Interplanting potato with grapes improved yield and soil nutrients by optimizing the interactions of soil microorganisms and metabolites
Interplanting crops is the best method to grow crops synergistically for better utilization of land and agro-resources. Grape ( Vitis vinifera ) and potato ( Solanum tuberosum L.) have highly efficient agricultural planting systems in China, however, how soil physicochemical properties and soil micr...
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| Published in | Frontiers in plant science Vol. 15; p. 1404589 |
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| Main Authors | , , , , , , , , , , , , |
| Format | Journal Article |
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Frontiers Media S.A
09.09.2024
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| Abstract | Interplanting crops is the best method to grow crops synergistically for better utilization of land and agro-resources. Grape (
Vitis vinifera
) and potato (
Solanum tuberosum
L.) have highly efficient agricultural planting systems in China, however, how soil physicochemical properties and soil microbial communities and metabolites affect the output of grape-potato interplanting remained unknown. In this study, we employed three planting patterns (CK: grape monocropping; YY: grape interplanted with potato (variety ‘
Favorita
’); LS: grape interplanted with potato (variety ‘
Longshu7
’)) at two experimental sites i.e., the Huizhou (2022) site and the Qingyuan site (2023). The grape variety for all planting patterns was ‘
Sunshine Rose
’. Soil samples (top 0-20 cm) at both sites were collected to observe the diversity of bacterial communities and soil metabolites. Our findings revealed that, compared with monocropping, the interplanted systems resulted in higher concentrations of total nitrogen, available phosphorus, and available potassium and enhanced the activities of acid phosphatase, urease, and protease. The potato root exudates also altered the relative abundance of
Bacillus
,
Kaistobacter
, and
Streptomyces
in the rhizosphere. Among the soil metabolites, lipids and organic acids showed the most significant changes. Notably, 13-L-hydroperoxylinoleic acid is the key differentially abundant metabolite involved in the regulation of linoleic acid metabolism pathways. The association analyses of the metabolome, microbiome, and soil physicochemical properties revealed that the interactions of microbes and metabolites resulted in differences in the soil nutrient content, whereas the interactions of 13-L-hydroperoxylinoleic acid and
Firmicutes
improved the soil nutrient levels and bacterial composition in the interplanting systems. In summary, our findings demonstrated that intercropping grapes with potato ‘
Favorita
’ was better with respect to improving soil nutrients, soil enzyme activity, the diversity of soil bacteria, and soil metabolites without causing adverse impacts on grape yield. Overall, this study explained the physiological mechanisms by which soil microorganisms and metabolites promote potato growth in grape interplanting and provided new perspectives for the utilization of soil resources in vineyards. |
|---|---|
| AbstractList | Interplanting crops is the best method to grow crops synergistically for better utilization of land and agro-resources. Grape (
) and potato (
L.) have highly efficient agricultural planting systems in China, however, how soil physicochemical properties and soil microbial communities and metabolites affect the output of grape-potato interplanting remained unknown. In this study, we employed three planting patterns (CK: grape monocropping; YY: grape interplanted with potato (variety '
'); LS: grape interplanted with potato (variety '
')) at two experimental sites i.e., the Huizhou (2022) site and the Qingyuan site (2023). The grape variety for all planting patterns was '
'. Soil samples (top 0-20 cm) at both sites were collected to observe the diversity of bacterial communities and soil metabolites. Our findings revealed that, compared with monocropping, the interplanted systems resulted in higher concentrations of total nitrogen, available phosphorus, and available potassium and enhanced the activities of acid phosphatase, urease, and protease. The potato root exudates also altered the relative abundance of
,
, and
in the rhizosphere. Among the soil metabolites, lipids and organic acids showed the most significant changes. Notably, 13-L-hydroperoxylinoleic acid is the key differentially abundant metabolite involved in the regulation of linoleic acid metabolism pathways. The association analyses of the metabolome, microbiome, and soil physicochemical properties revealed that the interactions of microbes and metabolites resulted in differences in the soil nutrient content, whereas the interactions of 13-L-hydroperoxylinoleic acid and
improved the soil nutrient levels and bacterial composition in the interplanting systems. In summary, our findings demonstrated that intercropping grapes with potato '
