Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Wang, Q X
Xu, C L
Sun, H
Ma, L
Li, L
Zhang, D D
and
Zhang, Y Y
2016.
Analysis of the relationship between rusty root incidences and soil properties inPanax ginseng.
IOP Conference Series: Earth and Environmental Science,
Vol. 41,
Issue. ,
p.
012001.
Zhou, Ying
Yang, Zhenming
Gao, Lingling
Liu, Wen
Liu, Rongkun
Zhao, Junting
and
You, Jiangfeng
2017.
Changes in element accumulation, phenolic metabolism, and antioxidative enzyme activities in the red-skin roots of Panax ginseng.
Journal of Ginseng Research,
Vol. 41,
Issue. 3,
p.
307.
Wang, Qiuxia
Sun, Hai
Xu, Chenglu
Ma, Lin
Li, Meijia
Shao, Cai
Guan, Yiming
Liu, Ning
Liu, Zhengbo
Zhang, Shuna
Zhang, Linlin
and
Zhang, Yayu
2019.
Analysis of rhizosphere bacterial and fungal communities associated with rusty root disease of Panax ginseng.
Applied Soil Ecology,
Vol. 138,
Issue. ,
p.
245.
Liu, Defei
Sun, Huanjun
and
Ma, Hongwu
2019.
Deciphering Microbiome Related to Rusty Roots of Panax ginseng and Evaluation of Antagonists Against Pathogenic Ilyonectria.
Frontiers in Microbiology,
Vol. 10,
Issue. ,
Ma, Rui
Jiang, Rui
Chen, Xuenan
Zhao, Daqing
Li, Tong
and
Sun, Liwei
2019.
Proteomics analyses revealed the reduction of carbon- and nitrogen-metabolism and ginsenoside biosynthesis in the red-skin disorder of Panax ginseng.
Functional Plant Biology,
Vol. 46,
Issue. 12,
p.
1123.
Gong, Li
Gao, Jie
Xu, Tianshu
Qu, Jialin
Wang, Zhengbiao
Yang, Zhenming
and
You, Jiangfeng
2020.
Transcriptome analysis of field-grown Asian ginseng provides clues to environmental conditions and developmental mechanisms related to red skin root syndrome.
Industrial Crops and Products,
Vol. 153,
Issue. ,
p.
112486.
Bian, Xingbo
Xiao, Shengyuan
Zhao, Yan
Xu, Yonghua
Yang, He
and
Zhang, Lianxue
2020.
Comparative analysis of rhizosphere soil physiochemical characteristics and microbial communities between rusty and healthy ginseng root.
Scientific Reports,
Vol. 10,
Issue. 1,
Ma, Rui
Fu, Baoyu
Song, Shikuan
Zhang, Chunyang
Yuan, Xiajun
Zhang, Tingshi
Zhao, Daqing
and
Sun, Liwei
2021.
Ginsenoside Biosynthesis in Panax Ginseng with Red-Skin Disease Is Inhibited by Soil Characteristics.
Journal of Soil Science and Plant Nutrition,
Vol. 21,
Issue. 3,
p.
2264.
Luo, Ming
Li, Aixin
Wang, Feiqi
Jiang, Junfeng
Wang, Zhengbiao
and
You, Jiangfeng
2022.
Integrative analysis of multiple metabolomes and transcriptome revealed color expression mechanism in red skin root syndrome of Panax ginseng.
Industrial Crops and Products,
Vol. 177,
Issue. ,
p.
114491.
XU, Yonghua
LIU, Chenyang
BAO, Jingshan
ZHU, He
CHEN, Yuanhui
LUO, Yunqing
and
ZHANG, Lianxue
2022.
Microbial diversity and physicochemical properties in farmland soils amended by effective microorganisms and fulvic acid for cropping Asian ginseng.
Notulae Botanicae Horti Agrobotanici Cluj-Napoca,
Vol. 50,
Issue. 1,
p.
12563.
Lei, Huixia
Sun, Hai
Zhang, Zhenghai
Li, Meijia
Shao, Cai
Jin, Qiao
Liang, Hao
Wu, Huping
Ruan, Yinyin
and
Zhang, Yayu
2022.
Effects of soil moisture on plant growth and ginsenoside production of Panax ginseng C.A.Meyer.
European Journal of Horticultural Science,
Vol. 87,
Issue. 6,
p.
1.
Guan, Yongxia
Fan, Jianwei
Sun, Chenghong
Yang, Yiqing
Quan, Jianye
Zhang, Guimin
and
Guo, Na
2022.
Differences in the chemical composition of Panax ginseng roots infected with red rust.
Journal of Ethnopharmacology,
Vol. 283,
Issue. ,
p.
114610.
Tong, Aizi
Liu, Wei
Wang, Haijiao
Liu, Xiaoliang
Xia, Guangqing
and
Zhu, Junyi
2023.
Transcriptome analysis provides insights into the cell wall and aluminum toxicity related to rusty root syndrome of Panax ginseng.
Frontiers in Plant Science,
Vol. 14,
Issue. ,