The Substitution of Sphagnum for Peat as a Culture Substrate Reduces N2O Emissions from Vegetable Production Systems
Peat-based substrates have been widely used in greenhouse vegetable production (GVP). However, peat is a non-renewable resource, and there is a problem with N2O emissions when it is used in greenhouse vegetable production due to the application of large quantities of nutrient solutions. Sphagnum (SP...
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| Published in | Agronomy (Basel) Vol. 14; no. 2; p. 369 |
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| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
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01.02.2024
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| Abstract | Peat-based substrates have been widely used in greenhouse vegetable production (GVP). However, peat is a non-renewable resource, and there is a problem with N2O emissions when it is used in greenhouse vegetable production due to the application of large quantities of nutrient solutions. Sphagnum (SP) is a precursor substance and a renewable resource for peat formation, and it has good physical and chemical properties. However, there has been no study on the effect of using sphagnum to replace peat in greenhouse vegetable production on N2O emissions. Therefore, this study used a peat substrate as the control treatment (CK), with sphagnum replacing peat at 25% (25SP), 50% (50SP), 75% (75SP), and 100% (100SP) in six treatment groups. Moreover, lettuce was used as the experimental subject in potting experiments, and the physicochemical properties, N2O emissions, N2O isotope δ value, and N2O-related microbial activity and community structures were determined using different treatments. Compared with the CK treatment, the 25SP treatment significantly reduced N2O emissions by 55.35%, while the 75SP treatment significantly increased N2O emissions by 67.76%. The 25SP treatment reduced N2O to N2 to the highest extent and demonstrated the lowest contribution of fungal denitrification (FD) and bacterial nitrification (BN) processes, thereby resulting in lower N2O emissions. In contrast, NH4+ and NO3− were the main substrates for N2O emissions; the 75SP treatment had higher NH4+ and NO3− contents and a lower relative abundance of the nosZ gene, thereby resulting in higher N2O emissions. In addition, N2O production and reduction were dominated by bacterial denitrification for all treatments. Thus, this study analyzed the community composition of denitrifying bacterial genera and their association with physicochemical properties. The results indicated that the dominant denitrifying genus in the peat substrate was Rhodanobacter and that sphagnum replacement reduced the relative abundance of Rhodanobacter. The dominant genus was Massilia at 100% sphagnum replacement. More importantly, Rhodanobacter was correlated with C/N and electrical conductivity (EC), whereas Massilia was affected by NH4+ and the water-filled pore space (WFPS). Therefore, different denitrification-dominant genera were affected by different environmental factors, which indirectly affected N2O emission. In summary, the 25SP treatment was able to improve nitrogen use efficiency and had no significant effect on lettuce yield. Therefore, 25% sphagnum replacement is the most suitable percentage for peat replacement. |
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| AbstractList | Peat-based substrates have been widely used in greenhouse vegetable production (GVP). However, peat is a non-renewable resource, and there is a problem with N2O emissions when it is used in greenhouse vegetable production due to the application of large quantities of nutrient solutions. Sphagnum (SP) is a precursor substance and a renewable resource for peat formation, and it has good physical and chemical properties. However, there has been no study on the effect of using sphagnum to replace peat in greenhouse vegetable production on N2O emissions. Therefore, this study used a peat substrate as the control treatment (CK), with sphagnum replacing peat at 25% (25SP), 50% (50SP), 75% (75SP), and 100% (100SP) in six treatment groups. Moreover, lettuce was used as the experimental subject in potting experiments, and the physicochemical properties, N2O emissions, N2O isotope δ value, and N2O-related microbial activity and community structures were determined using different treatments. Compared with the CK treatment, the 25SP treatment significantly reduced N2O emissions by 55.35%, while the 75SP treatment significantly increased N2O emissions by 67.76%. The 25SP treatment reduced N2O to N2 to the highest extent and demonstrated the lowest contribution of fungal denitrification (FD) and bacterial nitrification (BN) processes, thereby resulting in lower N2O emissions. In contrast, NH4+ and NO3− were the main substrates for N2O emissions; the 75SP treatment had higher NH4+ and NO3− contents and a lower relative abundance of the nosZ gene, thereby resulting in higher N2O emissions. In addition, N2O production and reduction were dominated by bacterial denitrification for all treatments. Thus, this study analyzed the community composition of denitrifying bacterial genera and their association with physicochemical properties. The results indicated that the dominant denitrifying genus in the peat substrate was Rhodanobacter and that sphagnum replacement reduced the relative abundance of Rhodanobacter. The dominant genus was Massilia at 100% sphagnum replacement. More importantly, Rhodanobacter