Jialin Hu

Works (4)

Updated: July 30th, 2024 08:31

2024 journal article

Multi-amplicon nitrogen cycling gene standard: An innovative approach for quantifying N-transforming soil microbes in terrestrial ecosystems

SOIL BIOLOGY & BIOCHEMISTRY, 195.

By: C. Gillespie n, T. Sit n, A. Loucanides n, J. Hu n, B. Matusko n, N. Terwilliger n, W. Shi n, S. Steffen n, A. Woodley n, S. Hu n

author keywords: Climate -smart agriculture; Nitrogen -cycling genes; DNA extraction efficiency; Microbial abundance; Multi-amplicon standard
UN Sustainable Development Goal Categories
Sources: Web Of Science, ORCID, NC State University Libraries
Added: May 15, 2024

2024 journal article

Soil dependence of biochar composts in mitigating greenhouse gas emissions: An overlooked biophysical mechanism

APPLIED SOIL ECOLOGY, 198.

By: J. Hu n, K. Cyle n, W. Yuan n & W. Shi n

author keywords: Carbon sequestration; Enzyme activity; Nitrogen cycle; Nitrous oxide; Soil texture; Composting
UN Sustainable Development Goal Categories
2. Zero Hunger (Web of Science)
13. Climate Action (Web of Science)
15. Life on Land (Web of Science)
Sources: Web Of Science, NC State University Libraries
Added: May 28, 2024

2023 journal article

Abundance, diversity, and composition of root-associated microbial communities varied with tall fescue cultivars under water deficit

FRONTIERS IN MICROBIOLOGY, 13.

By: J. Hu n, G. Miller n & W. Shi n

author keywords: drought; cultivar; Actinobacteria; Basidiomycota; turfgrass; plant-microbe interactions
TL;DR: Describing drought-responsive bacteria and fungi in the roots and rhizosphere of different tall fescue cultivars sheds important insight into the potential use of endophytic microbes for screening drought-adaptive genotypes and cultivars. (via Semantic Scholar)
UN Sustainable Development Goal Categories
2. Zero Hunger (Web of Science)
6. Clean Water and Sanitation (OpenAlex)
Sources: Web Of Science, NC State University Libraries
Added: February 13, 2023

2023 journal article

Water deficits shape the microbiome of Bermudagrass roots to be Actinobacteria rich

FEMS MICROBIOLOGY ECOLOGY, 99(5).

By: J. Hu n, K. Cyle n, G. Miller n & W. Shi n

author keywords: Actinobacteria; drought; microbial community; plant-microbe interactions; Streptomyces; turfgrass
MeSH headings : Cynodon; Soil Microbiology; Actinobacteria / genetics; Bacteria / genetics; Microbiota / genetics; Rhizosphere; Soil; Plant Roots / microbiology
TL;DR: The data suggest that the root endophytic Actinobacteria are likely the key players to improve bermudagrass fitness under drought by modulating phytohormone ethylene production, scavenging reactive oxygen species, or ameliorating nutrient acquisition. (via Semantic Scholar)
UN Sustainable Development Goal Categories
2. Zero Hunger (Web of Science)
Sources: Web Of Science, ORCID, NC State University Libraries
Added: March 28, 2023

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