J
John S. King
Researcher at North Carolina State University
Publications - 140
Citations - 8879
John S. King is an academic researcher from North Carolina State University. The author has contributed to research in topics: Soil carbon & Soil water. The author has an hindex of 46, co-authored 136 publications receiving 7952 citations. Previous affiliations of John S. King include University of Antwerp & Michigan Technological University.
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Journal ArticleDOI
Forest response to elevated CO2 is conserved across a broad range of productivity.
Richard J. Norby,Evan H. DeLucia,Birgit Gielen,Carlo Calfapietra,Christian P. Giardina,John S. King,Joanne Ledford,Heather R. McCarthy,David J. P. Moore,Reinhart Ceulemans,Paolo De Angelis,Adrien C. Finzi,David F. Karnosky,Mark E. Kubiske,Martin Lukac,Kurt S. Pregitzer,Giuseppe Scarascia-Mugnozza,William H. Schlesinger,Ram Oren +18 more
TL;DR: The surprising consistency of response across diverse sites provides a benchmark to evaluate predictions of ecosystem and global models and allows us to focus on unresolved questions about carbon partitioning and retention, and spatial variation in NPP response caused by availability of other growth limiting resources.
Journal ArticleDOI
Responses of tree fine roots to temperature
TL;DR: It is hypothesized that root growth and root respiration are tightly linked to whole-canopy assimilation through complex source–sink relationships within the plant, even though it is well known that multiple growth-limiting resources change simultaneously through time during a typical growing season.
Journal ArticleDOI
Leaf Area and Above- and Belowground Growth Responses of Loblolly Pine to Nutrient and Water Additions
TL;DR: A 2 x 2 nutrient and water factorial experiment with four replications was installed in an 8-yr-old stand of Ioblolly pine growing on an infertile, excessively drained sandy site in Scotland County, North Carolina, and observed an increase in stem volume growth efficiency.
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Simple additive effects are rare: a quantitative review of plant biomass and soil process responses to combined manipulations of CO2 and temperature.
Wouter Dieleman,Wouter Dieleman,Sara Vicca,Feike A. Dijkstra,Frank Hagedorn,Mark J. Hovenden,Klaus Steenberg Larsen,Jack A. Morgan,Astrid Volder,Claus Beier,Jeffrey S. Dukes,John S. King,John S. King,Sebastian Leuzinger,Sebastian Leuzinger,Sune Linder,Yiqi Luo,Ram Oren,Ram Oren,Paolo De Angelis,David T. Tingey,Marcel R. Hoosbeek,Ivan A. Janssens +22 more
TL;DR: Because single factor CO2 responses often dominated over warming responses in the combined treatments, the results suggest that projected responses to future global warming in Earth System models should not be parameterized using single factor warming experiments.
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Tropospheric O3 moderates responses of temperate hardwood forests to elevated CO2: a synthesis of molecular to ecosystem results from the Aspen FACE project
David F. Karnosky,Donald R. Zak,Kurt S. Pregitzer,Kurt S. Pregitzer,Caroline S. Awmack,James G. Bockheim,Richard E. Dickson,George R. Hendrey,George E Host,John S. King,Brian J. Kopper,Eric L. Kruger,Mark E. Kubiske,Richard L. Lindroth,William J. Mattson,Evan P. McDonald,Asko Noormets,Elina Oksanen,William F. J. Parsons,Kevin E. Percy,Gopi K. Podila,Don E. Riemenschneider,P. Sharma,Ramesh Thakur,Anu Sõber,Jaak Sober,Wendy S. Jones,S. Anttonen,Elina Vapaavuori,B. Mankovska,Warren E. Heilman,J. G. Isebrands +31 more
TL;DR: O 3 at 1·5 × ambient completely offset the growth enhancement by CO 2 , both for O 3 -sensitive and O 2 -tolerant clones and across various trophic levels, and implications for carbon sequestration, plantations to reduce excess CO 2, and global models of forest productivity and climate change are presented.