' was better with respect to improving soil nutrients, soil enzyme activity, the diversity of soil bacteria, and soil metabolites without causing adverse impacts on grape yield. Overall, this study explained the physiological mechanisms by which soil microorganisms and metabolites promote potato growth in grape interplanting and provided new perspectives for the utilization of soil resources in vineyards. Interplanting crops is the best method to grow crops synergistically for better utilization of land and agro-resources. Grape (Vitis vinifera) and potato (Solanum tuberosum L.) have highly efficient agricultural planting systems in China, however, how soil physicochemical properties and soil microbial communities and metabolites affect the output of grape-potato interplanting remained unknown. In this study, we employed three planting patterns (CK: grape monocropping; YY: grape interplanted with potato (variety ‘Favorita’); LS: grape interplanted with potato (variety ‘Longshu7’)) at two experimental sites i.e., the Huizhou (2022) site and the Qingyuan site (2023). The grape variety for all planting patterns was ‘Sunshine Rose’. Soil samples (top 0-20 cm) at both sites were collected to observe the diversity of bacterial communities and soil metabolites. Our findings revealed that, compared with monocropping, the interplanted systems resulted in higher concentrations of total nitrogen, available phosphorus, and available potassium and enhanced the activities of acid phosphatase, urease, and protease. The potato root exudates also altered the relative abundance of Bacillus, Kaistobacter, and Streptomyces in the rhizosphere. Among the soil metabolites, lipids and organic acids showed the most significant changes. Notably, 13-L-hydroperoxylinoleic acid is the key differentially abundant metabolite involved in the regulation of linoleic acid metabolism pathways. The association analyses of the metabolome, microbiome, and soil physicochemical properties revealed that the interactions of microbes and metabolites resulted in differences in the soil nutrient content, whereas the interactions of 13-L-hydroperoxylinoleic acid and Firmicutes improved the soil nutrient levels and bacterial composition in the interplanting systems. In summary, our findings demonstrated that intercropping grapes with potato ‘Favorita’ was better with respect to improving soil nutrients, soil enzyme activity, the diversity of soil bacteria, and soil metabolites without causing adverse impacts on grape yield. Overall, this study explained the physiological mechanisms by which soil microorganisms and metabolites promote potato growth in grape interplanting and provided new perspectives for the utilization of soil resources in vineyards. Interplanting crops is the best method to grow crops synergistically for better utilization of land and agro-resources. Grape ( Vitis vinifera ) and potato ( Solanum tuberosum L.) have highly efficient agricultural planting systems in China, however, how soil physicochemical properties and soil microbial communities and metabolites affect the output of grape-potato interplanting remained unknown. In this study, we employed three planting patterns (CK: grape monocropping; YY: grape interplanted with potato (variety ‘ Favorita ’); LS: grape interplanted with potato (variety ‘ Longshu7 ’)) at two experimental sites i.e., the Huizhou (2022) site and the Qingyuan site (2023). The grape variety for all planting patterns was ‘ Sunshine Rose ’. Soil samples (top 0-20 cm) at both sites were collected to observe the diversity of bacterial communities and soil metabolites. Our findings revealed that, compared with monocropping, the interplanted systems resulted in higher concentrations of total nitrogen, available phosphorus, and available potassium and enhanced the activities of acid phosphatase, urease, and protease. The potato root exudates also altered the relative abundance of Bacillus , Kaistobacter , and Streptomyces in the rhizosphere. Among the soil metabolites, lipids and organic acids showed the most significant changes. Notably, 13-L-hydroperoxylinoleic acid is the key differentially abundant metabolite involved in the regulation of linoleic acid metabolism pathways. The association analyses of the metabolome, microbiome, and soil physicochemical properties revealed that the interactions of microbes and metabolites resulted in differences in the soil nutrient content, whereas the interactions of 13-L-hydroperoxylinoleic acid and Firmicutes improved the soil nutrient levels and bacterial composition in the interplanting systems. In summary, our findings demonstrated that intercropping grapes with potato ‘ Favorita ’ was better with respect to improving soil nutrients, soil enzyme activity, the diversity of soil bacteria, and soil metabolites without causing adverse impacts on grape yield. Overall, this study explained the physiological mechanisms by which soil microorganisms and metabolites promote potato growth in grape interplanting and provided new perspectives