Canto and Astar, two layer-1 blockchains originally from the Cosmos and Polkadot ecosystems respectively, are planning to transition into the Ethereum ecosystem as layer-2 rollups. This move is aimed at leveraging Ethereum’s liquidity through a shared ZK bridge while retaining the security features of Ethereum. Canto aims to facilitate the shift from traditional to decentralized finance, while Astar is developing its own Ethereum layer-2 scaling solution called Astar ZK-EVM.
According to Polygon Labs, the team behind Canto, the transfer will not affect the validators and staking system of Canto. Sandeep Nailwal, co-founder of Polygon Labs, believes that these recent migrations could trigger a roll-up avalanche, pointing out that the largest chains from Polkadot and Cosmos have both transitioned into Ethereum. However, not all protocols are following this trend. For example, dYdX and Maker plan to explore other ecosystems such as Cosmos and Solana, while the NFT collection OnChainMonkey intends to shift from Ethereum to Bitcoin for a more secure base layer and participation in the thriving Bitcoin Ordinals ecosystem.
The original article by Brayden Lindrea provides an in-depth analysis of the ongoing migration trends among blockchains, particularly the movement towards the Ethereum ecosystem. It identifies key players involved in this trend and highlights exceptions, offering a comprehensive and nuanced perspective on the subject.
The original article can be found here: [Cointelegraph](https://cointelegraph.com/news/canto-astar-blockchains-plan-expansion-to-ethereum-ecosystem-as-layer-2s).
Based on the information provided, the article does not appear to contain any political bias or agenda. It focuses on reporting the technological developments within the blockchain industry. The factual accuracy of the article seems high, as it relies on cited sources and includes mentions of influential figures in the field. Therefore, it can be estimated that the article is approximately 95% likely to be factual news based on current analysis.