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"This volume of essays, all authored by practicing Jungian psychoanalysts, examines and illuminates ways of working with individual analytic and therapeutic clients in the context of powerful and current collective forces, in the United States and beyond. One of Carl Jung's central achievements was his clear recognition that the psyche is a locus not only of individual and personal experiences but also of social, collective, and even cosmological experiences. This important insight on Jung's part both opens broad vistas for psychoanalytic practice and poses potential challenges for the psychoanalytic practitioner attempting to understand and aid the individual client amidst the pressure of intense collective energies, especially amidst collective crises. Among the themes treated in this volume are principles of non-violence, environmental activism, feminism, ecological shifts due to the pandemic, mass shootings, industrial farming of animals, and death anxiety. 'Jungian Analysis in a World on Fire' will be of interest to Jungian, psychoanalytic, and depth-oriented analysts and therapists engaged in how best to work with individual clients in a time of social, political, and environmental crisis. It will also be valuable for scholars interested in understanding the impact of contemporary, collective traumas on individual psychology"--

The ubiquitous presence of plastic debris in the ocean is widely recognized by the public, scientific communities, and government agencies. However, only recently have microplastics in freshwater systems, such as rivers and lakes, been quantified. Microplastic sampling at the surface usually consists of deploying drift nets behind either a stationary or moving boat, which limits the sampling to environments with low levels of suspended sediments and floating or submerged debris. Previous studies that employed drift nets to collect microplastic debris typically used nets with ≥300 µm mesh size, allowing plastic debris (particles and fibers) below this size to pass through the net and elude quantification. The protocol detailed here enables: 1) sample collection in environments with high suspended loads and floating or submerged debris and 2) the capture and quantification of microplastic particles and fibers <300 µm. Water samples were collected using a peristaltic pump in low-density polyethylene (PE) containers to be stored before filtering and analysis in the lab. Filtration was done with a custom-made microplastic filtration device containing detachable union joints that housed nylon mesh sieves and mixed cellulose ester membrane filters. Mesh sieves and membrane filters were examined with a stereomicroscope to quantify and separate microplastic particulates and fibers. These materials were then examined using a micro-attenuated total reflectance Fourier transform infrared spectrometer (micro ATR-FTIR) to determine microplastic polymer type. Recovery was measured by spiking samples using blue PE particulates and green nylon fibers; percent recovery was determined to be 100% for particulates and 92% for fibers. This protocol will guide similar studies on microplastics in high velocity rivers with high concentrations of sediment. With simple modifications to the peristaltic pump and filtration device, users can collect and analyze various sample volumes and particulate sizes.