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Paul Dijkstra
Researcher at Northern Arizona University
Publications - 133
Citations - 7243
Paul Dijkstra is an academic researcher from Northern Arizona University. The author has contributed to research in topics: Ecosystem & Soil water. The author has an hindex of 42, co-authored 121 publications receiving 5934 citations. Previous affiliations of Paul Dijkstra include Kennedy Space Center & University of Groningen.
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Responses of terrestrial ecosystems to temperature and precipitation change: a meta-analysis of experimental manipulation.
TL;DR: In this paper, the authors used metaanalysis to synthesize ecosystem-level responses to warming, altered precipitation, and their combination, focusing on plant growth and ecosystem carbon (C) balance, including biomass, net primary production (NPP), respiration, net ecosystem exchange (NEE), and ecosystem photosynthesis.
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The effect of elevated CO2 on the chemical composition and construction costs of leaves of 27 C3 species
Hendrik Poorter,Y. Van Berkel,Robert Baxter,J den Hertog,Paul Dijkstra,R. M. Gifford,Kevin L. Griffin,Catherine Roumet,Jacques Roy,S. C. Wong +9 more
TL;DR: In this paper, the proximate chemical composition as well as the construction costs of leaves of 27 species, grown at ambient and at a twice-ambient partial pressure of atmospheric CO2, were determined.
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13C and 15N natural abundance of the soil microbial biomass
Paul Dijkstra,Ayaka Ishizu,Richard R. Doucett,Stephen C. Hart,Egbert Schwartz,Oleg V. Menyailo,Bruce A. Hungate +6 more
TL;DR: In this paper, a new approach was developed to determine the natural abundance C and N isotope composition of the microbial biomass across a broad range of soil types, vegetation, and climates.
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Accelerated microbial turnover but constant growth efficiency with warming in soil
Shannon B. Hagerty,Kees Jan van Groenigen,Steven D. Allison,Bruce A. Hungate,Egbert Schwartz,George W. Koch,Randall K. Kolka,Paul Dijkstra +7 more
TL;DR: Research now shows that microbial growth efficiency is insensitive to temperature change and that the response of microbial respiration to warming is driven by accelerated microbial turnover and enzyme kinetics.
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A Comprehensive Census of Microbial Diversity in Hot Springs of Tengchong, Yunnan Province China Using 16S rRNA Gene Pyrosequencing
Weiguo Hou,Shang Wang,Hailiang Dong,Hailiang Dong,Hongchen Jiang,Brandon R. Briggs,Joseph P. Peacock,Qiuyuan Huang,Liuqin Huang,Geng Wu,Xiao-Yang Zhi,Wen-Jun Li,Jeremy A. Dodsworth,Brian P. Hedlund,Chuanlun Zhang,Chuanlun Zhang,Hilairy E. Hartnett,Paul Dijkstra,Bruce A. Hungate +18 more
TL;DR: A comprehensive, cultivation-independent census of microbial communities in 37 samples collected from these geothermal fields, encompassing sites ranging in temperature from 55.1 to 93.6°C, in pH from 2.5 to 9.4, and in mineralogy from silicates in Rehai to carbonates in Ruidian significantly expands the current understanding of the microbiology in Tengchong hot springs.