was correlated with C/N and electrical conductivity (EC), whereas Massilia was affected by NH4+ and the water-filled pore space (WFPS). Therefore, different denitrification-dominant genera were affected by different environmental factors, which indirectly affected N2O emission. In summary, the 25SP treatment was able to improve nitrogen use efficiency and had no significant effect on lettuce yield. Therefore, 25% sphagnum replacement is the most suitable percentage for peat replacement. Peat-based substrates have been widely used in greenhouse vegetable production (GVP). However, peat is a non-renewable resource, and there is a problem with N₂O emissions when it is used in greenhouse vegetable production due to the application of large quantities of nutrient solutions. Sphagnum (SP) is a precursor substance and a renewable resource for peat formation, and it has good physical and chemical properties. However, there has been no study on the effect of using sphagnum to replace peat in greenhouse vegetable production on N₂O emissions. Therefore, this study used a peat substrate as the control treatment (CK), with sphagnum replacing peat at 25% (25SP), 50% (50SP), 75% (75SP), and 100% (100SP) in six treatment groups. Moreover, lettuce was used as the experimental subject in potting experiments, and the physicochemical properties, N₂O emissions, N₂O isotope δ value, and N₂O-related microbial activity and community structures were determined using different treatments. Compared with the CK treatment, the 25SP treatment significantly reduced N₂O emissions by 55.35%, while the 75SP treatment significantly increased N₂O emissions by 67.76%. The 25SP treatment reduced N₂O to N₂ to the highest extent and demonstrated the lowest contribution of fungal denitrification (FD) and bacterial nitrification (BN) processes, thereby resulting in lower N₂O emissions. In contrast, NH4+ and NO₃⁻ were the main substrates for N₂O emissions; the 75SP treatment had higher NH₄⁺ and NO₃⁻ contents and a lower relative abundance of the nosZ gene, thereby resulting in higher N₂O emissions. In addition, N₂O production and reduction were dominated by bacterial denitrification for all treatments. Thus, this study analyzed the community composition of denitrifying bacterial genera and their association with physicochemical properties. The results indicated that the dominant denitrifying genus in the peat substrate was Rhodanobacter and that sphagnum replacement reduced the relative abundance of Rhodanobacter. The dominant genus was Massilia at 100% sphagnum replacement. More importantly, Rhodanobacter was correlated with C/N and electrical conductivity (EC), whereas Massilia was affected by NH₄⁺ and the water-filled pore space (WFPS). Therefore, different denitrification-dominant genera were affected by different environmental factors, which indirectly affected N₂O emission. In summary, the 25SP treatment was able to improve nitrogen use efficiency and had no significant effect on lettuce yield. Therefore, 25% sphagnum replacement is the most suitable percentage for peat replacement. |
| Author | Qi, Zhiyong Zhang, Dongdong Liang, Xiaofeng Wang, Hong Yang, Rui Zhang, Yudan Zhou, Wanlai Lin, Wei |
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| Cites_doi | 10.1007/s13399-015-0169-3 10.1007/s00374-019-01403-5 10.1016/j.watres.2022.118857 10.1016/j.ejsobi.2023.103491 10.1099/ijsem.0.001786 10.1016/j.soilbio.2021.108212 10.5194/bg-14-711-2017 10.1111/ejss.12782 10.1016/j.pedsph.2023.06.006 10.1111/j.1462-2920.2010.02301.x 10.1038/ismej.2013.160 10.1111/gcbb.13022 10.1016/j.scitotenv.2020.139669 10.1016/j.still.2023.105825 10.1128/spectrum.02591-21 10.1016/j.jclepro.2021.129442 10.1007/s11104-023-05957-0 10.1016/j.agee.2020.106885 10.3390/w13223251 10.1016/j.geoderma.2017.08.018 10.1080/15226514.2023.2191139 10.19103/AS.2020.0076 10.1016/j.scitotenv.2022.159046 10.1016/j.jenvman.2023.119326 10.1016/j.soilbio.2017.01.015 10.1016/j.soilbio.2020.107706 10.1016/j.envres.2019.108806 10.1126/science.1176985 10.1002/jobm.201600358 10.1016/j.mimet.2019.02.005 10.1073/pnas.2112108118 10.1007/s10533-022-00971-3 10.3389/fmicb.2022.1033210 10.1016/j.soilbio.2021.108250 10.1016/j.apsoil.2020.103629 10.1016/j.ecoleng.2015.08.002 10.1016/j.envres.2020.109818 10.1007/s00374-019-01420-4 10.3390/d13070328 10.5194/bg-13-1129-2016 10.1016/j.apsoil.2020.103638 |
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| Snippet | Peat-based substrates have been widely used in greenhouse vegetable production (GVP). However, peat is a non-renewable resource, and there is a problem with... |
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| SubjectTerms | Abundance agronomy Bacteria Biological activity Chemical properties Community composition community structure Crop production Denitrification dual-isotope map Efficiency Electrical conductivity Electrical resistivity Emissions Environmental factors genes Greenhouses isotopes lettuce Massilia Microbial activity microbial pathway Microorganisms N2O production and consumption Nitrification Nitrogen Nitrous oxide Nonrenewable resources Nutrient solutions nutrient use efficiency Peat Physicochemical properties Raw materials Relative abundance Renewable resources Rhodanobacter Sphagnum Substrates vegetable growing Vegetables |
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| Title | The Substitution of Sphagnum for Peat as a Culture Substrate Reduces N2O Emissions from Vegetable Production Systems |
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