Key Points
- Bybit and Block Scholes’ market report reveals mixed signals for Bitcoin and Ethereum derivatives.
- The report indicates a decline in Ethereum’s perpetual open interest and an increase in options open interest.
Bybit, in collaboration with Block Scholes, has issued a derivatives market report that presents a complex picture for Bitcoin and Ethereum derivatives.
Ethereum’s Declining Perpetual Open Interest
The report underscores a decrease in Ethereum’s perpetual open interest, mainly due to the liquidation of overleveraged long positions. These positions were amassed during an optimistic period but were reset by dropping Ethereum spot prices.
The report also remarks that Ethereum futures contracts have not seen the same reduction in open interest as Ethereum perpetual swap contracts during a brief halt in upward price momentum. Nevertheless, positioning for both Bitcoin and Ethereum has risen.
Despite this increase, the total size of open positions has not yet rebounded from the expiration of roughly $20 million in contracts at the end of November 2024. This suggests that traders who held contracts expiring in November have not reentered the market with the same volume. Conversely, Bitcoin perpetual positions have remained steady, even after a recent pullback from a high of over $100,000.
Perpetual swaps are a type of derivatives contract that allows traders to speculate on an asset’s price without owning it. They are extensively used in crypto markets, but unfavorable price movements can push leveraged traders into liquidation, decreasing market activity.
Ethereum Outperforms Bitcoin in Options
The report discloses that Ethereum continues to surpass Bitcoin in options open interest, especially as end-of-year expirations near. However, trading volumes have diminished, indicating a general sense of caution in the market.
The options term structure for Ethereum exhibits higher realized volatility compared to future expectations, signaling a difference in sentiment from Bitcoin, which presents a flatter term structure.