Publications by authors named "Louis J Skovsholt"
Article Synopsis
- Understanding the effects of eutrophication on stream macrophytes is essential for effective environmental management, but their response is complicated due to various habitat factors like light and flow.
- The study examined macrophyte communities in 30 lowland streams, specifically looking at water quality, internal nutrient status, and additional land use data to analyze the impact of eutrophication.
- Results indicated that non-native plant species dominate eutrophic streams, with specific growth strategies correlating to different nutrient conditions, highlighting the complex relationships between macrophyte abundance and eutrophication dynamics.
Motivated by stream ecosystem degradation by eutrophication, we mimicked slow flowing lowland stream conditions with a novel experimental setup to further our understanding of aquatic plant responses to increases in nitrate and light. We conducted a mesocosm growth experiment of two species from the genus : (alien) and (native), grown at four nitrate and four light levels. We hypothesised that (i) internal nutrient status of the plants would scale with water column nutrient concentration, and that (ii) plant performance would reflect the nutrient status of the plant.
View Article and Find Full Text PDFIn the Arctic, climate changes contribute to enhanced mobilization of organic matter in streams. Microbial extracellular enzymes are important mediators of stream organic matter processing, but limited information is available on enzyme processes in this remote area. Here, we studied the variability of microbial extracellular enzyme activity in high-Arctic fluvial biofilms.
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