Your search keyword '"Zhu, Zhenke"' showing total 330 results

1. Dynamic variation of dissolved As, Sb, Fe and S in paddy soil triggered by nitrate loading to overlaying water

Author

Yuan, Zhao-Feng, Zhang, Sha, Gustave, Williamson, Ge, Tida, Zhu, Zhenke, Shi, Xiaoyu, Tang, Xianjin, and Chen, Zheng

Published

2024

2. Bacterial necromass determines the response of mineral-associated organic matter to elevated CO2

Author

Li, Yuhong, Xiao, Mouliang, Wei, Liang, Liu, Qiong, Zhu, Zhenke, Yuan, Hongzhao, Wu, Jinshui, Yuan, Jun, Wu, Xiaohong, Kuzyakov, Yakov, and Ge, Tida

Published

2024

3. Soil bacterial and protist communities from loquat orchards drive nutrient cycling and fruit yield

Author

Wang, Li, Ji, Jianhong, Zhou, Fei, Wu, Bibo, Zhong, Yingying, Qi, Lin, Wang, Miao, Wu, Yuping, Cui, Xintao, Ge, Tida, and Zhu, Zhenke

Published

2024

4. Microbial mechanisms of organic matter mineralization induced by straw in biochar-amended paddy soil

Author

Liu, Qi, Wu, Cuiyan, Wei, Liang, Wang, Shuang, Deng, Yangwu, Ling, Wenli, Xiang, Wu, Kuzyakov, Yakov, Zhu, Zhenke, and Ge, Tida

Published

2024

5. Extraction optimisation to measure viral abundance in red soils

Author

Yu, Sengxiang, Wang, Shuang, Zhao, Xiaolei, Hu, Can, Wei, Liang, Zhu, Zhenke, Li, Yong, Kuzyakov, Yakov, Chen, Jianping, and Ge, Tida

Published

2023

6. Stoichiometry regulates rice straw-induced priming effect: The microbial life strategies

Author

Liang, Yuqin, Cao, Dan, Ma, Zhi, Wu, Ruiqiao, Zhang, Hongrui, Fang, Yunying, Shahbaz, Muhammad, Liu, Xiao Jun Allen, Kuzyakov, Yakov, Chen, Jianping, Ge, Tida, and Zhu, Zhenke

Published

2024

7. Coupling of microbial-explicit model and machine learning improves the prediction and turnover process simulation of soil organic carbon

Author

Xu, Xuebin, Wang, Xianting, Zhou, Ping, Zhu, Zhenke, Wei, Liang, Wang, Shuang, Rathinapriya, Periyasamy, Bei, Qicheng, Feng, Jinfei, Fang, Fuping, Chen, Jianping, and Ge, Tida

Published

2024

8. Contrasting viral diversity and potential biogeochemical impacts in paddy and upland soils

Author

Zhao, Xiaolei, Wang, Shuang, Wang, Li, Zhu, Zhenke, Liu, Yalong, Wang, Jingkuan, Chen, Jianping, and Ge, Tida

Published

2024

9. Iron mineral type controls organic matter stability and priming in paddy soil under anaerobic conditions

Author

Wang, Shuang, Gao, Wei, Ma, Zhi, Zhu, Zhenke, Luo, Yu, Wei, Liang, Yuan, Hongzhao, Chen, Song, Ying, Chaoyun, Mason-Jones, Kyle, Kuzyakov, Yakov, and Ge, Tida

Published

2024

10. Influence of soil N availability on priming effects depending on temperature

Author

Cui, Jun, Wei, Liang, Zhu, Zhenke, Deng, Yangwu, Chen, Song, Kuzyakov, Yakov, and Ge, Tida

Published

2024

11. Microbial carbon and phosphorus metabolism regulated by C:N:P stoichiometry stimulates organic carbon accumulation in agricultural soils

Author

Wang, Xiangxiang, Zhang, Hongrui, Cao, Dan, Wu, Cuiyan, Wang, Xianting, Wei, Liang, Guo, Bin, Wang, Shuang, Ding, Jina, Chen, Hao, Chen, Jianping, Ge, Tida, and Zhu, Zhenke

Published

2024

12. Microbial response to long-term fertilization of paddy soils: Apparent and real priming effects

Author

Liu, Qiong, Zhu, Zhenke, Abdalla, Khatab, Ge, Tida, Wu, Xiaohong, Kuzyakov, Yakov, and Pausch, Johanna

