The park's cherry blossom trails are illuminated at night during the peak blooming season, creating a specific evening viewing experience.
The park is built alongside the Neigou Stream, a waterway that underwent significant ecological restoration to improve urban biodiversity.
The site features multiple varieties of cherry trees that bloom at different times, extending the total viewing window to approximately one month.
The park design incorporates local community involvement for ongoing maintenance and seasonal event organization.
LOHAS Park is an urban green space in Taipei's Neihu District, primarily recognized for the Neihu Cherry Blossom Festival held annually along the Neigou Stream. The park spans approximately 3 kilometers along the riverside, featuring walking paths lined with various cherry species including Yoshino, Showa, and Taiwan cherry blossoms. The landscaping follows the course of the creek, integrating natural water features with pedestrian walkways and park benches. It serves as a community recreation area that remains accessible throughout the year. The park's development has transformed the local riparian zone into a destination for seasonal flower viewing. Its layout allows visitors to traverse the length of the blossom-lined trails while staying within the residential Neihu neighborhood.
The illuminated cherry blossom tunnel section during the evening hours.
Check local bloom forecasts online in late January to time your visit for peak flowering.
Bring a portable power bank for your camera, as night photography of the illuminated blossoms consumes significant battery.
Visit on a weekday morning to avoid the heavy crowds typical of the spring bloom weekends.
Avoid visiting on weekend afternoons during the February peak bloom, as trails become heavily congested.
The park is open year-round, but the cherry blossom viewing events are seasonal, typically occurring in late winter to early spring.
Do not touch or climb the cherry trees; stay on designated paved paths to protect the riverside ecosystem.