Publications by authors named "Kathryn M Schreiner"
Article Synopsis
- Dead fungal cells, referred to as necromass, contribute significantly to long-term soil carbon pools, but the genes responsible for their decomposition are not well understood.
- * The study focused on the fungus Trichoderma reesei and its response to low and high melanin levels in the necromass of another fungus, Hyaloscypha bicolor, revealing over 100 up-regulated genes for carbohydrate-active enzymes (CAZymes) in the presence of necromass compared to glucose.
- * Differential expression of specific genes related to proteases and laccases was noted, particularly linked to the breakdown of melanin, offering insights into the factors affecting carbon turnover rates in this underexplored area of soil biology.
Microplastic pollution (plastic particles < 5 mm) has potentially harmful impacts on aquatic ecosystems. Understanding the factors that impact microplastic loading and distribution within aquatic ecosystems is crucial for assessing potential threats from microplastics. Here we examine the extent of microplastic pollution in the surface waters and sediments of four small inland lakes in Minnesota, USA that represent a range of human impacts as well as a variety of watershed and lake characteristics.
View Article and Find Full Text PDFHarmful algal blooms (HABs) are increasing globally in frequency, persistence, and geographic extent, posing a threat to ecosystem and human health. To date, no occurrences of marine phycotoxins have been recorded in Mozambique, which may be due to absence of a monitoring program and general awareness of potential threats. This study is the first documentation of neurotoxin, domoic acid (DA), produced by the diatom along the east coast of Africa.
View Article and Find Full Text PDFUnderstanding the post-senescent fate of fungal mycelium is critical to accurately quantifying forest carbon and nutrient cycling, but how this organic matter source decomposes in wood remains poorly studied. In this study, we compared the decomposition of dead fungal biomass (a.k.
View Article and Find Full Text PDFIn response to warming climate, methane can be released to Arctic Ocean sediment and waters from thawing subsea permafrost and decomposing methane hydrates. However, it is unknown whether methane derived from this sediment storehouse of frozen ancient carbon reaches the atmosphere. We quantified the fraction of methane derived from ancient sources in shelf waters of the U.
View Article and Find Full Text PDFIndustrially produced carbon-based nanomaterials (CNM), including fullerenes and nanotubes, will be introduced into the environment in increasing amounts in the next decades. One likely environmental chemical transformation of C60 is oxidation to C60 fullerol through both abiotic- and biotic-mediated means. Unfortunately, knowledge of the environmental fate of oxidized CNM is lacking.
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