Co-located contemporaneous mapping of morphological, hydrological, chemical, and biological conditions in a 5th-order mountain stream network, Oregon, USA

Adam S. Ward(Indiana University Bloomington), Jay P. Zarnetske(Michigan State University), Viktor Baranov(Urologische Klinik München), Phillip Blaen(Forest Research), Nicolai Brekenfeld(University of Birmingham), Rosalie Chu(Pacific Northwest National Laboratory), Romain Derelle(Genomics (United Kingdom)), Jennifer Drummond(Centre d'Estudis Avançats de Blanes), Jan H. Fleckenstein(Helmholtz Centre for Environmental Research), Vanessa Garayburu‐Caruso(Pacific Northwest National Laboratory), Emily Graham(Pacific Northwest National Laboratory), David M. Hannah(University of Birmingham), C. J. Harman(Johns Hopkins University), Skuyler Herzog(Indiana University Bloomington), Jase Hixson(Indiana University Bloomington), Julia L. A. Knapp(ETH Zurich), Stefan Krause(University of Birmingham), Marie J. Kurz(Helmholtz Centre for Environmental Research), Jörg Lewandowski(Humboldt-Universität zu Berlin), Angang Li(Northwestern University), Eugènia Martı́(Centre d'Estudis Avançats de Blanes), Melinda Miller(Indiana University Bloomington), Alexander M. Milner(University of Birmingham), Kerry Neil(Indiana University Bloomington), Luisa Orsini(Genomics (United Kingdom)), Aaron I. Packman(Northwestern University), Stephen Plont(Virginia Tech), Lupita Renteria(Pacific Northwest National Laboratory), Kevin Roche(University of Notre Dame), Todd V. Royer(Indiana University Bloomington), N. M. Schmadel(United States Geological Survey), Catalina Segura(Oregon State University), James Stegen(Pacific Northwest National Laboratory), Jason Toyoda(Pacific Northwest National Laboratory), Jacqueline Hager(Pacific Northwest National Laboratory), Nathan I. Wisnoski(Indiana University Bloomington), Steven M. Wondzell(Pacific Northwest Research Station)
Earth system science data
October 22, 2019
10.5194/essd-11-1567-2019
Cited by 24Open Access
Full Text

Abstract

Abstract. A comprehensive set of measurements and calculated metrics describing physical, chemical, and biological conditions in the river corridor is presented. These data were collected in a catchment-wide, synoptic campaign in the H. J. Andrews Experimental Forest (Cascade Mountains, Oregon, USA) in summer 2016 during low-discharge conditions. Extensive characterization of 62 sites including surface water, hyporheic water, and streambed sediment was conducted spanning 1st- through 5th-order reaches in the river network. The objective of the sample design and data acquisition was to generate a novel data set to support scaling of river corridor processes across varying flows and morphologic forms present in a river network. The data are available at https://doi.org/10.4211/hs.f4484e0703f743c696c2e1f209abb842 (Ward, 2019).

Related Papers

No related papers found

Powered by citation graph analysis