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Kyle R. Christianson
Researcher at Colorado State University
Publications - 16
Citations - 291
Kyle R. Christianson is an academic researcher from Colorado State University. The author has contributed to research in topics: Climate change & Environmental science. The author has an hindex of 7, co-authored 12 publications receiving 163 citations. Previous affiliations of Kyle R. Christianson include Institute of Arctic and Alpine Research & Colorado Parks and Wildlife.
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Journal ArticleDOI
Mountain lakes: Eyes on global environmental change
Katrina A. Moser,Jill S. Baron,Janice Brahney,Isabella A. Oleksy,Jasmine E. Saros,Elizabeth J. Hundey,Steve Sadro,Jiří Kopáček,Ruben Sommaruga,Martin J. Kainz,Angela L. Strecker,Sudeep Chandra,David M. Walters,Daniel L. Preston,Neal Michelutti,Fabio Lepori,Sarah A. Spaulding,Kyle R. Christianson,John M. Melack,John P. Smol +19 more
TL;DR: A review and update of the growing body of research that shows that sediments in remote mountain lakes archive regional and global environmental changes, including those linked to climate change, altered biogeochemical cycles, and changes in dust composition and deposition, atmospheric fertilization, and biological manipulations can be found in this paper.
Journal ArticleDOI
The role of warm, dry summers and variation in snowpack on phytoplankton dynamics in mountain lakes.
Isabella A. Oleksy,Isabella A. Oleksy,Whitney S. Beck,Roderick W. Lammers,Cara Steger,Codie Wilson,Kyle R. Christianson,Kim Vincent,Gunnar Johnson,Pieter T. J. Johnson,Jill S. Baron,Jill S. Baron +11 more
TL;DR: Although links between snowpack, lake temperature, nutrients, and organic‐matter dynamics are increasingly recognized as critical drivers of change in high‐elevation lakes, the results highlight the additional influence of summer conditions on lake productivity in response to ongoing changes in climate.
Journal ArticleDOI
Environmental DNA Marker Development with Sparse Biological Information: A Case Study on Opossum Shrimp (Mysis diluviana).
Kellie J. Carim,Kyle R. Christianson,Kevin M McKelvey,William M. Pate,Douglas B. Silver,Brett M. Johnson,Benjamin T Galloway,Michael K. Young,Michael K. Schwartz +8 more
TL;DR: A pair of independent eDNA markers are developed to increase the likelihood of a positive detection of M. diluviana when present and reduce the probability of false positive detections from closely related non-target species.
Posted ContentDOI
A framework for ensemble modelling of climate change impacts on lakes worldwide: the ISIMIP Lake Sector
Malgorzata Golub,Wim Thiery,Rafael Marcé,Donald C. Pierson,Inne Vanderkelen,Daniel Mercado,R. Iestyn Woolway,Luke Grant,Eleanor Jennings,Jacob Schewe,Fang Zhao,Katja Frieler,Matthias Mengel,V. Bogomolov,Damien Bouffard,Raoul-Marie Couture,Andrey Debolskiy,Bram Droppers,Gideon Gal,Mingyang Guo,Annette B.G. Janssen,Georgiy Kirillin,Robert Ladwig,Madeline R. Magee,Tadhg N. Moore,Marjorie Perroud,Sebastiano Piccolroaz,Love Raaman Vinnaa,Martina Schmidt,Tom Shatwell,Victor Stepanenko,Zeli Tan,Huaxia Yao,Rita Adrian,Mathew Grant Allan,Orlane Anneville,Lauri Arvola,Karen S. Atkins,Leon Boegman,Cayelan C. Carey,Kyle R. Christianson,Elvira de Eyto,Curtis L. DeGasperi,M. G. Grechushnikova,Josef Hejzlar,Klaus Joehnk,Ian D. Jones,Alo Laas,Eleanor B. Mackay,Ivan Mammarella,H. Markensten,Chris G. McBride,Deniz Özkundakci,Miguel Potes,Karsten Rinke,Dale Laurel Robertson,James A. Rusak,Rui Salgado,Leon van den Linden,Piet Verburg,Danielle J. Wain,Nicole K. Ward,Sabine Wollrab,Galina Zdorovennova +63 more
TL;DR: The Lake Sector of the Inter-Sectoral Impact Model Intercomparison Project (ISIMIP) as discussed by the authors is the largest effort to project future water temperature, thermal structure, and ice phenology of lakes at local and global scales and paves the way for future simulations of the impacts of climate change on water quality and biogeochemistry in lakes.
Journal ArticleDOI
Compound effects of water clarity, inflow, wind and climate warming on mountain lake thermal regimes
TL;DR: This article used the General Lake Model to simulate future thermal conditions (relative thermal resistance to mixing; RTRM) of small mountain lakes of the western United States by calibrating the model to a set of lakes in the Southern Rocky Mountains, USA.