As climate change continues to exert its influence, scientists emphasize the urgency of addressing environmental challenges to mitigate potential risks and.
As sea surface temperatures continue to increase worldwide due to climate change, including the seas surrounding Türkiye, the effects, and rate of warming.
Extreme storms, such as tropical cyclones, are responsible for a significant portion of the plastic debris transported from land to sea yet little is known about the storm response of microplastics and other debris in offshore and open waters. To investigate this, we conducted floating plastic surveys in the center of Sagami Bay, Japan approximately 50 km from the coastline, before and after the passage of a typhoon. The concentrations (number of particles/km2) of micro- and mesoplastics were two orders of magnitude higher 1-day after the typhoon than the values recorded pre-typhoon and the mass (g/km2) of plastic particles (sum of micro- and mesoplastics) increased 1300 times immediately after the storm. However, the remarkably high abundance of micro- and mesoplastics found at 1-day after the typhoon returned to the pre-typhoon levels in just two days. Model simulations also suggested that during an extreme storm a significant amount of micro- and mesoplastics can be rapidly swept aw