Published

2024

13. Phagotrophic protist-mediated control of Polymyxa graminis in the wheat rhizosphere

Author

Wu, Chuanfa, Ge, Chaonan, Wang, Fangyan, Zhang, Haoqing, Zhu, Zhenke, Lesueur, Didier, Yang, Jian, Chen, Jianping, and Ge, Tida

Published

2023

14. Effects of microplastics on photosynthesized C allocation in a rice-soil system and its utilization by soil microbial groups

Author

Hu, Zhi’e, Xiao, Mouliang, Wu, Jialing, Tong, Yaoyao, Ji, Jianhong, Huang, Qing, Ding, Fan, Ding, Jina, Zhu, Zhenke, Chen, Jianping, and Ge, Tida

Published

2024

15. Intensive N2 fixation accelerates microbial turnover in cropland soils

Author

Gao, Wei, Zhao, Jun, Guo, Xiaobin, Wang, Fang, Chen, Xiangbi, Zhu, Zhenke, Ge, Tida, Wang, Lianfeng, Kuzyakov, Yakov, Wu, Jinshui, and Jia, Zhongjun

Published

2024

16. Combining water-saving and drought-resistant rice with plastic film mulching mitigates CH4 emissions with higher net economic benefits

Author

Zhang, Guangbin, Yang, Yuting, Zhu, Xiaoli, Shen, Wanyu, Zhu, Zhenke, Ge, Tida, Xia, Longlong, Ma, Jing, Lv, Shihua, and Xu, Hua

Published

2024

17. Organic fertilizers incorporation increased microbial necromass accumulation more than mineral fertilization in paddy soil via altering microbial traits

Author

Li, Zhe, Wei, Xiaomeng, Zhu, Zhenke, Fang, Yunying, Yuan, Hongzhao, Li, Yuhong, Zhu, Qihong, Guo, Xiaobin, Wu, Jinshui, Kuzyakov, Yakov, and Ge, Tida

Published

2024

18. Long-term bioorganic and organic fertilization improved soil quality and multifunctionality under continuous cropping in watermelon

Author

Zheng, Xianqing, Wei, Liang, Lv, Weiguang, Zhang, Haoqing, Zhang, Yue, Zhang, Haiyun, Zhang, Hanlin, Zhu, Zhenke, Ge, Tida, and Zhang, Wenju

Published

2024

19. Deciphering differences in microbial community composition and multifunctionality between healthy and Alternaria solani-infected potato rhizosphere soils

Author

Wang, Fangyan, Wang, Fang, Zhang, Haoqing, Qin, Fangjin, Xiang, Wu, Wu, Chuanfa, Yan, Chengqi, Zhu, Zhenke, Chen, Jianping, and Ge, Tida

Published

2023

20. Microplastics affect activity and spatial distribution of C, N, and P hydrolases in rice rhizosphere

Author

Tong, Yaoyao, Ding, Jina, Xiao, Mouliang, Shahbaz, Muhammad, Zhu, Zhenke, Chen, Ming, Kuzyakov, Yakov, Deng, Yangwu, Chen, Jianping, and Ge, Tida

Published

2023

21. Distribution of microplastics in soil aggregates after film mulching

Author

Liu, Yuhuai, Zhong, Yingying, Hu, Can, Xiao, Mouliang, Ding, Fan, Yu, Yongxiang, Yao, Huaiying, Zhu, Zhenke, Chen, Jianping, Ge, Tida, and Ding, Jina

Published

2023

22. Long-term fertilization suppresses rice pathogens by microbial volatile compounds

Author

Liang, Yuqin, Wei, Liang, Wang, Shuang, Hu, Can, Xiao, Mouliang, Zhu, Zhenke, Deng, Yangwu, Wu, Xiaohong, Kuzyakov, Yakov, Chen, Jianping, and Ge, Tida

Published

2023

23. Residence time of carbon in paddy soils

Author

Liu, Yalong, Ge, Tida, Wang, Ping, van Groenigen, Kees Jan, Xu, Xuebin, Cheng, Kun, Zhu, Zhenke, Wang, Jingkuan, Guggenberger, Georg, Chen, Ji, Luo, Yiqi, and Kuzyakov, Yakov

Published

2023

24. Microplastics in soil can increase nutrient uptake by wheat

Author

Liu, Yuhuai, Xiao, Mouliang, Shahbaz, Muhammad, Hu, Zhi’e, Zhu, Zhenke, Lu, Shunbao, Yu, Yongxiang, Yao, Huaiying, Chen, Jianping, and Ge, Tida

