Highlights:
* Wuthering Waves 1.3 leaks by UncleBirdieWindow suggest two new female characters will be introduced in the game.
* Additionally, the leaks mentioned that Version 1.4 will be followed by Version 2.0.
* Wuthering Waves 2.0 is suspected to arrive in December or early January 2025.
The drought of Wuthering Waves 1.3 leaks has ended and the fresh revelations may have also spoiled the big plans of Kuro Games. Believed to be slated for October, the 1.3 update is rumored to introduce new female characters. Leaks from a reliable source also mention that the developers are aiming to release the 2.0 update sooner than expected.
Wuthering Waves 1.3 Leaks Reveal Massive Skip To Version 2.0
The latest leaks arrive courtesy of UncleBirdieWindow. According to them, Wuthering Waves 1.3 will introduce two new female characters. Their names weren’t disclosed and neither did the leak mention if the characters in question will be appearing in the banners or the main story.
Judging by previous leaks about the Wuthering Waves 1.3 banners, Camellya might be the new ‘playable’ Resonator. She has already been revealed as a member of the Black Shores organization in the main story. The other female Resonator in question could be Coastguard, whose visual was shared by UncleBirdieWindow. No other information about the character has been provided by leakers as of writing.
In a potentially ground-breaking revelation, UncleBirdieWindow also mentioned Wuthering Waves Version 2.0 will be released after 1.4, skipping five patch updates. This is a big leap considering that other gacha RPG games like Genshin Impact only skipped one patch.
Wuthering Waves 1.4 has no official release date but it is suspected to arrive in November, provided Kuro Games sticks with its usual 7-week schedule for each update. Therefore, Version 2.0, potentially succeeding 1.4, will be arriving in December or at the beginning of 2025.
Kuro Games could give the perfect New Year gift to Wuthering Waves players. 2.0 will undoubtedly be a massive update, adding more content and performance optimizations.