Hongjie Di
Zhejiang University
100 Papers
477 Citations
Hongjie Di is an academic researcher from Zhejiang University. The author has contributed to research in topics: Soil water & Nitrification. The author has an hindex of 31, co-authored 84 publications. Previous affiliations of Hongjie Di include Canterbury of New Zealand & Chinese Academy of Sciences.
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Papers
Remediation of organic amendments on soil salinization: Focusing on the relationship between soil salts and microbial communities.
TL;DR: In this article , the authors investigated the effect of organic amendments on soil salinization with melon (Cucumis melo L.) by reducing the availability of saline ions and shifting the soil microbial community.
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Potential for forage diet manipulation in New Zealand pasture ecosystems to mitigate ruminant urine derived N2O emissions: a review
Camilla A. Gardiner,Timothy J. Clough,Keith C. Cameron,Hongjie Di,Grant Edwards,Cam de Klein +5 more
TL;DR: This review suggests that plant secondary metabolites (PSMs) are more likely to perform a role in reducing N2O emissions since many PSMs have known antimicrobial properties and should be explored by evaluating forages for potential inhibitory PSMs.
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Protists modulate fungal community assembly in paddy soils across climatic zones at the continental scale.
Xing Huang,Jianjun Wang,Kenneth Dumack,Weiping Liu,Qichun Zhang,Yan He,Hongjie Di,Michael Bonkowski,Jianming Xu,Yong Li +9 more
TL;DR: The results reveal for the first time the nonnegligible effects of biotic factors on soil fungal community assembly across substantially different climatic zones and indicate that the intensity of fungi-protist interactions may stimulate the divergence of prey fungal communities.
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A lysimeter study of the fate of 15N‐labelled nitrogen in cow urine with or without farm dairy effluent in a grazed dairy pasture soil under flood irrigation
TL;DR: In this article, the authors determined the fate of cow urine nitrogen (N), labelled with 15N, applied to soil monolith lysimeters with or without DE application, and found that DE plus urine significantly increased pasture yield and p...
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High manure load reduces bacterial diversity and network complexity in a paddy soil under crop rotations
Haiyang Liu,Haiyang Liu,Xing Huang,Wenfeng Tan,Hongjie Di,Jianming Xu,Yong Li +6 more
- 06 Jul 2020
TL;DR: Investigation of the response of the soil microbiome to nine years of pig manure application at different rates revealed that the bacterial α-diversity in the rape season increased first and then decreased with increasing manure application rates, and a high manure load tended to decrease the bacterialα-d diversity in the rice season.
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