Published

2022

25. Decreasing microbial phosphorus limitation increases soil carbon release

Author

Cui, Yongxing, Moorhead, Daryl L., Wang, Xiangxiang, Xu, Mingzhe, Wang, Xia, Wei, Xiaomeng, Zhu, Zhenke, Ge, Tida, Peng, Shushi, Zhu, Biao, Zhang, Xingchang, and Fang, Linchuan

Published

2022

26. Microplastics shape microbial communities affecting soil organic matter decomposition in paddy soil

Author

Xiao, Mouliang, Ding, Ji’na, Luo, Yu, Zhang, Haoqing, Yu, Yongxiang, Yao, Huaiying, Zhu, Zhenke, Chadwick, David R., Jones, Davey, Chen, Jianping, and Ge, Tida

Published

2022

27. Legacy effect of elevated CO2 and N fertilization on mineralization and retention of rice (Oryza sativa L.) rhizodeposit-C in paddy soil aggregates

Author

Li, Yuhong, Yuan, Hongzhao, Chen, Anlei, Xiao, Mouliang, Deng, Yangwu, Ye, Rongzhong, Zhu, Zhenke, Inubushi, Kazuyuki, Wu, Jinshui, and Ge, Tida

Published

2022

28. Sources and intensity of CH4 production in paddy soils depend on iron oxides and microbial biomass

Author

Li, Yuhong, Zhu, Zhenke, Wei, Xiaomeng, Kuzyakov, Yakov, Li, Baozhen, Kim, Pil Joo, Wu, Jinshui, Liu, Shoulong, and Ge, Tida

Published

2022

29. Anaerobic primed CO2 and CH4 in paddy soil are driven by Fe reduction and stimulated by biochar

Author

Liu, Qi, Li, Yuhong, Liu, Shoulong, Gao, Wei, Shen, Jianlin, Zhang, Guangbin, Xu, Hua, Zhu, Zhenke, Ge, Tida, and Wu, Jinshui

Published

2022

30. Subsurface methane dynamics of a paddy field under long-term fertilization: 13C-evidence from in-situ belowground labeling

Author

Wei, Xiaomeng, Fan, Lichao, Li, Yuhong, Wang, Weihua, Zhu, Zhenke, Zhran, Mostafa, Shen, Jianlin, Kim, Pil Joo, Wu, Jinshui, Ge, Tida, and Dorodnikov, Maxim

Published

2021

31. Comparing carbon and nitrogen stocks in paddy and upland soils: Accumulation, stabilization mechanisms, and environmental drivers

Author

Wei, Liang, Ge, Tida, Zhu, Zhenke, Luo, Yu, Yang, Yuanhe, Xiao, Mouliang, Yan, Zhifeng, Li, Yuhong, Wu, Jinshui, and Kuzyakov, Yakov

Published

2021

32. Nitrogen fertilization alters the distribution and fates of photosynthesized carbon in rice–soil systems : a ¹³C-CO₂ pulse labeling study

Author

Xiao, Mouliang, Zang, Huadong, Liu, Shoulong, Ye, Rongzhong, Zhu, Zhenke, Su, Yirong, Wu, Jinshui, and Ge, Tida

Published

2019

33. Expansion of rice enzymatic rhizosphere : temporal dynamics in response to phosphorus and cellulose application

Author

Wei, Xiaomeng, Ge, Tida, Zhu, Zhenke, Hu, Yajun, Liu, Shoulong, Li, Yong, Wu, Jinshui, and Razavi, Bahar S.

Published

2019

34. Nitrogen fertilization increases rice rhizodeposition and its stabilization in soil aggregates and the humus fraction

Author

Luo, Yu, Zhu, Zhenke, Liu, Shoulong, Peng, Peiqin, Xu, Jianming, Brookes, Philip, Ge, Tida, and Wu, Jinshui

Published

2019

35. Carbon and nitrogen availability in paddy soil affects rice photosynthate allocation, microbial community composition, and priming : combining continuous ¹³C labeling with PLFA analysis

Author

Zhao, Ziwei, Ge, Tida, Gunina, Anna, Li, Yuhong, Zhu, Zhenke, Peng, Peiqin, Wu, Jinshui, and Kuzyakov, Yakov

Published

2019

36. Assimilate allocation by rice and carbon stabilisation in soil : effect of water management and phosphorus fertilisation

