Yunpeng Qiu

Works (7)

Updated: June 11th, 2024 08:18

2023 article

Mycorrhizae enhance reactive minerals but reduce mineral-associated carbon

Li, H., Yu, G.-H., Hao, L., Qiu, Y., & Hu, S. (2023, July 25). GLOBAL CHANGE BIOLOGY, Vol. 7.

By: H. Li n, G. Yu n, L. Hao*, Y. Qiu n & S. Hu n

author keywords: arbuscular mycorrhizal fungi; Glomus; litter decomposition; microbial community; mineral-associated organic carbon; soil carbon persistence
UN Sustainable Development Goal Categories
2. Zero Hunger (Web of Science)
15. Life on Land (Web of Science)
Sources: Web Of Science, NC State University Libraries
Added: August 28, 2023

2021 journal article

Warming and elevated ozone induce tradeoffs between fine roots and mycorrhizal fungi and stimulate organic carbon decomposition

SCIENCE ADVANCES, 7(28).

By: Y. Qiu n, L. Guo n, X. Xu*, L. Zhang*, K. Zhang*, M. Chen*, Y. Zhao*, K. Burkey n ...

TL;DR: It is shown that warming, eO3, and their combination induce tradeoffs between roots and their symbiotic arbuscular mycorrhizal fungi (AMF) and stimulate organic C decomposition in a nontilled soybean agroecosystem and how these responses may modulate soil organic C dynamics under future climate change scenarios is provided. (via Semantic Scholar)
UN Sustainable Development Goal Categories
2. Zero Hunger (Web of Science)
15. Life on Land (Web of Science)
Sources: Web Of Science, NC State University Libraries
Added: July 26, 2021

2020 journal article

Simulated warming enhances the responses of microbial N transformations to reactive N input in a Tibetan alpine meadow

ENVIRONMENT INTERNATIONAL, 141.

By: Y. Zhang*, N. Zhang*, J. Yin*, Y. Zhao*, F. Yang*, Z. Jiang*, J. Tao*, X. Yan* ...

author keywords: Alpine meadow; Climate warming; Nitrogen addition; N2O emission; Ammonia-oxidizing archaea; Ammonia-oxidizing bacteria
MeSH headings : Carbon; Ecosystem; Grassland; Nitrogen; Soil; Soil Microbiology; Tibet
TL;DR: It is shown that a small temperature increase in soil may significantly enhance N losses through NO3- leaching and N2O emissions when mineral N becomes available and interactions among global change factors may predominantly affect ammonia-oxidizing microbes and their mediated N-cycling processes in alpine ecosystems under future climate change scenarios. (via Semantic Scholar)
UN Sustainable Development Goal Categories
2. Zero Hunger (Web of Science)
13. Climate Action (Web of Science)
14. Life Below Water (Web of Science)
15. Life on Land (Web of Science)
Sources: Web Of Science, NC State University Libraries
Added: July 20, 2020

2019 journal article

Biological controls over the abundances of terrestrial ammonia oxidizers

GLOBAL ECOLOGY AND BIOGEOGRAPHY, 29(2), 384–399.

By: R. Xiao*, Y. Qiu n, J. Tao*, X. Zhang n, H. Chen n, S. Reberg-Horton n, W. Shi n, H. Shew n, Y. Zhang*, S. Hu n

author keywords: ammonia-oxidizing archaea; ammonia-oxidizing bacteria; competition; meta-analysis; nitrification; soil C; N ratio
TL;DR: This study provides convincing evidence illustrating that relative carbon to nitrogen availability can predominantly affect the abundances of AOA and AOB, and validate that biotic competition among plants, heterotrophic microbes and ammonia oxidizers for substrate N is the predominant control upon AOAand AOB abundances. (via Semantic Scholar)
UN Sustainable Development Goal Categories
Sources: Web Of Science, NC State University Libraries
Added: December 2, 2019

2019 journal article

Combination of warming and N inputs increases the temperature sensitivity of soil N2O emission in a Tibetan alpine meadow

SCIENCE OF THE TOTAL ENVIRONMENT, 704.

By: Y. Zhang*, N. Zhang*, J. Yin*, F. Yang*, Y. Zhao*, Z. Jiang*, J. Tao*, X. Yan* ...

author keywords: Greenhouse gas emission; Temperature sensitivity; Climate change; Alpine ecosystem
UN Sustainable Development Goal Categories
2. Zero Hunger (Web of Science)
13. Climate Action (Web of Science)
14. Life Below Water (Web of Science)
Sources: Web Of Science, NC State University Libraries
Added: January 21, 2020

2019 journal article

Shifts in the Composition and Activities of Denitrifiers Dominate CO2 Stimulation of N2O Emissions

ENVIRONMENTAL SCIENCE & TECHNOLOGY, 53(19), 11204–11213.

By: Y. Qiu n, Y. Jiang n, L. Guo n, L. Zhang*, K. Burkey n, R. Zobel n, S. Reberg-Horton n, H. Shew n, S. Hui n

MeSH headings : Carbon Dioxide; Denitrification; Nitrogen; Nitrous Oxide; Soil; Soil Microbiology
TL;DR: The results suggest that effective management of N sources may mitigate N2O emissions by negating eCO2-stimulation of soil denitrifying microbes and their activities. (via Semantic Scholar)
UN Sustainable Development Goal Categories
2. Zero Hunger (Web of Science)
13. Climate Action (Web of Science)
14. Life Below Water (Web of Science)
Sources: Web Of Science, NC State University Libraries
Added: October 28, 2019

2016 journal article

CO2-induced alterations in plant nitrate utilization and root exudation stimulate N2O emissions

SOIL BIOLOGY & BIOCHEMISTRY, 106, 9–17.

By: K. Wu n, D. Chen n, C. Tu n, Y. Qiu n, K. Burkey n, S. Reberg-Horton n, S. Peng*, S. Hu n

author keywords: Elevated CO2; Root exudation; Nitrous oxide; N-15 tracer; Ammonium nitrogen (NH4+-N); Nitrate nitrogen (NO3--N); Fertilization management
UN Sustainable Development Goal Categories
13. Climate Action (Web of Science)
Sources: Web Of Science, NC State University Libraries
Added: August 6, 2018

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