E
Emily H. Stanley
Researcher at University of Wisconsin-Madison
Publications - 171
Citations - 13599
Emily H. Stanley is an academic researcher from University of Wisconsin-Madison. The author has contributed to research in topics: Dam removal & Ecosystem. The author has an hindex of 57, co-authored 162 publications receiving 11705 citations. Previous affiliations of Emily H. Stanley include Arizona State University & Oklahoma State University–Stillwater.
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The functional significance of the hyporheic zone in streams and rivers
TL;DR: The hyporheic corridor concept describes gradients at the catchment scale, extending to alluvial aquifers kilometers from the main channel as discussed by the authors, which is an active ecotone between the surface stream and groundwater.
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State of the world's freshwater ecosystems: physical, chemical, and biological changes.
TL;DR: In this article, a natural capital framework is used to assess freshwater ecosystem health and to understand the causes and consequences of change as well as the correctives for adverse change in any given watershed.
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Process-Based Ecological River Restoration: Visualizing Three-Dimensional Connectivity and Dynamic Vectors to Recover Lost Linkages
G. Mathias Kondolf,Andrew J. Boulton,S. J. O'Daniel,Geoffrey C. Poole,Frank J. Rahel,Emily H. Stanley,Ellen Wohl,Åsa Bång,Julia Carlström,Chiara Cristoni,Harald Huber,Saija Koljonen,Pauliina Louhi,Keigo Nakamura +13 more
TL;DR: In this article, the authors developed conceptual models and used simple bivariate plots to visualize human impacts and restoration efforts in terms of connectivity and flow dynamics, and found that human-induced changes in longitudinal, lateral, and vertical connectivity are often accompanied by changes in flow dynamics.
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Ecosystem Expansion and Contraction in Streams Desert streams vary in both space and time and fluctuate dramatically in size
TL;DR: Water loss is not unique to desert streams, because intermittent streams are found in many different environments and increasing demands on a finite water supply arc increasing the likelihood of drying in streams and rivers worldwide as discussed by the authors.
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Landscape indicators of human impacts to riverine systems
TL;DR: A review of chemical, biotic, hydrologic and physical habitat assessment approaches commonly used in riverine systems can be found in this paper, where the authors discuss how landscape indicators can be used to assess the status of rivers.