Author

Atere, Cornelius Talade, Ge, Tida, Zhu, Zhenke, Liu, Shoulong, Huang, Xizhi, Shibsitova, Olga, Guggenberger, Georg, and Wu, Jinshui

Published

2019

37. The stoichiometric C-Fe ratio regulates glucose mineralization and stabilization via microbial processes

Author

Jeewani, Peduruhewa H., Ling, Lu, Fu, Yingyi, Van Zwieten, Lukas, Zhu, Zhenke, Ge, Tida, Guggenberger, Georg, Luo, Yu, and Xu, Jianming

Published

2021

38. Contrasting response of organic carbon mineralisation to iron oxide addition under conditions of low and high microbial biomass in anoxic paddy soil

Author

Li, Yuhong, Shahbaz, Muhammad, Zhu, Zhenke, Chen, Anlei, Nannipieri, Paolo, Li, Baozhen, Deng, Yangwu, Wu, Jinshui, and Ge, Tida

Published

2021

39. Bacterial necromass determines the response of mineral-associated organic matter to elevated CO2.

Author

Li, Yuhong, Xiao, Mouliang, Wei, Liang, Liu, Qiong, Zhu, Zhenke, Yuan, Hongzhao, Wu, Jinshui, Yuan, Jun, Wu, Xiaohong, Kuzyakov, Yakov, and Ge, Tida

Subjects

ORGANIC compounds, FATTY acids, SOIL microbiology, CARBON sequestration

Abstract

Microorganisms regulate soil organic matter (SOM) formation through accumulation and decomposition of microbial necromass, which is directly and indirectly affected by elevated CO2 and N fertilization. We investigated the role of microorganisms in SOM formation by analyzing 13C recovery in microorganisms and carbon pools in paddy soil under two CO2 levels, with and without N fertilization, after continuous 13CO2 labelling was stopped. Microbial turnover transferred 13C from living microbial biomass (determined by the decrease in phospholipid fatty acids) to necromass (determined by the increase in amino sugars). 13C incorporation in fungal living biomass and necromass was higher than that in bacteria. Bacterial turnover was faster than necromass decomposition, resulting in net necromass accumulation over time; fungal necromass remained stable. Elevated CO2 and N fertilization increased the net accumulation of bacterial, but not fungal, necromass. CO2 levels, but not N fertilization, significantly affected 13C incorporation in SOM pools. Elevated CO2 increased 13C in particulate organic matter via the roots, and in the mineral-associated organic matter (MAOM) via bacterial, but not fungal, necromass. Overall, bacterial necromass plays a dominant role in the MAOM formation response to elevated CO2 because bacteria are sensitive to elevated CO2. [ABSTRACT FROM AUTHOR]

Published

2024

40. In situ simultaneous measuring method for the determination of key processes of soil organic carbon cycling: Soil microbial respiration using laser spectrometry

Author

Yuan, Hongzhao, primary, He, Zhen, additional, Zhang, Liping, additional, Wang, Jiurong, additional, Zhu, Zhenke, additional, and Ge, Tida, additional

Published

2023

41. C:N:P stoichiometry regulates soil organic carbon mineralization and concomitant shifts in microbial community composition in paddy soil

Author

Wei, Xiaomeng, Zhu, Zhenke, Liu, Yi, Luo, Yu, Deng, Yangwu, Xu, Xingliang, Liu, Shoulong, Richter, Andreas, Shibistova, Olga, Guggenberger, Georg, Wu, Jinshui, and Ge, Tida

Published

2020

42. Rice paddy soils are a quantitatively important carbon store according to a global synthesis

Author

Liu, Yalong, Ge, Tida, van Groenigen, Kees Jan, Yang, Yuanhe, Wang, Ping, Cheng, Kun, Zhu, Zhenke, Wang, Jingkuan, Li, Yong, Guggenberger, Georg, Sardans, Jordi, Penuelas, Josep, Wu, Jinshui, and Kuzyakov, Yakov

Published

2021

43. Nitrogen fertilization alters the distribution and fates of photosynthesized carbon in rice–soil systems: a 13C-CO2 pulse labeling study

Author

Xiao, Mouliang, Zang, Huadong, Liu, Shoulong, Ye, Rongzhong, Zhu, Zhenke, Su, Yirong, Wu, Jinshui, and Ge, Tida

Published

2019

44. Carbon and nitrogen availability in paddy soil affects rice photosynthate allocation, microbial community composition, and priming: combining continuous 13C labeling with PLFA analysis

