Cargando…
Soil chemistry, metabarcoding, and metabolome analyses reveal that a sugarcane—Dictyophora indusiata intercropping system can enhance soil health by reducing soil nitrogen loss
INTRODUCTION: Greater amounts of fertilizer are applied every year to meet the growing demand for food. Sugarcane is one of the important food sources for human beings. METHODS: Here, we evaluated the effects of a sugarcane—Dictyophora indusiata (DI) intercropping system on soil health by conducting...
| Autores principales: | , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Frontiers Media S.A.
2023
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10249477/ https://www.ncbi.nlm.nih.gov/pubmed/37303785 http://dx.doi.org/10.3389/fmicb.2023.1193990 |
| _version_ | 1785055568904323072 |
|---|---|
| author | Duan, Mingzheng Li, Yijie Zhu, Guanghu Wu, Xiaojian Huang, Hairong Qin, Jie Long, Shengfeng Li, Xiang Feng, Bin Qin, Sunqian Liu, Qi-Huai Li, Changning Wang, Lingqiang Li, Qing He, Tieguang Wang, Zeping |
| author_facet | Duan, Mingzheng Li, Yijie Zhu, Guanghu Wu, Xiaojian Huang, Hairong Qin, Jie Long, Shengfeng Li, Xiang Feng, Bin Qin, Sunqian Liu, Qi-Huai Li, Changning Wang, Lingqiang Li, Qing He, Tieguang Wang, Zeping |
| author_sort | Duan, Mingzheng |
| collection | PubMed |
| description | INTRODUCTION: Greater amounts of fertilizer are applied every year to meet the growing demand for food. Sugarcane is one of the important food sources for human beings. METHODS: Here, we evaluated the effects of a sugarcane—Dictyophora indusiata (DI) intercropping system on soil health by conducting an experiment with three different treatments: (1) bagasse application (BAS process), (2) bagasse + DI (DIS process), and (3) the control (CK). We then analyzed soil chemistry, the diversity of soil bacteria and fungi, and the composition of metabolites to clarify the mechanism underlying the effects of this intercropping system on soil properties. RESULTS AND DISCUSSION: Soil chemistry analyses revealed that the content of several soil nutrients such as nitrogen (N) and phosphorus (P) was higher in the BAS process than in the CK. In the DIS process, a large amount of soil P was consumed by DI. At the same time, the urease activity was inhibited, thus slowing down the loss of soil in the DI process, while the activity of other enzymes such as β-glucosidase and laccase was increased. It was also noticed that the content of lanthanum and calcium was higher in the BAS process than in the other treatments, and DI did not significantly alter the concentrations of these soil metal ions. Bacterial diversity was higher in the BAS process than in the other treatments, and fungal diversity was lower in the DIS process than in the other treatments. The soil metabolome analysis revealed that the abundance of carbohydrate metabolites was significantly lower in the BAS process than in the CK and the DIS process. The abundance of D(+)-talose was correlated with the content of soil nutrients. Path analysis revealed that the content of soil nutrients in the DIS process was mainly affected by fungi, bacteria, the soil metabolome, and soil enzyme activity. Our findings indicate that the sugarcane–DIS intercropping system can enhance soil health. |
| format | Online Article Text |
| id | pubmed-10249477 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2023 |
| publisher | Frontiers Media S.A. |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-102494772023-06-09 Soil chemistry, metabarcoding, and metabolome analyses reveal that a sugarcane—Dictyophora indusiata intercropping system can enhance soil health by reducing soil nitrogen loss Duan, Mingzheng Li, Yijie Zhu, Guanghu Wu, Xiaojian Huang, Hairong Qin, Jie Long, Shengfeng Li, Xiang Feng, Bin Qin, Sunqian Liu, Qi-Huai Li, Changning Wang, Lingqiang Li, Qing He, Tieguang Wang, Zeping Front Microbiol Microbiology INTRODUCTION: Greater amounts of fertilizer are applied every year to meet the growing demand for food. Sugarcane is one of the important food sources for human beings. METHODS: Here, we evaluated the effects of a sugarcane—Dictyophora indusiata (DI) intercropping system on soil health by conducting an experiment with three different treatments: (1) bagasse application (BAS process), (2) bagasse + DI (DIS process), and (3) the control (CK). We then analyzed soil chemistry, the diversity of soil bacteria and fungi, and the composition of metabolites to clarify the mechanism underlying the effects of this intercropping system on soil properties. RESULTS AND DISCUSSION: Soil chemistry analyses revealed that the content of several soil nutrients such as nitrogen (N) and phosphorus (P) was higher in the BAS process than in the CK. In the DIS process, a large amount of soil P was consumed by DI. At the same time, the urease activity was inhibited, thus slowing down the loss of soil in the DI process, while the activity of other enzymes such as β-glucosidase and laccase was increased. It was also noticed that the content of lanthanum and calcium was higher in the BAS process than in the other treatments, and DI did not significantly alter the concentrations of these soil metal ions. Bacterial diversity was higher in the BAS process than in the other treatments, and fungal diversity was lower in the DIS process than in the other treatments. The soil metabolome analysis revealed that the abundance of carbohydrate metabolites was significantly lower in the BAS process than in the CK and the DIS process. The abundance of D(+)-talose was correlated with the content of soil nutrients. Path analysis revealed that the content of soil nutrients in the DIS process was mainly affected by fungi, bacteria, the soil metabolome, and soil enzyme activity. Our findings indicate that the sugarcane–DIS intercropping system can enhance soil health. Frontiers Media S.A. 2023-05-25 /pmc/articles/PMC10249477/ /pubmed/37303785 http://dx.doi.org/10.3389/fmicb.2023.1193990 Text en Copyright © 2023 Duan, Li, Zhu, Wu, Huang, Qin, Long, Li, Feng, Qin, Liu, Li, Wang, Li, He and Wang. