It has long been established that the spatial scale of inquiry affects the ecological patterns that are revealed.
PET is a ubiquitous material because of its robust properties. Today, less than 30% of PET bottles and few carpets are recycled in the United States, leading to the majority of PET being landfilled.
Although the study of the effects of microplastics increased in the last years, terrestrial ecosystems remain less studied.
Tire materials are a significant proportion of the (micro)plastics in the environment that until today have been clearly overlooked.
The built environment is responsible for large negative ecological impacts due in part to the vast amount of materials used in construction.
There is worldwide concern about the environmental costs of conventional intensification of agriculture.
Following a decade of research on the environmental impacts of microplastics, a knowledge gap remains on the processes by which micro and nanoplastics pass across biological barriers, enter cells and
Characterising microplastics based on spectroscopic measurements is one key step of many studies that analyse the fate of microplastics in the environment.
Microplastics (MP) (