Author

Zhao, Ziwei, Ge, Tida, Gunina, Anna, Li, Yuhong, Zhu, Zhenke, Peng, Peiqin, Wu, Jinshui, and Kuzyakov, Yakov

Published

2019

45. Split N and P addition decreases straw mineralization and the priming effect of a paddy soil: a 100-day incubation experiment

Author

Wang, Dongdong, Zhu, Zhenke, Shahbaz, Muhammad, Chen, Liang, Liu, Shoulong, Inubushi, Kazuyuki, Wu, Jinshui, and Ge, Tida

Published

2019

46. In situ simultaneous measuring method for the determination of key processes of soil organic carbon cycling: Soil microbial respiration using laser spectrometry.

Author

Yuan, Hongzhao, He, Zhen, Zhang, Liping, Wang, Jiurong, Zhu, Zhenke, and Ge, Tida

Subjects

SOIL respiration, MICROBIAL respiration, HETEROTROPHIC respiration, CARBON cycle, CAVITY-ringdown spectroscopy, CARBON in soils

Abstract

Rationale: Soil microbial heterotrophic C‐CO2 respiration is important for C cycling. Soil CO2 differentiation and quantification are vital for understanding soil C cycling and CO2 emission mitigation. Presently, soil microbial respiration (SR) quantification models are based on native soil organic matter (SOM) and require consistent monitoring of δ13C and CO2. Methods: We present a new apparatus for achieving in situ soil static chamber incubation and simultaneous CO2 and δ13C monitoring by cavity ring‐down spectroscopy (CRDS) coupled with a soil culture and gas introduction module (SCGIM) with multi‐channel. After a meticulous five‐point inter‐calibration, the repeatability of CO2 and δ13C values by using CRDS‐SCGIM were determined, and compared with those obtained using gas chromatography (GC) and isotope ratio mass spectrometry (IRMS), respectively. We examined the method regarding quantifying SR with various concentrations and enrichment of glucose and then applied it to investigate the responses of SR to the addition of different exogenous organic materials (glucose and rice residues) into paddy soils during a 21‐day incubation. Results: The CRDS‐SCGIM CO2 and δ13C measurements were conducted with high precision (< 1.0 µmol/mol and 1‰, respectively). The optimal sampling interval and the amount added were not exceeded 4 h and 200 mg C/100 g dry soil in a 1 L incubation bottle, respectively; the 13C‐enrichment of 3%–7% was appropriate. The total SR rates observed were 0.6–4.2 µL/h/g and the exogenous organic materials induced ‐49%–28% of priming effects in native SOM mineralisation. Conclusions: Our results show that CRDS‐SCGIM is a method suitable for the quantification of soil microbial CO2 respiration, requiring less extensive lab resources than GC/IRMS. [ABSTRACT FROM AUTHOR]

Published

2024

47. C/P stoichiometry of dying rice root defines the spatial distribution and dynamics of enzyme activities in root-detritusphere

Author

Wei, Xiaomeng, Razavi, Bahar S., Hu, Yajun, Xu, Xingliang, Zhu, Zhenke, Liu, Yuhuai, Kuzyakov, Yakov, Li, Yong, Wu, Jinshui, and Ge, Tida

Published

2019

48. Fate of rice shoot and root residues, rhizodeposits, and microbial assimilated carbon in paddy soil - part 2: turnover and microbial utilization

Author

Zhu, Zhenke, Ge, Tida, Hu, Yajun, Zhou, Ping, Wang, Tingting, Shibistova, Olga, Guggenberger, Georg, Su, Yirong, and Wu, Jinshui

Published

2017

49. Belowground carbon allocation and dynamics under rice cultivation depends on soil organic matter content

Author

Zhu, Zhenke, Ge, Tida, Xiao, Mouliang, Yuan, Hongzhao, Wang, Tingting, Liu, Shoulong, Atere, Cornelius Taiade, Wu, Jinshui, and Kuzyakov, Yakov

Published

2017

50. Iron–organic carbon associations stimulate carbon accumulation in paddy soils by decreasing soil organic carbon priming

Author

Duan, Xun, primary, Li, Zhe, additional, Li, Yuhong, additional, Yuan, Hongzhao, additional, Gao, Wei, additional, Chen, Xiangbi, additional, Ge, Tida, additional, Wu, Jinshui, additional, and Zhu, Zhenke, additional

Published

2023