă and Roel A. Ophoff and Viorel Bostan and Christopher E Mason and Jason H. Moore and Despoina Sousoni and Arunkumar Krishnan and Christopher E. Mason and Mihai Dimian and Gustavo Stolovitzky and Fabio G. Liberante and Taras K. Oleksyk and Serghei Mangul},
  journal= {arXiv preprint arXiv:2509.19206},
  year   = {2025}
}

Comments

21 Pages, 2 figures

R2 v1 2026-07-01T05:52:28.026Z