for the utilization of soil resources in vineyards. Interplanting crops is the best method to grow crops synergistically for better utilization of land and agro-resources. Grape (Vitis vinifera) and potato (Solanum tuberosum L.) have highly efficient agricultural planting systems in China, however, how soil physicochemical properties and soil microbial communities and metabolites affect the output of grape-potato interplanting remained unknown. In this study, we employed three planting patterns (CK: grape monocropping; YY: grape interplanted with potato (variety 'Favorita'); LS: grape interplanted with potato (variety 'Longshu7')) at two experimental sites i.e., the Huizhou (2022) site and the Qingyuan site (2023). The grape variety for all planting patterns was 'Sunshine Rose'. Soil samples (top 0-20 cm) at both sites were collected to observe the diversity of bacterial communities and soil metabolites. Our findings revealed that, compared with monocropping, the interplanted systems resulted in higher concentrations of total nitrogen, available phosphorus, and available potassium and enhanced the activities of acid phosphatase, urease, and protease. The potato root exudates also altered the relative abundance of Bacillus, Kaistobacter, and Streptomyces in the rhizosphere. Among the soil metabolites, lipids and organic acids showed the most significant changes. Notably, 13-L-hydroperoxylinoleic acid is the key differentially abundant metabolite involved in the regulation of linoleic acid metabolism pathways. The association analyses of the metabolome, microbiome, and soil physicochemical properties revealed that the interactions of microbes and metabolites resulted in differences in the soil nutrient content, whereas the interactions of 13-L-hydroperoxylinoleic acid and Firmicutes improved the soil nutrient levels and bacterial composition in the interplanting systems. In summary, our findings demonstrated that intercropping grapes with potato 'Favorita' was better with respect to improving soil nutrients, soil enzyme activity, the diversity of soil bacteria, and soil metabolites without causing adverse impacts on grape yield. Overall, this study explained the physiological mechanisms by which soil microorganisms and metabolites promote potato growth in grape interplanting and provided new perspectives for the utilization of soil resources in vineyards.Interplanting crops is the best method to grow crops synergistically for better utilization of land and agro-resources. Grape (Vitis vinifera) and potato (Solanum tuberosum L.) have highly efficient agricultural planting systems in China, however, how soil physicochemical properties and soil microbial communities and metabolites affect the output of grape-potato interplanting remained unknown. In this study, we employed three planting patterns (CK: grape monocropping; YY: grape interplanted with potato (variety 'Favorita'); LS: grape interplanted with potato (variety 'Longshu7')) at two experimental sites i.e., the Huizhou (2022) site and the Qingyuan site (2023). The grape variety for all planting patterns was 'Sunshine Rose'. Soil samples (top 0-20 cm) at both sites were collected to observe the diversity of bacterial communities and soil metabolites. Our findings revealed that, compared with monocropping, the interplanted systems resulted in higher concentrations of total nitrogen, available phosphorus, and available potassium and enhanced the activities of acid phosphatase, urease, and protease. The potato root exudates also altered the relative abundance of Bacillus, Kaistobacter, and Streptomyces in the rhizosphere. Among the soil metabolites, lipids and organic acids showed the most significant changes. Notably, 13-L-hydroperoxylinoleic acid is the key differentially abundant metabolite involved in the regulation of linoleic acid metabolism pathways. The association analyses of the metabolome, microbiome, and soil physicochemical properties revealed that the interactions of microbes and metabolites resulted in differences in the soil nutrient content, whereas the interactions of 13-L-hydroperoxylinoleic acid and Firmicutes improved the soil nutrient levels and bacterial composition in the interplanting systems. In summary, our findings demonstrated that intercropping grapes with potato 'Favorita' was better with respect to improving soil nutrients, soil enzyme activity, the diversity of soil bacteria, and soil metabolites without causing adverse impacts on grape yield. Overall, this study explained the physiological mechanisms by which soil microorganisms and metabolites promote potato growth in grape interplanting and provided new perspectives for the utilization of soil resources in vineyards. |
| Author | Xie, Yuming Wang, Li Lu, Yusheng An, Kang Yang, Kun Cheng, Xu Li, Xiaobo Zhou, Xiaoqi Liu, Jitao Shan, Jianwei Li, Chengchen Li, Bin Liao, Yongshan |