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms. |
| spellingShingle | Microbiology Duan, Mingzheng Li, Yijie Zhu, Guanghu Wu, Xiaojian Huang, Hairong Qin, Jie Long, Shengfeng Li, Xiang Feng, Bin Qin, Sunqian Liu, Qi-Huai Li, Changning Wang, Lingqiang Li, Qing He, Tieguang Wang, Zeping Soil chemistry, metabarcoding, and metabolome analyses reveal that a sugarcane—Dictyophora indusiata intercropping system can enhance soil health by reducing soil nitrogen loss |
| title | Soil chemistry, metabarcoding, and metabolome analyses reveal that a sugarcane—Dictyophora indusiata intercropping system can enhance soil health by reducing soil nitrogen loss |
| title_full | Soil chemistry, metabarcoding, and metabolome analyses reveal that a sugarcane—Dictyophora indusiata intercropping system can enhance soil health by reducing soil nitrogen loss |
| title_fullStr | Soil chemistry, metabarcoding, and metabolome analyses reveal that a sugarcane—Dictyophora indusiata intercropping system can enhance soil health by reducing soil nitrogen loss |
| title_full_unstemmed | Soil chemistry, metabarcoding, and metabolome analyses reveal that a sugarcane—Dictyophora indusiata intercropping system can enhance soil health by reducing soil nitrogen loss |
| title_short | Soil chemistry, metabarcoding, and metabolome analyses reveal that a sugarcane—Dictyophora indusiata intercropping system can enhance soil health by reducing soil nitrogen loss |
| title_sort | soil chemistry, metabarcoding, and metabolome analyses reveal that a sugarcane—dictyophora indusiata intercropping system can enhance soil health by reducing soil nitrogen loss |
| topic | Microbiology |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10249477/ https://www.ncbi.nlm.nih.gov/pubmed/37303785 http://dx.doi.org/10.3389/fmicb.2023.1193990 |
| work_keys_str_mv | AT duanmingzheng soilchemistrymetabarcodingandmetabolomeanalysesrevealthatasugarcanedictyophoraindusiataintercroppingsystemcanenhancesoilhealthbyreducingsoilnitrogenloss AT liyijie soilchemistrymetabarcodingandmetabolomeanalysesrevealthatasugarcanedictyophoraindusiataintercroppingsystemcanenhancesoilhealthbyreducingsoilnitrogenloss AT zhuguanghu soilchemistrymetabarcodingandmetabolomeanalysesrevealthatasugarcanedictyophoraindusiataintercroppingsystemcanenhancesoilhealthbyreducingsoilnitrogenloss AT wuxiaojian soilchemistrymetabarcodingandmetabolomeanalysesrevealthatasugarcanedictyophoraindusiataintercroppingsystemcanenhancesoilhealthbyreducingsoilnitrogenloss AT huanghairong soilchemistrymetabarcodingandmetabolomeanalysesrevealthatasugarcanedictyophoraindusiataintercroppingsystemcanenhancesoilhealthbyreducingsoilnitrogenloss AT qinjie soilchemistrymetabarcodingandmetabolomeanalysesrevealthatasugarcanedictyophoraindusiataintercroppingsystemcanenhancesoilhealthbyreducingsoilnitrogenloss AT longshengfeng soilchemistrymetabarcodingandmetabolomeanalysesrevealthatasugarcanedictyophoraindusiataintercroppingsystemcanenhancesoilhealthbyreducingsoilnitrogenloss AT lixiang soilchemistrymetabarcodingandmetabolomeanalysesrevealthatasugarcanedictyophoraindusiataintercroppingsystemcanenhancesoilhealthbyreducingsoilnitrogenloss AT fengbin soilchemistrymetabarcodingandmetabolomeanalysesrevealthatasugarcanedictyophoraindusiataintercroppingsystemcanenhancesoilhealthbyreducingsoilnitrogenloss AT qinsunqian soilchemistrymetabarcodingandmetabolomeanalysesrevealthatasugarcanedictyophoraindusiataintercroppingsystemcanenhancesoilhealthbyreducingsoilnitrogenloss AT liuqihuai soilchemistrymetabarcodingandmetabolomeanalysesrevealthatasugarcanedictyophoraindusiataintercroppingsystemcanenhancesoilhealthbyreducingsoilnitrogenloss AT lichangning soilchemistrymetabarcodingandmetabolomeanalysesrevealthatasugarcanedictyophoraindusiataintercroppingsystemcanenhancesoilhealthbyreducingsoilnitrogenloss AT wanglingqiang soilchemistrymetabarcodingandmetabolomeanalysesrevealthatasugarcanedictyophoraindusiataintercroppingsystemcanenhancesoilhealthbyreducingsoilnitrogenloss AT liqing soilchemistrymetabarcodingandmetabolomeanalysesrevealthatasugarcanedictyophoraindusiataintercroppingsystemcanenhancesoilhealthbyreducingsoilnitrogenloss AT hetieguang soilchemistrymetabarcodingandmetabolomeanalysesrevealthatasugarcanedictyophoraindusiataintercroppingsystemcanenhancesoilhealthbyreducingsoilnitrogenloss AT wangzeping soilchemistrymetabarcodingandmetabolomeanalysesrevealthatasugarcanedictyophoraindusiataintercroppingsystemcanenhancesoilhealthbyreducingsoilnitrogenloss |