As urbanization and industrialization continue to advance rapidly in China, the issue of farmland abandonment is becoming more prevalent. Nevertheless, this phenomenon is crucial in protecting plant diversity in agricultural landscapes. This study sought to investigate the seasonal variation patterns of plant diversity in abandoned farmland habitats within the Huang-Huai Plain region. The plant community characteristics during spring, summer, and autumn were examined, and the variations in plant species diversity and phylogenetic diversity were analyzed across the different seasons. Spearman correlation analysis was used to explore the interrelationships among various diversity indices, and redundancy analysis and linear regression were employed to examine the connection between plant diversity indices and key soil environmental factors. The results showed that significant seasonal changes occurred in the plant community characteristics of abandoned farmland in the Huang-Huai Plain, with the number of families, genera, and species being highest in spring, followed by summer and autumn. Similarly, plant species diversity, richness index, and phylogenetic diversity were also higher in spring than in summer and autumn. The phylogenetic structure of plant communities tended to diverge in spring, be random in summer, and be clustered in autumn. The phylogenetic diversity and species diversity indexes were strongly associated, and soil organic matter and ammonium nitrogen were significantly positively correlated with plant species diversity and phylogenetic diversity. This study highlights the importance of considering seasonal and temporal scales when studying plant diversity and provides a theoretical basis for biodiversity conservation and agricultural production in the Huang-Huai Plain of China.

Species turnover is fundamental for understanding the mechanisms that influence large-scale species richness patterns. However, the large-scale spatial variation and the causes in soil animal species turnover remain elusive. In addition, the determinants of species turnover depend on the dispersal ability of guilds. In this study, we explored the large-scale patterns of meso-micro soil fauna turnover pattern and the driving factors based on fourteen sampling sites in East Asia. The patterns of soil fauna species turnover increased significantly with increasing latitude differences in East Asia. The environment explained 54.09, 50.62, and 57.34% of the total variance, and spatial factors explained 13.84, 15.91, and 21.04% of the total variance in species composition of overall, phytophage, and predacity faunas, respectively. Meanwhile, the effects of climate factors in environmental processes were stronger than that of soil factors in these three groups. Our results support the hypothesis that the effect of environment processes on soil animal species turnover is more important than the effect of the neutral. Climatic factors explained more variation for turnover of phytophage faunas, but soil and environment factors explained equally for predacity. Our results provide evidence supporting both environmental filtering and dispersal limitation hypotheses on the reginal and population scales. At last, this study has important theoretical significance and applied value in maintaining and promoting soil biodiversity and ecosystem services on the large scale.