| AuthorAffiliation | 1 Guangdong Provincial Key Laboratory of Crops Genetics and Improvement, Crop Research Institute, Guangdong Academy of Agriculture Sciences , Guangzhou , China 2 Institute of Facility Agriculture, Guangdong Academy of Agriculture Sciences , Guangzhou , China 4 School of Ecology and Environmental Science, East China Normal University , Shanghai , China 3 Institute of Agricultural Resources and Environment, Guangdong Academy of Agricultural Sciences , Guangzhou , China 5 Guangdong Laboratory of Lingnan Modern Agriculture, Key Laboratory of Synthetic Biology, Ministry of Agriculture and Rural Affairs, Agricultural Genomics Institute at Shenzhen, Chinese Academy of Agricultural Sciences , Shenzhen , China |
| AuthorAffiliation_xml | – name: 2 Institute of Facility Agriculture, Guangdong Academy of Agriculture Sciences , Guangzhou , China – name: 5 Guangdong Laboratory of Lingnan Modern Agriculture, Key Laboratory of Synthetic Biology, Ministry of Agriculture and Rural Affairs, Agricultural Genomics Institute at Shenzhen, Chinese Academy of Agricultural Sciences , Shenzhen , China – name: 3 Institute of Agricultural Resources and Environment, Guangdong Academy of Agricultural Sciences , Guangzhou , China – name: 1 Guangdong Provincial Key Laboratory of Crops Genetics and Improvement, Crop Research Institute, Guangdong Academy of Agriculture Sciences , Guangzhou , China – name: 4 School of Ecology and Environmental Science, East China Normal University , Shanghai , China |
| Author_xml | – sequence: 1 givenname: Chengchen surname: Li fullname: Li, Chengchen – sequence: 2 givenname: Yuming surname: Xie fullname: Xie, Yuming – sequence: 3 givenname: Yongshan surname: Liao fullname: Liao, Yongshan – sequence: 4 givenname: Jitao surname: Liu fullname: Liu, Jitao – sequence: 5 givenname: Bin surname: Li fullname: Li, Bin – sequence: 6 givenname: Yusheng surname: Lu fullname: Lu, Yusheng – sequence: 7 givenname: Kun surname: Yang fullname: Yang, Kun – sequence: 8 givenname: Jianwei surname: Shan fullname: Shan, Jianwei – sequence: 9 givenname: Li surname: Wang fullname: Wang, Li – sequence: 10 givenname: Kang surname: An fullname: An, Kang – sequence: 11 givenname: Xiaoqi surname: Zhou fullname: Zhou, Xiaoqi – sequence: 12 givenname: Xu surname: Cheng fullname: Cheng, Xu – sequence: 13 givenname: Xiaobo surname: Li fullname: Li, Xiaobo |
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| Cites_doi | 10.1093/ee/nvy063 10.1371/journal.pone.0203238 10.3389/fmicb.2022.972587 10.3390/microorganisms8060834 10.3389/fmicb.2022.1004593 10.3389/fmicb.2023.1193990 10.1201/9781003286233-1 10.1038/srep27858 10.1007/s11368-018-2192-z 10.1016/j.ncrops.2023.11.002 10.1007/s11356-019-05697-8 10.1093/aob/mcw074 10.1016/j.still.2023.105867 10.1016/j.still.2023.105812 10.1186/s12870-020-02640-9 10.3389/fpls.2022.1090571 10.3389/fpls.2023.1110623 10.1016/j.still.2023.105857 10.1016/j.chemosphere.2018.10.134 10.1016/j.still.2023.105838 10.1007/s11104-005-4415-5 10.1007/s11356-015-4240-1 10.3389/fpls.2021.710139 10.1186/s12866-022-02470-9 10.3864/j.issn.0578-1752.2014.16.009 10.3389/fpls.2022.1018727 10.1016/j.fcr.2024.109267 10.7606/jissn.1009-104120210808 10.1038/s41598-017-00472-6 10.3389/fmicb.2022.956840 10.1016/j.ejsobi.2020.103176 10.2991/ifeesm-17.2018.387 10.1002/jobm.201500751 10.3390/microorganisms11020326 10.1016/j.apsoil.2021.104346 10.1016/S2095-3119(14)60864-9 |
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| Copyright | Copyright © 2024 Li, Xie, Liao, Liu, Li, Lu, Yang, Shan, Wang, An, Zhou, Cheng and Li. Copyright © 2024 Li, Xie, Liao, Liu, Li, Lu, Yang, Shan, Wang, An, Zhou, Cheng and Li 2024 Li, Xie, Liao, Liu, Li, Lu, Yang, Shan, Wang, An, Zhou, Cheng and Li |
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| Keywords | bacterial community variety metabolites enzyme activity 13-L-hydroperoxylinoleic acid |
| Language | English |
| License | Copyright © 2024 Li, Xie, Liao, Liu, Li, Lu, Yang, Shan, Wang, An, Zhou, Cheng and Li. 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. |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Edited by: Desouza Blaise, Central Institute for Cotton Research (ICAR), India Reviewed by: Nilantha Hulugalle, Australian National University, Australia These authors have contributed equally to this work Asit Mandal, Indian Institute of Soil Science (ICAR), India |
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| Snippet | Interplanting crops is the best method to grow crops synergistically for better utilization of land and agro-resources. Grape (
Vitis vinifera
) and potato (... Interplanting crops is the best method to grow crops synergistically for better utilization of land and agro-resources. Grape ( ) and potato ( L.) have highly... Interplanting crops is the best method to grow crops synergistically for better utilization of land and agro-resources. Grape (Vitis vinifera) and potato... |
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| Title | Interplanting potato with grapes improved yield and soil nutrients by optimizing the interactions of soil microorganisms and metabolites |
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