In the East and Southeast Asia, there exist significant differences in the generation rates of Equatorial Plasma Bubbles (EPBs) at closely located stations, indicating that the decorrelation distance of EPB generation is small (tens to hundreds of kilometers) in longitude. After the initial generation of EPBs at one longitude, they can drift zonally more than 2000 km and extend from the magnetic equator to middle latitudes of 40 or higher under some conditions. These features make it difficult to identify the possible seeding sources for the EPBs and to accurately predict their occurrence, especially when the onset locations of EPBs are far outside the observation sector. To capture ionospheric disturbances of various scales by natural sources (e.g., tropical cyclone, volcanic eruption), reveal their possible seeding in the generation of EPBs, and better understand the generation and evolution of EPBs, an Ionospheric Observation Network for Irregularity and Scintillation in the East and Southeast Asia (IONISE) is being developed (http://ionise.geophys.ac.cn/). The IONISE network mainly includes three crossed chains of Beidou geostationary satellite total electron content (TEC)/scintillation receivers along 110°E, 23°N, and 40°N respectively, multistatic portable digital ionosondes and bistatic VHF radars at low latitudes. In this talk we will briefly review the current knowledge of EPBs and ionospheric scintillations in the East and Southeast Asia. Some results from the IONISE and other observational networks and large facilities in the East and Southeast Asia, including ionospheric disturbances and EPB irregularities triggered by natural sources will be presented. Some unresolved issues related to the day-to-day variability of EPBs will be discussed.