Works (6)

Updated: July 29th, 2023 21:15

2019 journal article

3D point cloud data to quantitatively characterize size and shape of shrub crops

HORTICULTURE RESEARCH, 6.

By: Y. Jiang*, C. Li*, F. Takeda*, E. Kramer*, H. Ashrafi n & J. Hunter*

TL;DR: The processing pipeline of 3D point cloud data presented in this study is an effective tool for blueberry breeding programs (in particular for mechanical harvesting) and farm management and provides a promising tool to evaluate and manage varieties of blueberries and similar crops, though further work is needed to speed up data collection. (via Semantic Scholar)
Sources: Web Of Science, NC State University Libraries
Added: July 15, 2019

2019 journal article

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

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

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

2018 journal article

Contrasting Warming and Ozone Effects on Denitrifiers Dominate Soil N2O Emissions

ENVIRONMENTAL SCIENCE & TECHNOLOGY, 52(19), 10956–10966.

By: Y. Qu, Y. Jiang n, L. Guo n, K. Burkey n, R. Zobel n, H. Shew n, S. Hu n

MeSH headings : Greenhouse Gases; Nitrous Oxide; Ozone; Soil; Soil Microbiology
TL;DR: It is suggested that warming may promote N2O production through increasing both the abundance and activities of N 2O-producing microbes, positively feeding back to the ongoing climate change. (via Semantic Scholar)
UN Sustainable Development Goal Categories
2. Zero Hunger (Web of Science)
13. Climate Action (Web of Science)
Sources: Web Of Science, NC State University Libraries
Added: October 19, 2018

2018 journal article

Limited potential of harvest index improvement to reduce methane emissions from rice paddies

GLOBAL CHANGE BIOLOGY, 25(2), 686–698.

By: Y. Jiang*, H. Qian*, L. Wang*, J. Feng*, S. Huang*, B. Hungate*, C. Kessel*, W. Horwath* ...

author keywords: climate change; food security; greenhouse gases; meta-analysis; water management
MeSH headings : Air Pollutants / analysis; Air Pollution / prevention & control; Crop Production / methods; Environmental Restoration and Remediation / methods; Greenhouse Gases / analysis; Methane / analysis; Oryza / growth & development
TL;DR: The potential of CH4 mitigation from rice paddies through HI improvement is in fact small and it is estimated that future plant breeding efforts aimed at HI improvement to the theoretical maximum value will reduce CH4 emissions in CF systems by 4.4%. (via Semantic Scholar)
UN Sustainable Development Goal Categories
2. Zero Hunger (Web of Science; OpenAlex)
13. Climate Action (Web of Science)
14. Life Below Water (Web of Science)
Sources: Web Of Science, NC State University Libraries
Added: February 4, 2019

2017 journal article

Nonlinear response of soil ammonia emissions to fertilizer nitrogen

Biology and Fertility of Soils, 53(3), 269–274.

By: Y. Jiang, A. Deng, S. Bloszies, S. Huang & W. Zhang

Source: NC State University Libraries
Added: August 6, 2018

2016 journal article

Optimizing rice plant photosynthate allocation reduces N2O emissions from paddy fields

SCIENTIFIC REPORTS, 6.

By: Y. Jiang*, X. Huang*, X. Zhang*, X. Zhang*, Y. Zhang*, C. Zheng*, A. Deng*, J. Zhang* ...

MeSH headings : Biomass; Carbon / metabolism; Edible Grain / genetics; Edible Grain / growth & development; Edible Grain / metabolism; Metabolic Engineering; Nitrogen / metabolism; Nitrous Oxide / metabolism; Oryza / genetics; Oryza / growth & development; Oryza / metabolism; Photosynthesis; Plants, Genetically Modified / genetics; Plants, Genetically Modified / growth & development; Plants, Genetically Modified / metabolism
TL;DR: It is demonstrated that optimizing photosynthate allocation to the grain can reduce paddy N2O emissions through decreasing belowground C input and increasing plant N uptake, suggesting the potential for genetic and agronomic efforts to produce more rice with less N 2O emissions. (via Semantic Scholar)
Sources: Web Of Science, NC State University Libraries
Added: August 6, 2018

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