Chen Wei-Ting, Yang Wen-Ta, Ko Chia-Ying, Liou Sofia Ya Hsuan, Hsu Chia-Hsuan, Ko Chun-Han, Hung Chung-Hang, Yuan Hsiao-Wei
School of Forestry and Resources Conservation, National Taiwan University, Taipei, Taiwan.
Department of Environmental Engineering, National I-Lan University, Yi-Lan, Taiwan.
Sci Rep. 2025 Feb 18;15(1):5933. doi: 10.1038/s41598-025-89103-z.
The terrestrial environment is a significant source of anthropogenic debris emissions. While most studies on anthropogenic debris focus on the marine environment, our research delves into the effects of human activity on anthropogenic debris ingestion by studying the carcasses of feral pigeons. From January to June 2022, we collected the gastrointestinal tracts (GI tracts) of 46 pigeon carcasses in Taipei, Taiwan's capital city. The results revealed that 224 anthropogenic debris samples were found, with the dominant form being fibers (71.9%), which are primarily black (29.9%). Fourier transform infrared spectroscopy (FTIR) revealed that the main component of anthropogenic debris is polyethylene (PE) (20.5%), followed by anthropogenic cellulose (19.2%) and various other plastics. This study revealed that the amount of anthropogenic debris and chemical composition in the GI tract significantly increase with increasing human activity. These results prove that feral pigeons are valuable indicators for monitoring anthropogenic debris pollution in urban ecosystems. On the other hand, past research focused on analyzing microplastics, but we confirmed that the GI tract of pigeons has a high proportion of anthropogenic cellulose. Importantly, future studies should consider the potential impacts of anthropogenic cellulose in terrestrial ecosystems, as this could have significant implications for ecosystem health.
陆地环境是人为垃圾排放的一个重要来源。虽然大多数关于人为垃圾的研究都集中在海洋环境,但我们的研究通过研究野生鸽子的尸体,深入探讨了人类活动对人为垃圾摄入的影响。2022年1月至6月,我们在台湾省会台北收集了46只鸽子尸体的胃肠道。结果显示,共发现224个来自人为垃圾的样本,其中占主导地位的形式是纤维(71.9%),这些纤维主要为黑色(29.9%)。傅里叶变换红外光谱(FTIR)显示,人为垃圾的主要成分是聚乙烯(PE)(20.5%),其次是人为纤维素(19.2%)和各种其他塑料。这项研究表明,随着人类活动的增加,胃肠道中的人为垃圾数量和化学成分显著增加。这些结果证明,野生鸽子是监测城市生态系统中人为垃圾污染的重要指标。另一方面,过去的研究主要集中在分析微塑料,但我们证实鸽子的胃肠道中人为纤维素的比例很高。重要的是,未来的研究应考虑人为纤维素在陆地生态系统中的潜在影响,因为这可能对生态系统健康产生重大影响。