Multiscale spatial heterogeneity of population aging in relation to its influential factors: a case study in the Hubei region, China

Junjun Qiu^1*Yuge Zhang²Binbin Jia¹Danyang Li^1*

• ¹Wuhan Sports University, Wuhan, China
• ²Kookmin University, Seoul, Republic of Korea

Introduction: Population aging in China exhibits pronounced spatial heterogeneity, driven by complex interactions among demographic dynamics, economic development, healthcare infrastructure, environmental conditions, and lifestyle factors. Understanding which determinants exert the strongest-and most geographically variable-effects is critical for designing targeted healthy-aging policies. This study investigates the multiscale influences on the city-level aging rate in Hubei Province, comparing patterns in 2010 and 2020. Methods: We applied Multiscale Geographically Weighted Regression (MGWR) to annual data for 17 cities in Hubei. Explanatory variables encompassed demographic indicators (birth rate, mortality rate), economic affluence (per-capita GDP), healthcare infrastructure indicators (quantity of health institutions and service enterprises), environmental measures (per capita urban park green space, centralized treatment rate of sewage treatment plants), and physical activity prevalence. MGWR's adaptive bandwidth selection enabled each predictor to operate at its optimal spatial scale, while model fit was assessed via AICc, adjusted R², and residual diagnostics.Results: In 2010, spatial variability in aging was dominated by economic (𝑆𝐷 ≈ 0.36) and healthcare disparities ( 𝑆𝐷 ≈ 0.31 ). By 2020, these disparities had largely converged, and demographic divergence-particularly heterogeneous birth-rate effects (𝑆𝐷 ≈ 0.42)-became the primary driver. Crucially, physical activity emerged as the most potent local accelerator of aging in 2020 ( 𝑚𝑒𝑎𝑛 𝛽 ≈ -0.60 , 𝑆𝐷 ≈ 0.25 ), statistically significant in over half of cities, and operating at a fine spatial scale.Discussion: The temporal shift from structural inequality to demographic and lifestyle determinants underscores the evolving landscape of population aging. MGWR's multibandwidth approach revealed that physical-activity interventions must be tailored at the city level, while fertility and economic policies warrant regional coordination. These findings demonstrate MGWR's advantage over global or single-bandwidth models in capturing layered spatial processes. Future research should employ finer spatial units, longitudinal designs, and integrate psychosocial variables to further elucidate healthyaging pathways.